Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational Education
EXPERIMENTAL EDUCATIONAL PROGRAM
Specialty: Power and Process Operations
Qualification: Power Systems Technician
Astana 2012
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ContentsEXPERIMENTAL EDUCATIONAL PROGRAM STRUCTURE 4 COLLECTION OF EXPERIMENTAL PROGRAMS BY TAUGHT SUBJECTS 17 STUDY CURRICULUM 188 METHODOLOGICAL GUIDELINES 189
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EXPERIMENTAL STUDY PROGRAMME STRUCTURE
Higher level specialists on programme: Power and Process OperationsQualification: Power Systems Technician
Form of study: fullStandard duration of study: 1 year 10 months On the base of: general secondary education
№ Study cycles of subjects and knowledge, skills and competency
requirements
Hours and credits
Name of subjects and units
1. General humanitarian subjects
640/24.0
Learning outcome:- Participate in a group discussion
on a basic topic- Communicate clearly- Articulate opinions on a given
topic- Produce a basic formal
presentation- Use basic pronunciation rules- Write notes on a presentation or
meeting- Give simple directions- Apply norms of academic, cultural
and social practices- Use current and emerging
technology within the academic environment
- Use effective life skills- Apply correct usage of English
grammar- Solve moderately complex
problems of a technical and non-technical nature through group discussion
- Express opinions, reasons, agreement and disagreement
- Use academic and subject-specific vocabulary in context
- Dissect the structures of academic lectures
- Derive meaning from moderately complex academic lectures
- Synthesize information from electronic sources
- Deliver presentations detailing moderately complex sequences of instructions or events
- Implement single-word pronunciation patterns
320/8.0 English Unit 1. Expressing oneselfUnit 2. CommunicationUnit 3. Expressing OpinionsUnit 4. PresentationsUnit 5. PronunciationUnit 6. Note takingUnit 7. Giving directionsUnit 8. ProfessionalismUnit 9. Using Current TechnologyUnit 10. Life skillsUnit 11. GrammarUnit 12. Problem solvingUnit 13. Vocabulary in contextUnit 14. OutliningUnit 15. Lecture comprehensionUnit 16. Electronic sources
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- Point out meaning from written text
- Apply correct usage of English grammar
- Parse parts of a paragraph- Write a simple sentence- Write a compound sentence- Write a complex sentence- Write a simple set of instructions- Establish the details of a simple
situation- Write the steps of a simple process- Apply basic punctuation
conventions (periods, commas and apostrophes)
- Deduce the meaning of vocabulary in context
- Demonstrate good control of simple sentence structures
- Demonstrate adequate control of complex sentence structures
- Apply rules of punctuation, spelling and capitalization
- Use academic and subject-specific vocabulary in context
- Dissect the structures of academic texts
- Write a variety of academic paragraphs
Learning outcome:- Offer apologies, requests, regrets
and excuses in a calm, controlled manner
- Respond verbally to apologies, requests, regrets and excuses in a calm, controlled manner
- Make an appointment or arrangement through direct verbal contact
- Apply techniques to manage a conversation in the amount of detail appropriate for the time frame
- Express a set of instructions in a verbal form
- Support one’s point of view through persuasive language and logical reasoning
- Use reasons and consequences to relate sequence of events
- Contribute to a small group discussion or meeting
- Apply verbal and non-verbal skills
320/8.0 Professional EnglishUnit 1. ApologizingUnit 2. Responding clearlyUnit 3. Making AppointmentsUnit 4. Managing a ConversationUnit 5. Giving InstructionsUnit 6. PersuadingUnit 7. Relating a Sequence of eventsUnit 8. Having a MeetingUnit 9. Presenting OrallyUnit 10. Note TakingUnit 11.ProfessionalismUnit 12. Comprehension and comprehensibilityUnit 13. Nonverbal CommunicationUnit 14. Effective listeningUnit 15. Measuring emotionsUnit 16. Giving feedbackUnit 17. Preparing and structuring your messageUnit 18. Meeting strategiesUnit 19. Effective PresentationsUnit 20. Listening and note taking
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while speaking- Separate specific factual details
from video or audio presentations- Assess the role of nonverbal cues
in your own communication- Adapt your listening habits to
listen more effectively for understanding and to respond empathetically and nonjudgmentally
- Measure the emotions of others before expressing opinions
- Express professional responses to situations that require positive or critical feedback
- Organise your ideas for one-on-one workplace meeting
- Formulate strategies for participating in small group discussion/meetings
- Combine communication principles to create and deliver presentations
- Write a sequence of events- Analyse a given location
subjectively and objectively- Write a process in multi-paragraph
form- Write formal e-mail messages- Complete a moderately complex
job application form- Create a point-form summary of an
oral message- Extract factual information from a
company policy document- Organise selected pieces of
information from a moderately complex reading passage into a point-form list
- Assess facts in diagrams, charts, or graphs
- Apply language to all writing tasks
Unit 21. SequencingUnit 22. Location DescriptionsUnit 23. ProcessesUnit 24. E-mailingUnit 25. FormsUnit 26. Extracting informationUnit 27. Point-form OrganizationUnit 28. Locating informationUnit 29. Functional languageUnit 30. Professionalism
2.
General professional subjects 640/16.0
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Learning outcome:- Demonstrate an understanding of
fundamental mathematical operations and their proper order
- Demonstrate an understanding of factors of whole numbers by determining the prime factors, greatest common factor, least common multiple, square root and cube root
- Solve problems that involve linear measurement, using SI and imperial units of measure, estimation strategies and measurement strategies
- Interpret and explain the relationships among data, graphs and situations
- Demonstrate an understanding of the absolute value of real numbers
- Demonstrate an understanding of angles in standard position [0C to 360°]
- Demonstrate an understanding of factoring polynomials of degree greater than 2 (limited to polynomials of degree < 5 with integral coefficients).
- Demonstrate an understanding of logarithms
- Demonstrate an understanding of operations on and compositions of functions
- Demonstrate an understanding of angles in standard position expressed in degrees and radians
240/6.0 Mathematics.Unit 1. Number SkillsUnit 2. Algebra and NumbersUnit 3. MeasurementUnit 4. Relations and FunctionsUnit 5. Algebra and NumbersUnit 6. TrigonometryUnit 7. Relations and FunctionsUnit 8. Polynomials and TransformationsUnit 9. Exponents and LogarithmsUnit 10. FunctionsUnit 11. Trigonometric Functions, Equations and Identities
Learning outcome:- Describe motion in terms of
displacement, velocity, acceleration and time
- Explain the effects of balanced and unbalanced forces on velocity
- Explain circular motion, using Newton s laws of motion
- Describe the conditions that produce oscillatory motion
- Explain how momentum is conserved when objects interact in an isolated system
- Explain the behavior of electric charges, using the laws that govern electrical interactions
- Explain the nature and behavior of
160/4.0 Physics.Unit 1. KinematicsUnit 2. DynamicsUnit 3. Circular Motion, Work and EnergyUnit 4. Oscillatory Motion and Mechanical WavesUnit 5. Momentum and Impulse LearningUnit 6. Forces and FieldsUnit 7. Electromagnetic RadiationUnit 8. Atomic Physics
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EMR using the wave model- Describe the electrical nature of
the atomLearning outcome:
- Explain the basic components of chemistry
- Describe the role of modelling, evidence and theory m explaining and understanding the structure, chemical bonding and properties of molecular substances
- Explain molecular behavior, using models of gaseous state of matter
- Investigate solutions, describing their physical and chemical properties
- Explain how balanced chemical equations indicate die quantitative relationships between reactants and products involved in chemical changes
- Determine and interpret energy changes in chemical reactions
- Explain the nature of oxidation-reduction reactions
- Explore organic compounds as a common form of matter
- Explain that there is a balance of opposing reactions in chemical equilibrium systems
- Determine quantitative relationships in simple equilibrium systems
160/4.0 Chemistry.Unit 1. Fundamentals of Chemistry and MatterUnit 2. The diversity of Matter and Chemical BondingUnit 3. Forms of Matter: GasesUnit 4. Matter as Solutions, Acids and BasesUnit 5. Quantitative Relationships in Chemical ChangesUnit 6. Thermochemical changesUnit 7. Electrochemical changesUnit 8. Chemical Changes of Organic CompoundsUnit 9. Chemical Changes Focusing on Acid-Base Systems
Learning outcome:- Explain the basic physical and
chemical properties of oil, natural gas and stratal water and apply this knowledge in the design of drilling fields;
- Understand the basics of the origins of oil and gas, explain the nature of the deposits formation;
- Understand and apply different methods of field searching and exploration, to describe the main stages of exploration of deposits
- Recognize the main stages of oil and gas, refinery processing, and understand their differences, classify the types of oil and gas refineries, evaluate the current state of oil and gas
- Choose and apply the modern
80/2.0 Introduction to Oil and Gas Business
Unit 1. Physical-chemical properties of the oil, natural gas and stratal waterUnit 2. Basic information on oil, gas and gas liquids depositsUnit 3. Basics of oil field development and operation of wellsUnit 4. Basics of Oil and Gas Refining ProcessUnit 5. Computer Technologies in Oil and Gas ProductionUnit 6. The World Oil Market
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petroleum applications software, used in the process of oil and gas production
- Understand the world oil and gas market conditions, the peculiarities of the international trade, the role of OPEC in the process of oil pricing.
3. Special subjects 900/36.0Learning outcome:
- Categorize matter and types of energy associated with matter in relation to chemical and physical change
- Associate atomic theory with chemical change and bond formation in molecules
- Utilize the organization of elements in the periodic table and associated trends to predict chemical properties of matter and bond type
- Apply rules of nomenclature for naming compounds to a variety of compounds and molecules
- Apply the principles of stoichiometry to predict amounts of reactants required or products produced in a chemical reaction
- Apply solution calculations to acid base reactions and titration chemistry
- Apply the principles of oxidation reduction chemistry to electrochemical cells
- Apply the principles of oxidation reduction chemistry to electrochemical cells
- Associate principles of metal corrosion to protection of metals in industry
- Apply the principles of organic chemistry to industrial process
- Interpret observations made in the performance of a variety of analytical procedures used in industrial process
60/3.0 Chemistry and CorrosionUnit 1. Basic Concepts aboutMatterUnit 2. The Structure of AtomsUnit 3. Periodicity and the Periodic TableUnit 4. Naming Compounds and MoleculesUnit 5. Chemical Equations and StoichiometryUnit 6. Solutions and Acids and BasesUnit 7. Oxidation-Reduction Reactions and ElectrochemistryUnit 8. Corrosion and Corrosion Control in IndustryUnit 9. Organic ChemistryUnit 10. Laboratory
Learning outcome:- Use the “Purpose, Audience,
Message” principle of effective business and technical communication
- Use words effectively to carry
30/1.5 Industrial Communications. Unit 1. Introduction to Effective Communication
Unit 2. Using LanguageEffectivelyUnit 3. Writing Clear Paragraphs
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clear messages- Write paragraphs to achieve your
objective- Write a memo instructing someone
to complete a specific task- Design and organize documents
using headings, lists, and other visual cues effectively
- Prepare a resume and cover letter that effectively portrays workplace skills
- Write a Grammar Competency Test to achieve a score of 80% or higher
Unit 4. Memos: Purpose andFunctionUnit 5. Structuring and DesigningDocumentsUnit 6. Writing a Resume & CoverLetterUnit 7. Grammar and Mechanics IUnit 8. Grammar and Mechanics IIUnit 9. Grammar and MechanicsIIIUnit 10. Grammar and MechanicsIV
Learning outcome:- Recognize your current level of
interpersonal communication skills and develop strategies to improve these skills in the workplace
- Explain how effective self-communication affects interpersonal communication
- Integrate the perception checking process into your interpersonal practices
- Explain the benefits of building listening skills and reducing listening barriers
- Summarize how spoken language has the power to shape workplace culture
- Interpret the use of non-verbal communication cues by yourself and others
- Interpret your own conflict resolution style and incorporate win/win conflict resolution techniques into your workplace relationships
- Integrate an awareness of diversity into effective workplace communication
- Differentiate between personal and workplace relationships
30/1.5 Communicating in the WorkplaceUnit 1. Introduction to InterpersonalCommunicationUnit 2. The Self and CommunicationUnit 3. PerceptionUnit 4. Listening EffectivelyUnit 5. Verbal CommunicationUnit 6. Non-Verbal CommunicationUnit 7. Conflict ResolutionUnit 8. Communication in a DiverseWorkplaceUnit 9. Personal Versus WorkplaceRelationships
Learning outcome:- Manage data retrieved from the
internet, email, or other documents- Create a document using word
processing software- Create a spreadsheet using
spreadsheet software- Create a presentation using
45/1.5 MS Office: An Introduction.Unit 1. Internet/E-mail/File ManagementUnit 2. WordUnit 3. ExcelUnit 4. PowerPoint
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presentation softwareLearning outcome:- Navigate the legislation addressing
Occupational Health and Safety in Alberta
- Use codes and provincial acts and regulations with respect to boilers and pressure vessels
- Apply the WHMIS system to controlled products used in the workplace
- Recommend procedures and practices to mitigate general workplace hazards
- Select appropriate fire extinguishing media based on the type of fire
- Recommend solutions to the environmental challenges that power generation facilities encounter
- Apply hazard control methods to mitigate risk in the workplace and deal with incidents that have occurred
- Apply Transporation of Dangerous Goods and Legislation to the shipping, packaging, labelling and documentation of goods that fall under TDG legislation
- Demonstrate an ability to identify potential medical difficulties and provide assistance until professional medical aid can be obtained
60/3.0 Safety and Environmental Protection.Unit 1. Introduction toOccupational Health and SafetyLegislationUnit 2. Industrial LegislationUnit 3. WHMISUnit 4. General SafetyUnit 5. Fire SafetyUnit 6. EnvironmentUnit 7. Mitigation of risksUnit 8. Transportation of dangerous goodsUnit 9. First assistance
Learning outcome:- Analyze the purpose of orifice
plates and describe the most commonly used types
- Analyze the construction and operation of the major types of centrifugal pumps
- Examine the operations, designs and main components of various refrigeration systems
- Apply the fundamentals of heat transfer in relation to heat transfer equipment used in industry
150/6.0 Process OperationsUnit 1. Flow Measurement - Orifice PlatesUnit 2. Centrifugal PumpsUnit 3. RefrigerationUnit 4. Heat Exchangers
Learning outcome:- Demonstrate basic understanding
of Gas Plants and Pulp Mills as well as Steam Related Oil, Food, and Sawmill Processes
60/3.0 Unit Operations.Unit 1. Introduction - Industrial ModulesUnit 2. Option 1 – RefrigerationUnit 3. Refrigeration Theory
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- Outline the safety requirements for a refrigeration plant
- Apply refrigeration theories to a variety of systems
- Compare and contrast the piping materials and connection methods used in refrigeration plants
- Explain the purpose of auxillary equipment in a refrigerant plant
- Analyze the main components of compression refrigeration
- Connect the controls of a refrigeration plant with its operation
- Analyze the main components of absorption refrigeration
- Summarize the processes of heating and ventilation in a HVAC system
- Summarize the processes of air-conditioning in a HVAC system
- Summarize the development of natural gas and surveying
- Locate well-sites, leases and surface facilities
- Identify various drilling methods and the safety issues associated with them
- Summarize the process used to establish initial production from a new well
- Apply the fundamentals of chemistry as they apply to oil and natural gases and their basic classifications and sales specifications
- Identify solutions for potential problems with production at oil and gas wells
- Identify the factors to consider when choosing a separator
- Choose the appropriate sampling method according to the guidelines for determining the vapour pressure of hydrocarbons
- Choose the appropriate sampling method according to the guidelines for determining the vapour pressure of hydrocarbons
- Summarize the basic processes used in gas plants, with reference to the market and government requirements
Unit 4. Refrigeration Plant ConnectionsUnit 5. Refrigeration Plant Auxiliary EquipmentUnit 6. Compression RefrigerationUnit 7. Refrigeration System Control and OperationUnit 8. Absorption RefrigerationUnit 9. Heating and Ventilation in HVAC SystemsUnit 10. Air Conditioning in HVACUnit 11. Option II – GPOUnit 12. Land Survey SystemsUnit 13. Drilling Methods and EquipmentUnit 14. Drilling Methods and EquipmentUnit 15. Testing, Completion, and ProductionUnit 16. Oil and Gas Composition and Sales SpecficationsUnit 17. Gas Line Heating and Field Production ProblemsUnit 18. SeparatorsUnit 19. Hydrocarbon SamplingUnit 20. Gas PlantsUnit 21. StabilizersUnit 22. Sulphur ProcessingUnit 23. Uninterrupted Power SuppliesUnit 24.Basic Economics
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- Determine the purpose and the procedures required to stabilize raw condensate
- Summarize the processes and operational considerations involved in the production of sulphur
- Indicate the purpose and operating principle of an uninterruptible power supply (UPS)
- Apply the basic principles of economics as they relate to the oil and gas industry
Learning outcome:- Describe the overall industrial
background and certification system for Power Engineering
- Sketch and describe the general construction features of watertube and firetube boilers
- Describe the development of boilers
- Make basic engineering sketches of plant equipment
- Name, describe and explain the operating principles of pressure gauges and safety valves found on low-pressure steam boilers
- Name, describe the purpose, and explain the operating principles of various boiler fittings found on steam boilers
- Describe the basic preparation of a boiler for start-up, and the start-up and shutdown procedures
- Describe the routine safe and efficient operation of a packaged boiler
- Discuss, sketch and describe the basic equipment used to supply combustion air to a boiler furnace
- Discuss the basic theory of combustion in a boiler, and the equipment used to provide proper combustion conditions
- Discuss various types of low-water fuel cutoffs
- Discuss boiler safety valves for power boilers and heating boilers
- Describe different types of direct and inferential level gauges or indicators
- Identify atoms, molecules,
180/6.0 Basic Plant Operations IUnit 1. Introduction to PowerEngineeringUnit 2. Basic Boiler ConstructionUnit 3. Watertube BoilersUnit 4. Sketching FundamentalsUnit 5. Basic Fittings for Low-Pressure Steam Boilers IUnit 6. Basic Fittings for LowPressure Steam Boilers IIUnit 7. Boiler Preparation, Start-upand ShutdownUnit 8. Routine and EmergencyBoiler OperationUnit 9. Boiler Draft EquipmentUnit 10. Introduction to BoilerCombustionUnit 11. Low-Water Fuel CutoffsUnit 12. Safety and Relief ValvesUnit 13. Water Columns and GageGlassesUnit 14. Basic Concepts aboutMatterUnit 15. External Feedwater TreatmentUnit 16. Internal Feedwater Treatment and Testing MethodsUnit 17. Continuous and Intermittent BlowdownUnit 18. Drum InternalsUnit 19. SootblowersUnit 20. Oil Burners for HeatingBoilersUnit 21. Gas Burners for HeatingBoilersUnit 22. Industrial LegislationUnit 23. Engineering MaterialsUnit 24. Welding MethodsUnit 25. Welding Terms andInspection
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elements and compounds and their basic interaction in chemical reactions
- Discuss the general principles, methods and equipment used in preparing raw feedwater
- Discuss the general principles, methods and equipment used in the internal treatment of raw feedwater for steam production in a boiler
- Describe the purposes, equipment and operation of continuous and intermittent Blowdown
- Describe drum internals- Discuss Sootblowers- Describe the various oil burners
used on heating boilers- Describe the operation of the
various types of gas burners used on heating boilers.
- Describe the purpose of provincial acts and regulations
- Describe the mechanical properties of engineering materials
- Describe oxyacetylene welding and its application
- Define welding terms- Describe the use of firetube boilers
for heating purposes- Describe the types of watertube
boilers used in heating systems- Describe and explain the uses of
cast-iron boilers- Describe electric boilers in regard
to their use and general design- Describe the purpose and
operating principles of basic boiler fittings on hot water boilers
- Describe the specific safe and efficient operational procedures that relate to automatically fired, low -pressure hot water and steam heating boilers
- Identify related processes in food processing plants, sawmills and oil refineries.
- Discuss the basic design of a hot oil system
- Discuss the basic theory and design of a fluidized bed steam generator
- Describe the basic equipment and processes used in the refining of
Unit 26. Firetube Heating BoilersUnit 27. Watertube and TubularHeating BoilersUnit 28. Cast-Iron Sectional andModular BoilersUnit 29. Electric BoilersUnit 30. Basic Fittings for Hot Water BoilersUnit 31. Hot Water and SteamHeating Boiler OperationUnit 32. Steam Related Oil, Foodand Sawmill ProcessesUnit 33. Hot Oil SystemsUnit 34. Fluidized Bed CombustionUnit 35. Introduction to Gas Plantsand Pulp Mills
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natural gas, and in the production of pulp and paper
Learning outcome:- Evaluate the operation of steam
turbines and cooling towers- Classify pumps and compressors
used in buildings and industry plants
- Select the appropriate lubricating oil for various applications
- Apply electrical theory to boiler programming and process operation
- Apply the principles of heat to the operation of boilers and burners
- Compare steam, water, air, infrared, and electric heating systems
- Evaluate the basic design for lighting a space and the various drainage systems used in buildings
- Demonstrate skills to operate a low pressure steam boiler
- Demonstrate the skills to operate a Hydrotherm/CB Flextube
- Demonstrate skills to safely operate an ammonia refrigeration system
- Demonstrate the skills to operate an ingersoll-rand air compressor
- Demonstrate the skills to operate a lister internal combustion engine
- Evaluate the operation of a gas turbine
- Evaluate the operation of a HVAC system
- Demonstrate the skills to safely operate a volcano boiler
- Demonstrate the skills to safely operate Moore Turbine/Alternator
180/6.0 Basic Plant Operations II.Unit 1. Prime Movers and EnginesUnit 2. Pumps and CompressorsUnit 3. LubricationUnit 4. Electricity, ControlsInstrumentation, & ProcessComputer ApplicationsUnit 5. Heating Boilers andHeating SystemsUnit 6. Steam and Water HeatingSystemsUnit 7. Auxillary Building SystemsUnit 8. Low Pressure Steam BoilerUnit 9. Hot Water BoilersUnit 10. Ammonia RefrigerationSystemUnit 11. Ingersoll-Rand AirCompressorUnit 12. Lister InternalCombustion EngineUnit 13. Inglis Boiler ControlsUnit 14. Gas TurbineUnit 15. HVAC SystemUnit 16. Volcano BoilerUnit 17. Moore Turbine/Alternator
Learning outcome:- Perform operations relevant to
applied mathematical principles- Perform calculations relevant to
basic mechanics- Apply the laws of thermodynamics
relevant to steam and heat transfer- Analyze the principles associated
with the thermodynamics of compressions based refrigeration
- Use a psychometric chart to solve problems
60/3.0 Thermodynamics.Unit 1. Basic Math ReviewUnit 2. Basic MechanicsUnit 3. Thermodynamics of SteamUnit 4. Thermodynamics ofRefrigerationUnit 5. Psychometric Chart
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- Describe the basic types of piping, piping connections, supports and drainage devices used in the steam industry.
- Describe valve design.- Describe the safe use of common
hand tools in the powerhouse- Describe the safe and proper setup
of equipment for hoisting and working above ground
Unit 1. Introduction to Piping and Piping FittingsUnit 2. Introduction to ValvesUnit 3. Powerhouse Maintenance IUnit 4. Powerhouse Maintenance IIUnit 5.Powerhouse Maintenance III
5.
Examinations 60
Mid-term examination 20
Final examination 40
Total 2240/68.0
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COLLECTION OF EXPERIMENTAL PROGRAMS BY TAUGHT SUBJECTS
Specialty: Power and Process OperationsQualification: Power System Technician
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CONTENTS
General Humanitarian Subjects1. English 192. Professional English 36General Professional Subjects1. Mathematics 502. Physics 603. Chemistry 694. Introduction to Oil and Gas 79Special Subjects 1. Chemistry and Corrosion 872. Industrial Communications 963. Communicating in the Workplace 1044. MS Office: An Introduction 1125. Safety and Environmental Protection 1196. Workshop Practice7. Process Operations 1278. Unit Operations 1349. Basic Plant Operations I 14710.Basic Plant Operations II 16411.Thermodynamics 17412.Workshop practices 181
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Ministry of Education and Science of the Republic of Kazakhstan
Technical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
English
Specialty: Power and Process Operations
Qualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1.
Description 22
2.
Course outline 23
3.
Study Methods 34
4.
Study Materials 34
5.
Course Texts 34
6.
Study Evaluation System 34
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080)
The subject of “English” – is an introduction to academic speaking and listening, reading and writing skills. The speaking component focuses on the development of basic group discussion and presentation skills. Huge listening component focuses on developing listening comprehension through audio-mediated information and guided note-taking. The pronunciation component provides basic skills and strategies for improved pronunciation. Grammar is integrated to support listening and speaking skills at this level.
Total Modules: 41. Number of Hours: 320.Credits: 8.0.The subject of “English” is the basis for the development of a working
program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests to alternate theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with the discipline “Professional English” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Expressing Oneself
Learning outcome:Participate in a group discussion on a basic topic.
Objectives:1.1 Ask questions.1.2. Respect others. 1.3. Negotiate meaning.1.4. Apply appropriate introductory conversational techniques.
Unit 2. Communication
Learning outcome:Communicate clearly
Objectives:2.1 Speak fluently2.2 Speak at appropriate volume2.3 Apply grammar rules2.4 Pronounce words clearly2.5 Use appropriate vocabulary2.6 Follow instructions2.7 Register information
Unit 3. Expressing opinions
Learning outcome:Articulate opinions on a given topic Objectives:3.1. State opinions on a given topic3.2. Support opinions3.3. Respond to opinions of others3.4. Apply appropriate communicational techniques.
Unit 4. Presentations
Learning outcome:Produce a basic formal presentation.
Objectives: 4.1 Identify components of a formal presentation
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4.2 Select a topic4.3 Create an outline for a formal presentation4.4 Deliver a formal presentation4.5 Respond to questions.
Unit 5. Pronunciation
Learning outcome:Use basic pronunciation rules
Objectives: 5.1. Explain pronunciation rules5.2. Introduce pronunciation terms5.3. Identify pronunciation symbols
Unit 6. Note Taking
Learning outcome:Write notes on a presentation meeting
Objectives: 6.1 Introduce the outline format.6.2 Take notes on a basic presentation or a meeting6.3 Transfer information to an outline format.Unit 7. Giving Directions
Learning outcome:Give simple directions
Objectives:7.1 Select a topic.7.2 Identify imperatives7.3 Identify prepositions.7.4 Identify order of importance
Unit 8. Professionalism
Learning outcome:Apply norms of academic, cultural and social practices
Objectives:8.1 Respect self and others8.2 Attend Punctually8.3 Follow SAIT policies and procedures8.4 Acknowledge diversity
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8.5 Apply academic conventions8.6 Demonstrate time-management skills8.7 Participate respectfully in group activities
Unit 9. Using Current TechnologyLearning Outcome:Use current and emerging technology within the academic environment.
Objectives:9.1 Examine the guidelines for CAN89.2 Review academic expectations regarding current technology9.3 Compose E-Mails
Unit 10. Life Skills
Learning outcome:Use effective life skills
Objectives:10.1. Discuss good daily habits.10.2. Give examples of difficulties encountered as a newcomer to Kazakhstan.10.3. Observe changes in Lifestyle.10.4. Ask questions
Unit 11. Grammar
Learning outcome:Apply correct usage of English grammar.
Objectives:11.1. Identify parts of speech11.2. Produce sentences with simple tenses11.3. Produce sentences with continuous tenses11.4. Produce sentences with subject-verb agreement11.5. Demonstrate usage of prepositions11.6. Demonstrate usage of parallel structure11.7. Demonstrate usage of adjectives and adverbs11.8. Demonstrate usage of nouns and pronouns11.9 Demonstrate usage of articles
Unit 12. Problem Solving
Learning outcome:Solve moderately complex problems of a technical and non-technical nature through group discussion
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Objectives:12.1. Analyze a moderately complex problem of a technical or non-technical nature12.2. Elect a chairperson.12.3. Summarize the causes and effects of the problem.12.4. Discuss potential solutions12.5 Choose one solution
Unit 13. Expressing oneself
Learning outcome:Express opinions, reasons, agreement and disagreement
Objectives: 13.1 State opinions13.2 Listen to the opinions of others13.3 Express agreement and/disagreement as necessary13.4 Explain opinions13.5 Give examples and/or reasons to support opinions
Unit 14. Vocabulary in context
Learning outcome:Use academic and subject-specific vocabulary in context
Objectives: 14.1 Identify words and phrases commonly used in academic lectures14.2 Classify words and phrases commonly used in academic lectures14.3 Use words and phrases commonly used in academic lectures to deliver a presentation14.4 Identify words and phrases commonly used in formal meetings14.5 Classify words and phrases commonly used in formal meetings14.6 Use words and phrases commonly used in formal meetings to participate in a synthesized meeting
Unit 15. Outlining
Learning outcome:Dissect the structures of academic lectures
Objectives:15.1 Break an academic lecture down into its topic; lecture plan primary supporting points, secondary supporting points, summary and recommendation15.2 Synthesize and academic lecture into outline form15.3 Produce an outline after listening for an academic presentation
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Unit 16. Lecture Comprehension
Learning outcome:Derive meaning from moderately complex academic lectures
Objectives:16.1 Recognize verbal and non-verbal cues.16.2 Recognize key information.16.3 Reproduce key information n note form.16.4 Discuss the lecture with others.16.5 Use the notes to answer questions about the lecture
Unit 17. Electronic Sources
Learning outcome: Synthesize information from electronic sources
Objectives:17.1 Research information on the Internet17.2 Copy useful information from the Internet into a Microsoft PowerPoint file17.3 Copy diagrams from Microsoft Excel into Microsoft PowerPoint17.4 Interpret audio-mediated information on CAN 817.5 Record information using CAN 8
Unit 18. Presentations
Learning outcome:Deliver presentations detailing moderately complex sequences of instructions or events
Objectives:18.1 Collaborate with one or more partners18.2 Decide upon one moderately complex sequence of instructions or events to present18.3 Produce an outline for an academic presentation18.4 Research information on the Internet and/or from other sources18.5 Interpret written and non-written visual information18.6 Design a Microsoft Power Point file to support the presentation18.7 Manage time effectively during the delivery of the presentation
Unit 19. Pronunciation II
Learning outcome:Implement single-word pronunciation patternsObjectives:
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19.1 Explain Syllable Rule19.2 Produce full and contracted syllables19.3 Produce stop and continuant sounds19.4 Produce voiced sounds19.5 Use basic linking patterns
Unit 20. Comprehension and Comprehensibility
Learning outcome:Communicate clearly
Objectives:20.1 Speak fluently20.2 Apply grammar rules20.3 Pronounce words clearly20.4 Use appropriate vocabulary20.5 Follow instructions20.6 Register information
Unit 21. Reading Comprehension
Learning outcome:Point out meaning from written text
Objectives:21.1 Predict content from titles, diagrams and pictures.21.2 Slam to identify general information.21.3 Observe meaning of vocabulary (work formation) in context.21.4 Scan to identify specific information.21.5 Identify the ma idea in a textUnit 22. Grammar Usage
Learning outcome:Apply correct usage of English grammar
Objectives:22.1 Identify parts of speech22.2 Produce sentences with simple tenses22.3 Produce sentences with continuous tenses22.4 Produce sentences with subject-verb agreement22.5 Demonstrate usage of prepositions22.6 Demonstrate usage of parallel structure22.7 Demonstrate usage of adjectives and adverbs22.8 Demonstrate usage of nouns and pronouns22.9 Demonstrate usage of articles
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Unit 23. Using Forms
Learning outcome:Extract specific types of information on different types of forms within an on-line or paper based calendar
Objectives:23.1 Identify different types of forms23.2 State the purpose of the text23.3 Get key information from a variety of forms, tables, diagrams, charts, calendars.23.4 Fill out forms
Unit 24. Outlining
Learning outcome: Parse parts of a paragraph
Objectives:24.1 Write an outline24.2 Identify supporting details24.3 Identify concluding sentences24.4 Identify links between paragraphs24.5 Identify topic sentences
Unit 25. Basic Writing ILearning outcome:Write a simple sentence
Objectives:25.1 Identify parts of a sentence25.2 Introduce parts of speech25.3 Introduce punctuation and capitalization25.4 Use correct word order
Unit 26. Basic Writing II
Learning outcome:Write a compound sentence
Objectives:
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26.1 Introduce main clauses26.2 Introduce coordinating conjunctions26.3 Introduce related punctuation26.4 Use correct word order
Unit 27. Basic Writing III
Learning outcome:Write a complex sentence
Objectives:27.1 Introduce dependent clauses 27.2 Introduce related punctuation27.3 Use correct word order
Unit 28. Writing instructions
Learning outcome:Write a simple set of instructions
Objectives:28.1 Explain the purpose of instructions28.2 Explain imperatives28.3 Explain order of importance28.4 Write a title28.5 Write a very short introduction28.6 Write a clear instruction28.7 Write a conclusion
Unit 29. Describing a simple situation
Learning outcome:Establish the details of a simple situation
Objectives:29.1 Introduce adjectives29.2 Observe sequence of events29.3 Compare facts29.4 Select proper tenses29.5 Select logical connectors
Unit 30. Describing a process
Learning outcome:Write the steps of a simple process
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Objectives:30.1 Identify steps30.2 Select logical connectors30.3 Indicate order of importance30.4 Write a title30.5 Write a very short introduction30.6 Write clear steps of a simple process30.7 Write a conclusion
Unit 31. Using Basic Punctuation Conventions
Learning outcome:Apply basic punctuation conventions (periods, commas and apostrophes)
Objectives:31.1 Select punctuation for compound sentences31.2 Select punctuation for complex sentences31.3 Observe the rules of capitalization 31.4 Observe the usage of apostrophes31.5 Use full-stops, commas, colons, question marks, exclamation marks, and apostrophes correctly
Unit 32. Use Effective Life Skills
Learning outcome:Use Effective Life Skills
Objectives:32.1 Discuss good daily habits32.2 Give examples of difficulties on English learning32.3 Observe changes in lifestyle 32.4 Explain how poor life style choices influence your academic performance
Unit 33. Use Effective Computer Skills
Learning outcome:Use effective computer skills
Objectives:33.1 Type homework and assignments33.2 Produce an e-mail33.3 Use Microsoft Word33.4 Use required software
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Unit 34. Reading Comprehension
Learning outcome:Ascertain the main ideas, supporting details and inferred meanings of technical and non-technical texts
Objectives:34.1 Skim a technical or non-technical text for the topic34.2 Identify the main idea of the text34.3 Scan the text for the details that support the main idea34.4 Examine the text for implicit messages
Unit 35. Defining vocabulary in context
Learning outcome:Deduce the meaning of vocabulary in context
Objectives:35.1 Distinguish unknown words from known words35.2 Classify the unknown words into their correct parts of speech35.3 Deduce possible meanings for the unknown words within the context of the text in which they are located
Unit 36. Simple Sentence Structures
Learning outcome:Demonstrate good control of simple sentence structures
Objectives:36.1 Express ideas in single clauses36.2 Use correct word order36.3 Use correct word forms
Unit 37. Complex Sentence Structures
Learning outcome:Demonstrate adequate control of complex sentence structures
Objectives:37.1 Express ideas in compound or complex sentences of two clauses37.2 Link clauses with appropriate connectors37.3 Avoid sentence fragments, comma-splices and run-on sentences
Unit 38. Punctuation, Spelling and Capitalization
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Learning outcome:Apply rules of punctuation, spelling and capitalization
Objectives:38.1 Use full-stops, commas, colons, semi-colons, quotation marks, question marks, exclamation marks, apostrophes accurately38.2 Spell words accurately and consistently38.3 Capitalize the first letter of: the first word of sentence, a proper noun, a proper adjective, every letter in an acronym, the first and the last word in a title, any content in a title
Unit 39. Using Vocabulary in Context
Learning outcome:Use academic and subject-specific vocabulary in context
Objectives:39.1 Use correct transitions39.2 Avoid weak words and phrases39.3 Avoid repetition39.4 Write concisely
Unit 40. Academic Text Structure
Learning outcome:Dissect the structures of academic texts
Objectives:40.1 Identify what’s missing in an academic text40.2 Break an academic text down into its topic sentences, concluding sentence, primary supporting sentences, secondary supporting sentences and transitions40.3 Synthesize and academic text into outline form
Unit 41. Academic Paragraph Writing
Learning outcome:Write a variety of academic paragraphs
Objectives:41.1 Generate ideas on topic 41.2 Organize the ideas into groups 41.3 Eliminate unnecessary ideas41.4 Create and outline for an academic paragraph41.5 Write academic paragraphs of division-and-classification, process, cause-of-effect, and compare-and-contrast
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41.6 Edit a paragraph for: structure; depth and appropriateness of content; errors of grammar, spelling, punctuation and capitalization
3. Study Methods:- In-class Discussions- Evaluation- Self-Assessments- Lectures/Laboratories- Collaborative Group Work- Guided Instructions- Reading Assignments
4. Study Materials:- E-books- Hand-out materials- USB flash drives- Headphones
5. Course Texts:
5.1. Gilbert, J. (2008). Clear Speech Pronunciation: Students Book with CD. New York: Cambridge. 5.2. Sarosy, P. And K. Sherak (2006). Lecture Ready 2 Strategies for Academic Listening, Note-taking, and Discussion. New York: Oxford 5.3. Troyka, Lynn Q. and D. Hesse. (2011). Quick Access:Reference for Writers (4th Canadian ed.). Canada: Pearson Education Canada.
6. Course Evaluation System
Comprehension and Comprehensibility 10 %In-class Assessments 50 %Pronunciation 10 %Professionalism 10%Assignments 20%Total 100 %
Grading schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.3
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63-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Professional English
Specialty: Power and Process Operations
Qualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1.
Description 39
2.
Course outline 40
3.
Study Methods 48
4.
Study materials 48
5.
Course Texts 48
6.
Study Evaluation System 49
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080)
The Course of “Professional English” – extends academic speaking and listening skills. The speaking component focuses on developing tie presentation skills required for participation in academic settings and taking part in academic discussions at a descriptive level. The listening component focuses on developing comprehension of descriptive conversations and academic presentations and independent note-taking through the use of audio-mediated information. Hue pronunciation component provides advanced skills and strategies for improved pronunciation. Linguistic terminology is used at this level Grammar is integrated to support listening and speaking skills at this level.
Total Modules: 29. Number of Hours: 320.Credits: 8.0.The Course of “Professional English” is the basis for the development of a
working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests to alternate theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with the discipline “English” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Apologizing
Learning outcome:Offer apologies, requests, regrets, and excuses in a calm, controlled manner
Objectives:1.1 Apologize in a variety of situation1.2. Make Specific polite requests 1.3. Show regret appropriately in a variety of situations1.4. Give excuses appropriately in a variety of situations1.5 Express appropriate voicing and syllable length in pronunciation1.6 Use direct and indirect speech
Unit 2. Responding Clearly
Learning outcome:Respond verbally to apologies, requests, regrets and excuses in a calm, controlled manner
Objectives:2.1 Respond to apologies in a variety of situations2.2 Respond to requests appropriately2.3 Respond to regret appropriately in a variety of situations2.4 Respond to excuses appropriately in a variety of situations2.5 Reject an apology, regret or excuse with clear reasoning
Unit 3. Making appointments
Learning outcome:Make an appointment or arrangement through direct verbal contact Objectives:3.1 Open a synchronous (telephone/face to face) conversation appropriately3.2 Use transitional expressions to lead into a change of topic3.3 Summarize a background information needed for making an appointments or
arrangements
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3.4 Ask questions to make appointments or arrangements3.5 Decline an appointment3.6. Confirm appointment or arrangement at the end of the conversation3.7 Close a conversation appropriately
Unit 4. Managing a Conversation
Learning outcome:Apply techniques to manage a conversation in the amount of detail appropriate for the time frame.
Objectives: 4.1 Interrupt appropriately4.2 Introduce the topic of conversation clearly and concisely4.3 React appropriately to non-verbal communication4.4 Use socially acceptable language to manage a conversation4.5 Close a conversation appropriately
Unit 5. Giving Instructions
Learning outcome:Express a set of instructions in verbal form
Objectives: 5.1 Use the imperative form of the verbs5.2 Use transitional expressions of time5.3 Emphasize key words for warnings or cautions5.4 Ensure the audience understands the instructions5.5 Enhance a verbal set of instructions with visuals
Unit 6. Persuading
Learning outcome:Support one's point of view through persuasive language and logical reasoning
Objectives: 6.1 State one’s point of view6.2 Use persuasive language to make a point6.3 Use logical reasoning to make a point6.4 Respond to another point of view appropriately
Unit 7. Relating a Sequence of Events
Learning outcome:Use reasons and consequences to relate a sequence of events
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Objectives:7.1 Relate a sequence of events in the past tense 7.2 Relate a. sequence of events in the amount of detail appropriate for the Time frame 7.3 Use a transitional expressions of time 7.4 Emphasize content wends Unit 8. Having a Meeting
Learning outcome:Contribute to a small group discussion or meeting
Objectives:8.1 Develop supporting reasons for a given opinion8.2 Agree on a mutual outcome for a given problem8.3 Apply functional language to express opinions in group discussions8.4 Demonstrate appropriate reactions to opinions of others8.5 Demonstrate application of syllable stress patterns
Unit 9. Presenting OrallyLearning Outcome:Apply verbal and non-verbal skills while speaking.
Objectives:9.1 Demonstrate appropriate presentation delivery skills.9.2 Select visuals aids that will support the topic.9.3 Create PowerPoint slides, including title, agenda, body slides, and conclusion.9.4 Deliver a comparison/contrast presentation
Unit 10. Note Taking
Learning outcome:Separate specific factual details from video or audio presentations
Objectives:10.1 Predict the subject matter based on the topic10.2 Identify the general/main idea10.3 Identify the supporting ideas10.4 Recall specific details10.5 Respond to questions10.6 Record notes10.7 Summarize key points
Unit 11. Comprehension and Comprehensibility
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Learning outcome:Communicate clearly
Objectives:11.1 Speak fluently in English11.2 Speak at an appropriate volume11.3 Apply grammar rules11.4 Pronounce words clearly11.5 Use appropriate vocabulary11.6 Follow instructions11.7 Register information
Unit 12. Nonverbal Communication
Learning outcome:Assess the role of nonverbal cues in your own communication
Objectives:12.1 Identify the characteristics of nonverbal communication12.2 Identify the types of nonverbal communication12.3 Describe nonverbal communication behaviors that could be misinterpreted by someone in another culture12.4 Identify the essential elements in interpreting nonverbal communication
Unit 13. Effective Listening
Learning outcome:Adapt your listening habits to listen more effectively for understanding and to respond empathetically and nonjudgmentally
Objectives: 13.1 Identify factors that have limited your listening effectiveness at school or on the job13.2 Confirm understand with paraphrased response13.3 Apply effective questioning techniques to clarify understanding13.4 Demonstrate active listening skills13.5 Analyze a workplace problem using the three guiding principles of effective listening
Unit 14. Measuring Emotions
Learning outcome:Measure the emotions of others before expressing opinions
Objectives:
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14.1 Analyze your current level of perception awareness14.2 Explain the consequences of poor perception accuracy and stereotyping14.3 Develop strategies for incorporating a perception checking process into your workplace communications14.4 Examine your value system with respect to prejudging others14.5 Develop methods on expressing or asking about possibility or probability
Unit 15. Giving Feedback
Learning outcome:Express professional response to situations that require positive or critical feedback
Objectives:15.1 Describe the role of feedback in a workplace environment 15.2 Analyze the positive and critical feedback you have received15.3 Identify defensive responses you have used15.4 Develop non-defensive responses15.5 Develop behaviors that promote non-defensive responses15.6 Apply steps for giving effective feedback15.7 Identify unspecified meanings in extended negative feedback
Unit 16. Preparing and Structuring Your Message
Learning outcome:Organize your ideas for one-on-one workplace meetings
Objectives:
16.1 Apply communication tactics for one-on-one workplace meeting.16.2 Conduct one-on-one workplace meeting16.3 Evaluate a one-on-one workplace meeting16.4 Discuss the lecture with others.16.5 Use the notes to answer questions about the lecture
Unit 17. Meeting Strategies
Learning outcome: Formulate strategies for participating in a small group discussion/meetings
Objectives:17.1 Articulate detailed information17.2 Develop supporting reasons for a given opinion17.3 Devise the strategies to hold the floor17.4 Integrate strategies for being conversational17.5 Agree on a mutual outcome for a given problem
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17.6 Produce functional Language for a group discussion17.7 Apply functional language to express opinions in a group discussion17.8 Demonstrate appropriate reactions to opinions of others
Unit 18. Effective Presentations
Learning outcome:Contribute communication principles to create and deliver presentations
Objectives:18.1 Create a presentation in MS Power Point18.2 Deliver impromptu and formal presentation18.3 Coordinate formal introductions of a guest speaker to a larger group18.4 Explain instructions related to moderately complex familiar technical and non-technical tasks18.5 Explain an extended suggestion on how to solve an immediate problem18.6 Demonstrate appropriate eye-contact, non-verbal communication, voice-tone, and dress style18.7 Explain the importance of matching appearance to audience18.8 Coordinate space, Delivery tools and content
Unit 19. Listening and Note-Taking
Learning outcome:Separate specific factual details from video and audio presentations
Objectives:19.1 Predict the subject matter based on the topic19.2 Identify the general/main idea19.3 Identify supporting ideas19.4 Recall specific details19.5 Comprehend simple technical and non-technical instructions19.6 Respond to questions19.7 Record notes19.8 Summarize key points
Unit 20. Sequencing
Learning outcome:Write a sequence of events
Objectives:20.1 List the logical sequence of a familiar event20.2 Combine events at the sentence level20.3 Combine sentences using a variety of transitional expressions
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20.4 Categorize similar ideas into appropriate paragraphs20.5 Identify topic sentences for each paragraph in the sequence
Unit 21. Location Descriptions
Learning outcome:Analyze the given location subjectively and objectively
Objectives:21.1 Describe the location in general terms.21.2 Describe the location in terms of its relationship to its surroundings21.3 Describe the placement of specific items within the location21.4 Describe the placement of specific items in relationship to each other within the location21.5 State factual details regarding size, shape, weight, height, breadth, density of items21.6 Compare and contrast the location of one place in relation to another21.7 Articulate personal opinion about the location of a place with reasons
Unit 22. Processes
Learning outcome:Write a process in multi-paragraph form
Objectives:22.1 Takes notes on picture story showing a process22.2 Take notes on a video showing process22.3 Organize process notes in chronological order22.4 Organize process notes in logical order22.5 Use Microsoft WORD columns, bullets, numbering, and multi-level lists
Unit 23. E-Mailing
Learning outcome:Write formal E-Mail messages
Objectives:23.1Write greeting and opening to an e-mail23.2 Format e-mail according to business/academic conventions23.3 Provide background information related to the content of an e-mail23.4 State purpose of an e-mail23.5 Write closing of an e-mail23.6 Create an e-mail
Unit 24. Forms
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Learning outcome: Complete a moderately complex job application form
Objectives:24.1 Search the internet for a company job application form24.2 Explain commonly used vocabulary in a job application form24.3 Fill in a job application form24.4 Compare information commonly requested on Kazakhstan job application forms on information commonly requested in other country job application forms24.5 Send a completed form via e-mail
Unit 25. Taking Notes
Learning outcome:Create a point-form summary of an oral message
Objectives:25.1 Write questions commonly asked to a city utilities company25.2 Write follow-up questions for confirmation and understanding25.3 Gather information on services offered by a city utilities company25.4 Organize notes into a summary of services including rates, services offered, and conditions
Unit 26. Extracting information
Learning outcome:Extract factual information from company policy document
Objectives:26.1 Summarize workplace scenarios26.2 Identify possible policy issues in a given workplace scenarios26.3 Identify company policy on a given matter26.4 Correlate possible policy issues with a company policy26.5 Conclude in writing whether or not policy is being followed or policy is being broken
Unit 27. Point-form Organization
Learning outcome:Organize selected pieces of information from a moderately complex reading passage into a point-form list
Objectives:27.1 Extract main ideas for text passage
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27.2 Extract supporting ideas form a reading passage27.3 Organize main ideas and supporting ideas in point form notes27.4 Use Microsoft WORD Paragraph functions to organize notes
Unit 28. Locating Information
Learning outcome:Assess facts in diagrams, charts, or graphs
Objectives:28.1 Identify Key words to find diagrams, charts or graphs online28.2 Apply Internet-Search techniques to narrow a search on a given topic28.3 Extract facts from a given diagram, chart or graph28.4 Discuss relevant and irrelevant data found in diagrams, charts and graphs28.5 Use facts found in diagrams, charts or graphs to support an argument28.6 Infer meaning from diagrams charts and graphs28.7 Use e-mail to share findings with teammates
Unit 29. Functional Language
Learning outcome:Apply language rules to all writing tasks
Objectives:29.1 Integrate transitional words and phrases29.2 Employ a variety of grammatical structures and tenses29.3 Construct parallel structures29.4 Demonstrate revising and editing skills to improve sentence structure and grammar
3. Study Methods:- In-class Discussions- Evaluation- Self-Assessments- Lectures/Laboratories- Collaborative Group Work- Guided Instructions- Reading Assignments
4. Study Materials:- E-books- Hand-out materials- USB flash drives- Headphones
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5. Course Texts:
5.1. Gilbert, J. (2008). Clear Speech Pronunciation: Students Book with CD. New York: Cambridge.5.2. Sarosy, P. And K. Sherak (2006). Lecture Ready 2 Strategies for Academic Listening, Note-taking, and Discussion. New York: Oxford5.3. Troyka, Lynn Q. and D. Hesse. (2011). Quick Access:Reference for Writers (4th
Canadian ed.). Canada: Pearson Education Canada.
6. Course Evaluation System
In-class Assignments 25 %Out-of class Assignments 30 %Tests/Quizzes 35%Professionalism 10%Total 100 %
Grading schedule
Percentage Grade Letter Grade Grade Points
90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Mathematics
Specialty: Power and Process Operations
Qualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1.
Description 53
2.
Course outline 54
3.
Study Methods 58
4.
Study Materials 58
5.
Course Texts 58
6.
Course Evaluation System 58
PAGE \* MERGEFORMAT194
1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080)
The subject of “Mathematics” – is designed to provide students with a foundational understanding of algebra, number systems, measurement, trigonometry, relations and functions. Among other topics, students will be introduced to concepts involving the use of exponent laws, factoring of polynomials, the measurements of different variables, the analysis of right angle triangles, as well as graphical analysis as it applies to relations and functions.
Total Modules: 11. Number of Hours: 240.Credits: 9.0.The subject of “Mathematics” is the basis for the development of a working
program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests to alternate theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with special disciplines allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Number Skills (Review)
Learning outcome:Demonstrate an understanding of fundamental mathematical operations and their proper order.
Objectives:1.1Demonstrate an understanding of adding and subtracting fractions and mixed
numbers, with like and unlike denominators, concretely, pictorially and symbolically.
1.2. Demonstrate and understanding of multiplying and dividing fractions and mixed numbers, concretely, pictorially and symbolically.
1.3. Explain and apply the order of operations, including exponents, with and without technology.
1.4. Represent generalizations arising from number relationships, using equations with letter variables.1.5. Express a given problem as an equation in which a letter variable is used to represent unknown number.1.6. Calculate basic mathematical operations using scientific notation.
Unit 2. Algebra and Numbers
Learning outcome:Demonstrate an understanding of factors of whole numbers by determining the prime factors, greatest common factor, least common multiple, square root and cube root.
Objectives:2.1 Determine the prime factors of a whole number.2.2 Explain why numbers 0 and 1 have no prime factors.2.3 Determine, using a variety of strategies, the greatest common factor or least
common multiple of a set of whole numbers, and explain the process.2.4 Determine, concretely, whether a given whole number is a perfect square, a
perfect cube or neither.2.5 Determine, using a variety of strategies, the square root of a perfect square and
explain the process.2.6 Determine, using a variety of strategies, the cube root of a perfect cube, and
explain the process..2.7 Solve problems that involve prime factors, greatest common factors, least
common factors multiplies, square roots or cube roots.
Unit 3. Measurement
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Learning outcome:Solve problems that involve linear measurement, using SI and imperial units of measure, estimation strategies and measurement strategies. Objectives:3.1 Provide referents for linear measurements, including millimeter, centimeter,
meter, kilometer, inch, foot, yard and mile, and explain the choices.3.2 Compare SI and imperial units, using referents.3.3 Estimate a linear measure, using a referent, and explain the process used.3.4 Justify the choice of units used for determining a measurement in a problem –
solving context.3.5 Solve problems that involve linear measure, using instruments such as rulers,
calipers or tape measures.3.6 Describe and explain a personal strategy used to determine a linear
measurement; e.g. circumference of a bottle, length of a curve, perimeter of the base of an irregular 3-D objects.
Unit 4. Relations and functions
Learning outcome:Interpret and explain the relationships among data, graphs and situations.
Objectives: 4.1 Graph, with or without technology, a set of data, and determine the restrictions
on the domain and range..4.2 Explain why data points should or should not be connected on the graph for a
situation.4.3 Describe a possible situation for a given graph.4.4 Sketch a possible graph for a given situation.4.5 Determine, and express in a variety of ways, the domain and range of a graph,
a set of ordered pairs or a table of values
Unit 5. Algebra and Numbers
Learning outcome:Determine equivalent forms of rational expressions [limited to numerators and denominators that are monomials, binomials or trinomials)
Objectives: 5.1 Compare the strategies for writing equivalent forms of rational expressions to the strategies for writing equivalent forms of rational numbers. 5.2 Explain why a given value is non-permissible for a given rational expression. 5.3 Determine the non-permissible values for a rational expression 5.4 Determine a rational expression that is equivalent to a given rational expression by multiplying the numerator and denominator by the same factor (limited to a
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monomial or a binomial) and state the non-permissible values of the equivalent rational expression.5.5 Simplify a rational expression 5.6 Explain why the non-permissible values of a given rational expression and its simplified form are the same.
Unit 6. Trigonometry
Learning outcome:Demonstrate an understanding of angles in standard position [0C to 360°]
Objectives: 6.1 Sketch an angle in standard position given the measure of the angle.6.2 Determine the reference angle for an angle in standard position.6.3 Explain using examples, how to determine the angles from 0° to 360° that have the same reference angle as a given angle.6.4 Illustrate, using examples, that any angle from 90D to 36011, is the reflection in the x-axis and/or the y-aoris of its reference angle. 6.5 Determine the quadrant in which a given angle in standard position terminates.6.6 Draw an angle in standard position given any point P(x,y) on the terminal arm of the angle.
Unit 7. Relations and Functions
Learning outcome:Factor polynomial expressions of the form:Where a, b and с are rational numbers.
Objectives:7.1. Factor a given polynomial expression that requires the identification of common factors 7.2. Determine whether a given binomial is a factor for a given polynomial expression and explain why or why not 7.3. Factor a given polynomial expression that has a quadratic pattern7.4. Factor a given polynomial expression of the form
Unit 8. Polynomials and Transformations
Learning outcome:Demonstrate an understanding of factoring polynomials of degree greater than 2 (limited to polynomials of degree < 5 with integral coefficients).
Objectives:
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8.1 Explain how long division of a polynomial expression by a binomial expression of the form x-a. apl. is related To synthetic division.8.2 Divide a polynomial expression by a binomial expression of the form x-a. a g I, using long division or synthetic division8.3 Explain the relationship between the linear factors of a polynomial expression and the zeros of the corresponding polynomial function.8.4 Explain the relationship between the remainder when a polynomial expression is divided by x-a, a £ I. and the value of the polynomial expression at x = a [remainder theorem).8.5 Explain and apply the factor theorem to express a polynomial expression as a product of factors.
Unit 9. Exponents and Logarithms
Learning outcome:Demonstrate an understanding of logarithms
Objectives:9.1 Explain the relationship between logarithms and exponents.9.2 Express a logarithmic expression as an exponential expression and vice versa 9.3 Determine, without technology, the exact value of a logarithm, such as log289.4 Estimate the value of a logarithm, using benchmarks, and explain the reasoning 9.5 Perform calculations with the natural logarithms (SAIT – written objective)9.6 Solve equations using the natural logarithms (SAIT –written objective)
Unit 10. Functions
Learning outcome:Demonstrate an understanding of operations on, and compositions of, functions
Objectives:10.1. Sketch the graph of a function that is the sum, difference, product or quotient of two functions, given their graphs 10.2. Write the equation of a function that is the sum, difference, product or quotient of two or more functions, given their equations10.3. Determine the domain and range of a function that is the sum, difference, product or quotient of two functions.10.4. Write a function h(x) as the sum, difference, product or quotient of two or more functions
Unit 11. Trigonometric Functions, Equations and Identities
Learning outcome:Demonstrate and understanding of angles in standard position expressed in degrees and radians
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Objectives:11.1 Sketch, in standard position, an angle (positive or negative) when the measure is given in degrees.11.2 Describe the relationship among different systems of angle measurement, with emphasis on radians and degrees.11.3 Sketch, in standard position, an angle with a measure expressed in the form к π radians, where k=Q.11.4 Express the measure of an angle in radians (exact value or decimal approximation), given its measure in degrees11.5 Express the measure of an angle in degrees, given its measure in radians (exact value or decimal approximation).11.6 Determine the measures, in degrees or radians, of all angles in a given domain that are conterminal with a given angle in standard position.11.7 Determine the general form of the measures, in degrees or radians, of all angles that are conterminal with a given angle in standard position 11.8 Explain the relationship between the radian measure of an angle in standard position and the length of the arc cut on a circle of radius r, and solve problems based upon that relationship.
3. Study Methods:- In-class discussions- Evaluation- Self-assessments- Lectures- Lab classes
4. Study Materials:- E-books- Hand-out materials- Calculators- USB flash drive
5. Course Texts:
5.1. Washington, A.Basic Technical Mathematics: SI Version(9th ed.). New Jersey, USA: Pearson Education Inc. 2009.
6. Course Evaluation System
Quizzes/Assignments 10 %Term Tests 60 %Comprehensive Final Exam 30 %Total 100 %
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Grading SchedulePercentage grade Letter grade Grade Points
90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Physics
Specialty: Power and Process Operations
Qualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
PAGE \* MERGEFORMAT194
Contents
1.
Description 63
2.
Course outline 64
3.
Study Methods 67
4.
Study Materials 67
5.
Course Texts 67
6.
Course Evaluation System 67
PAGE \* MERGEFORMAT194
1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080)
The Course of “Physics” – is an introduction of the fundamentals and theory of physics as it relates to technology. Problem solving is emphasized.
Total Modules: 8. Number of Hours: 160.Credits: 4.0.The subject of “Physics” is the basis for the development of a working
program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests to alternate theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with special disciplines allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
PAGE \* MERGEFORMAT194
2. Course outline
Unit 1. Kinematics (Review)
Learning outcome:Students will describe motion in touts of displacement, velocity, acceleration and time
Objectives:1.1 Define, qualitatively and quantitatively, displacement, velocity and
acceleration1.2 Define, operationally, and compare and contrast scalar and vector quantities1.3 Explain qualitatively and quantitatively, uniform and uniformly accelerated motion when provided with written descriptions and numerical and graphical data1.4 Interpret, quantitatively, the motion of one object relative to mother, using displacement and velocity vectors1.5 Explain, quantitatively, two-dimensional motion in a horizontal or vertical plane, using vector components
Unit 2. Dynamics
Learning outcome:Students will explain the effects of balanced and unbalanced forces on velocity
Objectives:2.1. Explain that a nonzero net force causes a change in velocity2.2. Apply Newton's first law of motion to explain, qualitatively, an object's state of rest or uniform motion2.3 Apply Newton’s second law of motion to explain, qualitatively, the relationships among net force, mass and acceleration2.4. apply Newton’ s third law of motion to explain qualitatively, the interaction between two objects, recognizing that the two forces, equal in magnitude and opposite in direction do not act on the same object2.5. Explain qualitatively and quantitatively, static and kinetic forces of friction acting on an object2.6. Calculate the resultant force, or its constituents, acting on an object by adding vector components graphically and algebraically2.7. Apply Newton’s laws of motion to solve, algebraically, linear motion problems in horizontal vertical and inclined planes near the surface of Earth ignoring air resistance.2.8. Analyze data and apply mathematical and conceptual models to develop and assess possible solutions.2.9 Use free-body diagrams to describe the forces acting on an object.
Unit 3. Circular motion, Work and Energy
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Learning outcome:Students will explain circular motion, listing Newton’s laws of motion
Objectives:3.1. Describe uniform circular motion as a special case of two-dimensional motion3.2. Explain, qualitatively and quantitatively, that the acceleration in uniform circular motion is directed toward the center of a circle3.3. Explain, quantitatively, the relationships among speed; frequency, period and radius for circular motion3.4. Explain, qualitatively, uniform circular motion in terms of Newton's laws of motion3.5. Explain, quantitatively, planetary and natural and artificial satellite motion, using circular motion to approximate elliptical orbits3.6. Predict the mass of a celestial body from the orbital data of a satellite in uniform circular motion around the celestial body3.7. Explain, qualitatively, how Kepler's laws were used in the development of Newton's law of universal gravitation
Unit 4. Oscillatory Motion and Mechanical Waves
Learning outcome:Students will describe the conditions that produce oscillatory motion
Objectives: 4.1 Describe oscillatory motions in terms of period and frequency4.2 Define simple harmonic motion as a motion due to a restoring force that is directly proportional and opposite to the displacement from an equilibrium position4.3 Explain quantitatively, the relationships among displacement- acceleration velocity and time for simple harmonic motion as illustrated by a frictionless. Horizontal mass-spring system or a pendulum using the small-angle approximation4.4 Determine, quantitatively the relationships among kinetic, gravitational potential and total mechanical energies of a mass executing simple harmonic motion4.5. Define mechanical resonance
Unit 5. Momentum and Impulse Learning
Learning outcome:Students will explain how momentum is conserved when objects interact in an isolated system
Objectives:
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5.1 Define momentum as a vector quantity equal to the product of the mass and the velocity of an object5.2 Explain quantitatively, the concepts of impulse and change in momentum, using Newton's laws of motion5.3 Explain qualitatively, that momentum is conserved in an isolated system5.4 Explain quantitatively, that momentum is conserved in one- and two-dimensional interaction in an isolated system5.5 Define, compare and contrast elastic and inelastic collisions, using quantitative examples, in terms of conservation of kinetic energy
Unit 6. Forces and Fields
Learning outcome:Students will explain the behavior of electric charges, using the laws that govern electrical interactions
Objectives: 6.1 Explain electrical interactions in terms of the law of conservation of charge6.2 Explain electrical interactions in terms of the repulsion and attraction of charges6.3 Explain, qualitatively, the distribution of charge on the surfaces of conductors and insulators6.4 Apply Coulomb’s law, quantitatively, to analyze the interaction of two point charges6.5 Determine, quantitatively, the magnitude and direction of the electric force on a point charge due to two or more other point charges in a plane6.6 Compare, qualitatively and quantitatively, the inverse square relationship as it is expressed by Coulomb's law and by Newton's universal law of gravitation.
Unit 7. Electromagnetic Radiation
Learning outcome:Students will explain the nature and behaviour of EMR using the wave model
Objectives: 7.1 Describe, qualitatively, how all accelerating charges produce EMR7.2 Compare and contrast the constituents of the electromagnetic spectnmi on the basis of frequency and wavelength7.3 Explain the propagation of EMR in terms of perpendicular electric and magnetic fields that are varying with time and travelling away from their source at the speed of light7.4 Explain qualitatively, various methods of measuring the speed of EMR7.5 Calculate the speed of EMR. given data from a Michelson-type experiment7.6 Describe, quantitatively, the phenomena of reflection and refraction, including total internal reflection
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7.7 Describe, quantitatively, simple optical systems, consisting of only one component, for both lenses and curved mirrors7.8. Describe, qualitatively, diffraction, interference and polarization7.9 Describe, qualitatively, how the results of Young's double-slit experiment support
Unit 8. Atomic Physics
Learning outcome:Students will describe the electrical nature of the atom
Objectives:8.1 Describe matter as containing discrete positive and negative charges8.2 Explain how the discovery of cathode rays contributed to the development of atomic models8.3 Explain J. J. Thomson's experiment and the significance of the results for both science and technology8.4 Explain, qualitatively, the significance of the results of Rutherford's scatteringexperiment, in terms of scientists' understanding of the relative size and mass of the nucleus and the atom.
3. Study Methods:- Lectures- Evaluation- Self-assessment- Lab Lessons
4. Study Materials:- E-books- Learning aids- Hand-out materials- Graphing calculator
5. Course Texts: 5.1. Ackrovd. J.E. et al. (2009). Physics. United States: Pearson
6. Course Evaluation System
Unit Tests 40 %Common Comprehensive Final Exam 30 %Labs 15 %Assignments and Quizzes 15 %Total 100 %
Grading Schedule Percentage Grade Letter Grade Grade Points
90-100 A+ 4.0PAGE \* MERGEFORMAT194
85-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
PAGE \* MERGEFORMAT194
Ministry of Education and Science of the Republic of Kazakhstan
Technical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Chemistry
Specialty: Power and Process Operations
Qualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
PAGE \* MERGEFORMAT194
Contents
1.
Description 72
2.
Course outline 73
3.
Study Methods 77
4.
Study materials 77
5.
Course Texts 77
6.
Study Evaluation System 77
PAGE \* MERGEFORMAT194
1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080)
The Course of “Chemistry” – includes mathematical, scientific, and laboratory standards for chemical measurement; elements and compounds: introduction to atomic theory and structure: periodic table of the elements; simple inorganic compounds; acids and bases; chemical equations; gas and solution stoichiometry; and chemical bonding.
Total Modules: 9. Number of Hours: 160.Credits: 4.0.The subject of “Chemistry” is the basis for the development of a working
program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests to alternate theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with special disciplines allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
PAGE \* MERGEFORMAT194
2. Course outline
Unit 1. Fundamentals of Chemistry and Matter
Learning outcome:Explain the basic components of Chemistry
Objectives:1.1Explain that she goal of science is knowledge about the natural world1.2 Explain that scientific knowledge and theories develop through hypotheses the collection of evidence, investigation and the ability to pdovi.de explanations.1.3 Explain that scientific knowledge is subject to change as new evidence becomes apparent and as laws and theories are tested and subsequently revised, reinforced or rejected1.4 Use appropriate International System of Unite (SI) notation, fundamental and derived units and significant digits.1.5 Convert between units, using dimensional analysis1.6 Outline the properties of matter, including slates and physical changes, components of mixtures, atoms, elements and compounds. and conservation of energy and mass1.7 Write empirical definitions of metals and non-metals1.8 Identify atoms and ions, charges, families, periods, representative elements, and transitional metals by using the periodic table1.9 Apply accepted ILPAC symbols and names of elements1.10 Define electron, proton, neutron, nucleus, atomic number. isotope, mass number, ion. cation, and anion.
Unit 2. Diversity of Chemical Matter and Bonding
Learning outcome:Describe the role of modeling, evidence and theory in explaining and understanding the structure, chemical bonding and properties of ionic compounds
Objectives:2.1. Recall principles for assigning names to ionic compounds2.2. Explain why formulas for ionic compounds refer to the simplest whole-number ratio of ions that result in a net charge of zero.2.3. Define Valence electron, electronegativity, ionic bound, intermolecular force2.4. Use periodic table and electron dot diagrams to support and explain ionic bonding theory.2.5. Explain how an ionic bond results from a simultaneous attraction of oppositely charged ions.2.6. Explain that ionic compounds from lattices and that these structures relate to the compound’s properties: e.g. melting point, solubility, reactivity
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Unit 3. Forms of Matter: Gases
Learning outcome:Explain molecular behavior using models of gaseous state of matter
Objectives:3.1. Describe and compare the behavior the real and natural gases in terms of the kinetic molecular theory3.2. Convert between The Celsius and Kelvin temperature 3.3. Explain the Law of combining volumes3.4. Illustrate how Boyle’s law and Charle’s law, individually and combined, relate to the ideal gas law (PV=nRT)
Unit 4. Matter as Solutions, Acid and Bases
Learning outcome:Investigate solution describing their physical and chemical properties
Objectives: 4.1 Recall the categories of pure substances and mixtures and explain the nature of homogeneous mixtures.4.2 Provide examples from living and nonliving systems that illustrate how dissolving substances in water is often a prerequisite for chemical change4.3 Explain dissolving as an endothermic or exothermic process with respect to the breaking and forming of bonds.4.4 Differentiate between electrolytes and nonelectrolytes4.5 Express concentration in various ways; i.e.. moles per litre of solution, percent by mass and parts per million4.6 Calculate, from empirical data, the concentration of solutions in moles per litre of solution and determine mass or volume from such concentrations 4.7 Calculate the concentrations and or volumes of diluted solutions and the quantities of a solution and water to use when diluting.4.8 Define solubility and identify related factors: i.e. temperature, pressure and miscibility4.9 Explain a saturated solution in terms of equilibrium; i.e. equal rates of dissolving and crystallization 4.10 Test for the formation of precipitates using a solubility table while recognizing factors, such as temperature, which affect the table’s values4.11 Describe the procedures and calculations required for preparing and diluting solutions
Unit 5. Qualitative Relationship in Chemical Changes
Learning outcome:
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Explain how balanced chemical equations indicate die quantitative relationships between reactants and products involved in chemical changes
Objectives: 5.1 Predict the produces) of a chemical reaction based upon die reaction type5.2 Recall die balancing of chemical equations in terms of atoms, molecules and moles5.3 Contrast quantitative and qualitative analysis5.4 Write balanced ionic and net ionic equations including identification of spectator ions, far reactions taking place in aqueous solutions 5.5. Calculate the quantities of reactants and/or products involved in chemical reactions, using gravimetric solution or gas stoichiometry
Unit 6. Thermochemical Changes
Learning outcome:Determine and interpret energy changes in chemical reactions
Objectives: 6.1 Recall the application of to the analysis of heat transfer6.2 Explain in a general way, how stored energy in the chemical bonds of hydrocarbons originated from the sun6.3 Define enthalpy and molar enthalpy for chemical reactions6.4 Write balanced equations for chemical reactions that include energy changes6.5 Use and interpret notation to communicate and calculate energy changes in chemical reactions6.6 Predict the enthalpy change for chemical equations using standard enthalpies of formation.6.7 Explain and use the Hess Law to calculate the energy changes for a net reaction from a series of reactions6.8 Use Calorimetric data to determine the enthalpy changes in chemical reactions6.9 Identify that liquid water and carbone dioxide gas are reactants in photosynthesis and products of cellular respiration and that gaseous water and carbon dioxide gas are the products of hydrocarbon combustion in an open system6.10 Classify chemical reactions as an endothermic and exothermic, including those, for the processes of photosynthesis, cellular respiration and hydrocarbon combustion
Unit 7. Electrochemical Changes
Learning outcome:Explain the nature of oxidation-reduction reactions
Objectives:7.1. Define oxidation and reduction operationally and theoretically
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7.2. Define oxidizing agent, reducing agent, oxidation number, half-reaction, and disproportionation7.3. Differentiate between redox reactions and other reactions, using half-reactions and/or oxidation numbers7.4. Identify electron transfer, oxidizing agents and reducing agents in redox reactions that occur in everyday life, in both living systems (e.g. cellular respiration, photosynthesis) and nonliving systems; e.g.. corrosion.7.5. Compare the relative strengths of oxidizing and reducing agents, using empirical data.7.6. Predict the spontaneity of a redox reaction, based on standard reduction potentials, and compare their predictions to experimental results.7.7. Write and balance equations for redox reactions in acidic and natural solutions by using half-reaction equations obtained from a standard reduction potential table developing simple half-reaction equations from information provided about redox changes, assigning oxidation numbers, where appropriate, to the species undergoing chemical changes7.8. Perform calculations to determine quantities of substances involved in redox titrations
Unit 8. Chemical Changes of Organic Compounds
Learning outcome:Explore organic compounds as common form of matter
Objectives:8.1 Define organic compounds as compounds containing carbon, recognizing inorganic exceptions such as carbonates, cyanides, carbides and oxides of carbon8.2 Identify and describe significant organic compounds in daily life, demonstrating generalized knowledge of their origins and applications; e.g.. methane, methanol, ethane, ethanol, ethanolic acid propane, benzene, octane, glucose, polyethylene 8.3 Identify types of compounds from the hydroxyl, carboxyl ester linkage and halogen functional groups, given the structural formula 8.4 Define structural isomerism as compounds having the same empirical formulas, but with different structural formulas, and relate the structures to variations m the properties of the isomers. 8.5 Compare, both within a homologous series and among compounds with different functional groups, the boiling points and solubility of examples of aliphatic. axiomatic. alcohols and carboxylic acids. 8.6 Describe, general terms, the physical, chemical and technological processes (fractional distillation and solvent extraction) used to separate organic compounds from natural mixtures or solutions: e.g. petroleum refining, bitumen recovery.
Unit 9. Chemical Changes Focusing on Acid-Base Systems
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Learning outcome:Explain that there is a balance of opposing reactions in chemical equilibrium systems
Objectives:9.1. Define equilibrium and state the criteria that apply to chemical system ш equilibrium: i.e. closed system, constancy of properties equal rates of forward and reverse reactions.9.2. Identify, write and interpret chemical equations for systems at equilibrium.9.3. Predict, qualitatively, using Le Chateher's principle, shifts in equilibrium caused by chaoses in temperature, pressure, volume, concentration or the addition of a catalyst and describe how these changes affect the equilibrium constant9.4. Define Arrhenius (modified) acids as substances that produce H3O-Г (aq) in aqueous solutions and recognize that the definition is limited.9.5 Define Arrhenius (modified) bases as substances that produce OH- (aq) in aqueous solutions and recognize that the definition is limited.9.6. Describe Bronsted-Lowiy acids as proton donors and bases as proton acceptors.
3. Study Methods:- In-class discussions- Evaluation- Unit tests- Self-assessment- Lab Lessons
4. Study materials:- E-books- Hand-out materials
5. Course Texts:5.1. Alberta Education. (2003). Chemistry Data Booklet.5.2. Jenkins, et al (2007). Chemistry (Alberta 20-30). Toronto. Ontario: Nelson.
6. Course Evaluation System
Term Work (Quizzes, Personal Assignments) 10 %
Lab Works 10 %Unit Tests 50 %Final Exam 30 %Total 100 %
Grading Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.0
PAGE \* MERGEFORMAT194
85-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
PAGE \* MERGEFORMAT194
Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Introduction to Oil and Gas Business
Specialty: Instrumentation Engineering Technology
Qualification: Industrial Instruments Technologist
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
PAGE \* MERGEFORMAT194
Contents
1.
Description 82
2.
Course outline 83
3.
Study Methods 85
4.
Study Materials 85
5.
Course Texts 85
6.
Course Evaluation System 85
PAGE \* MERGEFORMAT194
1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Introduction to Oil and Gas Business” aims to familiarize students with the physical-chemical basis of oil and natural gas, gives a basic knowledge of oil and gas, gas liquids fields, and the basics of the field development.
Total Modules: 6. Number of Hours: 80.Credits: 2.0.The Course of “Introduction to Oil and Gas Business” is the basis for the
development of a working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with the special subjects allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
PAGE \* MERGEFORMAT194
2. Course outline
Unit 1. Physical-chemical properties of the oil, natural gas and stratal water
Learning outcome:Explain the basic physical and chemical properties of oil, natural gas and stratal water and apply this knowledge in the design of drilling fields
Objectives:1.1 Learn the basic physical properties of oil1.2 Learn the basic chemical properties of oil1.3 Learn the basic physical properties of natural gas1.4 Learn the basic chemical properties of natural gas1.5 Learn the composition and properties of stratal water
Unit 2. Basic information on oil, gas and gas liquids deposits
Learning outcome:Understand the basics of the origins of oil and gas, explain the nature of the deposits formation
Objectives:2.1 Learn the basics of oil origins2.2 Learn the basics of gas origins2.3 Identify the notions of reservoir-bed, uplifted pools and deposits/reserves2.4 Classify the types of deposits2.5 Learn the composition and properties of rocks (permeability, geological and production settings of deposits)
Unit 3. Basics of oil field development and operation of wells
Learning outcome:Understand and apply different methods of field searching and exploration, to describe the main stages of exploration of deposits
Objectives: 3.1 Define the notion of well, drilling of well.3.2 Classify the aims and purposes of wells 3.3 Identify the methods of field exploration 3.4 Identify and learn the oil searching phase3.5 Identify and learn the oil exploration phase3.6 Identify and learn the commercial value of the deposits3.7 Identify the geological and production settings of deposits 3.8 Classify the oil deposits
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Unit 4. Basics of Oil and Gas Refining Process
Learning outcome:Recognize the main stages of oil and gas, refinery processing, and understand their differences, classify the types of oil and gas refineries, evaluate the current state of oil and gas
Objectives: 4.1 Demonstrate the knowledge of oil refinery products (fuel, petroleum oils and other petroleum products) 4.2 Classify the stages of oil refining4.3 Describe the process of oil refinery preparation4.4 Describe the 1st stage oil refinery process4.5 Describe the 2nd stage oil refinery process4.6 Describe the process of oil refinery cleaning 4.7 Classify the types of petroleum processing plants4.8 Describe the gas processing products 4.9 Describe the main objects of gas processing plants4.10 Describe the compressional method4.11 Describe the absorption method4.12 Describe the adsorbing method4.13 Describe the condensational method4.13 Describe the gas fractional units
Unit 5. Computer Technologies in Oil and Gas Production
Learning outcome:Choose and apply the modern petroleum applications software, used in the process of oil and gas production
Objectives: 5.1. Determine the software and hardware requirements in the oil and gas production process5.2. Use the Internet to determine needs for software applications5.3 Data input, operation and software troubleshooting, preparation of reports and graphs5.4 Use of selected software applications to effectively solve the petroleum production problems in specified time 5.5. Analyze the results of retrieved data
Unit 6. The World Oil Market
Learning outcome:Understand the world oil and gas market conditions, the peculiarities of the international trade, the role of OPEC in the process of oil pricing
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Objectives:6.1 Determine the notion of World Oil and Gas Market 6.2 Determine the notion of the International Trade6.3 Determine the notion of The OPEC and its role in the international trading6.4 Determine the notion of Oil Pricing and Gas Pricing
3. Study Methods:- In-class Discussions- Self-assessment work- Lectures- Lab Lessons
4. Study Materials:- Hand-Out materials- Computer based Classes- The use of the Internet
5. Course Texts:5.1 Samuel A.Van Vactor. Introduction to the Global Oil&Gas Business, Penn Well Corporation, Tulsa, Oklahoma, USA. 2010.5.2 Martin S.Raymond, William Leffler. Oil and Gas Production in Non-Technical Language. Penn Well Corporation, Tulsa, Oklahoma, USA, 2006.5.3 Korshak A.A., Shammazov А.М. “Basics of the Petroleum Engineering”, Ufa, 2005.
6. Course Evaluation System
Assignments 10 %Midterm Exams 60 %Final 30 %Total 100 %
Grade Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.7
PAGE \* MERGEFORMAT194
55-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
PAGE \* MERGEFORMAT194
Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Chemistry and Corrosion
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
PAGE \* MERGEFORMAT194
The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
PAGE \* MERGEFORMAT194
Contents
1.
Description 90
2.
Course outline 91
3.
Study Methods 94
4.
Study Materials 94
5.
Course Texts 95
6.
Course Evaluation System 95
PAGE \* MERGEFORMAT194
1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Chemistry and Corrosion” is an introduction to chemistry that includes concepts of classification of matter, atomic-base theory, oxidation-reduction and its relationship to electrochemistry and corrosion. A brief introduction is given to organic chemistry. Students are introduced to analytical chemical techniques commonly used in the petroleum industry and water treatment facilities.
Total Modules: 10. Number of Hours: 60.Credits: 3.0.The Course of “Chemistry and Corrosion” is the basis for the development
of a working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with subjects “Chemistry” and “Safety and Environment” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
PAGE \* MERGEFORMAT194
2. Course outline
Unit 1. Basic Concepts about Matter
Learning Outcome:Categorize matter and types of energy associated with matter in relation to chemical and physical change
Objectives:1.1 Categorize matter as a homogeneous or heterogeneous mixture or a pure substance that is classified as an element or compound on the basis of constituent components.1.2 Distinguish between matter and energy.1.3 Relate kinetic and potential energy to the physical and chemical characteristics of matter.1.4 Describe physical change in matter in relation to motion found in the three phases of matter.1.5 Identify the three phases of matter and apply the terminology associated with changes of phase.1.6 Differentiate between physical and chemical change in terms of the types of bonds involved in each type of change.
Unit 2. The Structure of Atoms
Learning Outcome:Associate atomic theory with chemical change and bond formation in molecules.
Objectives:2.1 Identify subatomic particles that constitute matter.2.2 State the atomic theory of matter.2.3 Apply terminology associated with the atomic theory.2.4 Explain energy levels within the atom in relation to the s and p orbitals and quantum levels in the atom.2.5 Illustrate electron distribution in elements of the first three periods of the periodic table using electron distribution, configuration and Lewis diagrams.2.6 Apply the duet and octet rule in relation to the reactivity of elements in the periodic table.2.7 Explain covalent, polar covalent and ionic bonding in molecules.
Unit 3. Periodicity and the Periodic Table
Learning Outcome:Utilize the organization of elements in the periodic table and associated trends to predict chemical properties of matter and bond type.
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Objectives:3.1 Describe the periodic law in relation to the periodic table.3.2 Use terminology associated with the periodic law.3.3 Relate the organization of elements in order of ascending atomic number to trends in ionization energy, electronegativity and atomic radii.3.4 Identify metals, metalloids and non-metals and their chemical properties in relation to their position in the periodic table.3.5 Predict bond formation between elements in the periodic table using position in the table and electronegativity values.3.6 Distinguish between ionic compounds and molecules in terms of bond type.3.7 Explain polar and non-polar covalent bonds, ionic bonds and metallic bonds.3.8 Explain dipole-dipole interaction and the formation of polar bonds such as the hydrogen bond.3.9 Identify molecules that are involved in hydrogen bonding.
Unit 4. Naming Compounds and Molecules
Learning Outcome:Apply rules of nomenclature for naming compounds to a variety of compounds and molecules.
Objectives:4.1 Distinguish ionic compounds from other compounds.4.2 Name and write the formulae for ionic compounds formed from frequently used polyatomic ions.4.3 Identify Type I and II elements and write their formula.4.4 Name and write formulae for covalently bonded compounds.4.5 Name and write formulae for acids that contain polyatomic ions with oxygen and those acids without oxygen.
Unit 5. Chemical Equations and Stoichiometry
Learning Outcome:Apply the principles of stoichiometry to predict amounts of reactants required or products produced in a chemical reaction.
Objectives:5.1 Define the mole and molar mass.5.2 Calculate the molar mass of compounds and molecules.5.3 Balance a chemical equation.5.4 Calculate amounts of reactants and products produced in chemical reactions using the principles of stoichiometry.5.5 Apply stoichiometry to reactions involved in industrial process.
Unit 6. Solutions and Acids and Bases
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Learning Outcome:Apply solution calculations to acid base reactions and titration chemistry.
Objectives:6.1 Describe a solution and concepts associated with solution chemistry6.2 Categorize solutes as soluble or insoluble in aqueous solutions using a standardchar6.3 Calculate solution concentrations as per cent, ppm, and molarity6.4 Describe acids and bases using the Arrhenius and Bronsted-Lowry definitions6.5 Describe the pH scale in relation to the concentration of hydrogen (hydronium) and hydroxide ions in solution6.6 Calculate pH, pOH and concentrations of acids in solution
Unit 7. Oxidation-Reduction Reactions and Electrochemistry
Learning Outcome:Apply the principles of oxidation reduction chemistry to electrochemical cells.
Objectives:7.1 Define oxidation and reduction in chemical reactions.7.2 Classify compounds in a chemical reaction as the oxidant or reductant in relation to electrons gained or lost.7.3 Write a net ionic equation using a standard chart for solubility of ionic compounds in aqueous solutions.7.4 Explain with the help of illustration the components of an electrochemical cell.7.5 Calculate the cell potential of an electrochemical cell using a standard reduction table.7.6 Apply the principles of oxidation reduction to electrowhinning using Faraday’sLaw.
Unit 8. Corrosion and Corrosion Control in Industry
Learning Outcome:Associate principles of metal corrosion to protection of metals in industry.
Objectives:8.1 Describe corrosion in relation to the activity of metals.8.2 Describe the steps involved in metal corrosion.8.3 Describe the role of the anode and cathode in corrosion of metals such as hydrogen embrittlement.8.4 Describe a sacrificial anode and its use to protect metals from corrosion.8.5 Explain how metals are protected from corrosion by using cathodic protection and impressed currents.8.6 Describe corrosion inhibitors and their application.
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8.7 Articulate the role of professional organizations such as NACE in industry.
Unit 9. Organic Chemistry
Learning Outcome:Apply the principles of organic chemistry to industrial process.
Objectives:9.1 Describe the carbon molecule in respect to orbital hybridization and structure of organic molecules.9.2 Name simple organic molecules using principles of nomenclature9.3 Classify organic molecules in terms of their structure and reactions characteristic to each class of molecule.9.4 Relate organic chemistry to industrial process.
Unit 10. LaboratoryLearning Outcome:Interpret observations made in the performance of a variety of analytical procedures used in industrial process.
Objectives:10.1 Measure API and Reid vapour pressure of fuel using standardized methods.10.2 Distill crude oil and construct a distillation graph.10.3 Construct a rudimentary calorimeter to calculate the molar heat of candle wax.10.4 Perform an acid-base titration to calculate the pH of an unknown acid.10.5 Measure the concentration of chloride and calcium and total ions in solution using titration.10.6 Measure conductivity of a solution using a conductivity meter as an indication of total ions in solution.10.7 Construct a calibration chart to calculate the concentration of ions in solution.10.8 Evaluate a number of metals in terms of their activity to develop an activity chart.10.9 Relate electrochemical principles to corrosion of metals.10.10 Calculate the cell potential of combined metals in a common conducting solution 3.2 Diagram three basic components required by UV absorption analyzers and two optional components.
3. Study Methods:- In-class Lectures- Field Trips- Personal assignments- Laboratory studies- Group Discussions
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4. Study Materials:- Electronic books- Hand-out materials- Lab Equipment- Instructor notes
5. Course Texts:5.1. P.Global. Power electricity
6. Course Evaluation System
Midterm exam 25% Final exam 25%Group laboratory reports submitted weekly 20%Online quizzes to evaluate theory and practice sheets 20%Labs 10%Total 100%
Grade Schedule Percentage Grade Letter Grade Grade Points
90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Industrial Communications
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 992. Course Outline 1003. Study Methods 1024. Study Materials 1025. Course Texts 1026. Course Evaluation System 103
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Industrial Communications” is designed to sharpen communication skills specifically related to the daily operation of an industrial plant.
Total Modules: 10. Number of Hours: 30.Credits: 1.5.The Course of “Industrial Communications” is the basis for the development
of a working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with subject “Communicating in the workplace” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course Outline
Unit 1. Introduction to Effective Communication
Learning Outcome:Use the “Purpose, Audience, Message” principle of effective business and technical communication.
Objectives:1.1 Define “communication” and explain the communication process.1.2 List barriers to effective communication.1.3 State the purpose, identify the audience, and plan the message when beginning the writing task.
Unit 2. Using Language Effectively
Learning Outcome:To use words effectively to carry clear messages.
Objectives:2.1 Substitute vague words with specific words to name exactly what you are talking about.2.2 Use plain language for easy understanding.2.3 Eliminate ambiguity in sentences.2.4 Differentiate between objective and subjective writing.2.5 Eliminate bias in a message.2.6 Use gender-free language to avoid sexist reactions.2.7 Cut unnecessary words out of your writing.
Unit 3. Writing Clear Paragraphs
Learning Outcome:Write paragraphs to achieve your objective.
Objectives:3.1 Identify topic sentences and supporting details in paragraphs.3.2 Edit paragraphs to ensure unity and coherence.3.3 Identify common patterns of development in paragraphs.3.4 Explain the rationale for using indirect or direct structure in paragraphs.
Unit 4. Memos: Purpose and Function
Learning Outcome:Write a memo instructing someone to complete a specific task.
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Objectives:4.1 Describe the format of memos and their functions in an organization.4.2 Identify effective subject lines in memos.4.3 Identify the three-part structure of a memo.
Unit 5. Structuring and Designing Documents
Learning Outcome:Design and organize documents using headings, lists, and other visual cues effectively.
Objectives:5.1 Compare the structure of a story to the structure of a report.5.2 Identify the three-part organization of business and technical documents.5.3 Identify the elements a writer can use to improve the appearance of a document for a reader’s benefit.5.4 Use first-, second-, and third-level headings correctly.5.5 Demonstrate the use of parallel point form lists and tables.
Unit 6. Writing a Resume & Cover Letter
Learning Outcome:Prepare a resume and cover letter that effectively portrays workplace skills.
Objectives:6.1 Evaluate your skills, qualifications, and personal qualities.6.2 Describe the components of a standard resume.6.3 Explain the benefits of the chronological, functional, combination, and electronic resumes.6.4 Describe the three-part structure of a cover letter.6.5 Identify the tone, point-of-view, and attitude that an effective job search package should reflect.
Unit 7. Grammar and Mechanics I
Learning Outcome:Write a Grammar Competency Test to achieve a score of 80% or higher.
Objectives:7.1 Identify spelling errors.7.2 Identify incorrect homonyms.7.3 Identify errors in the use of capital letters.
Unit 8. Grammar and Mechanics II
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Learning Outcome:Write a Grammar Competency Test to achieve a score of 80% or higher.
Objectives:8.1 Identify errors in the use of commas in sentences.8.2 Identify errors in the use of apostrophes in sentences.8.3 Identify errors in the use of quotation marks in sentences.
Unit 9. Grammar and Mechanics III
Learning Outcome:Write a Grammar Competency Test to achieve a score of 80% or higher.
Objectives:9.1 Identify errors in tense agreement in sentences.9.2 Identify errors in pronoun case in sentences.9.3 Identify errors in the use of adjectives and adverbs in sentences.9.4 Identify errors in subject-verb agreement in sentences.
Unit 10. Grammar and Mechanics IV
Learning Outcome:Write a Grammar Competency Test to achieve a score of 80% or higher.
Objectives:10.1 Identify errors in pronoun reference and shifts.10.2 Identify sentence fragments.10.3 Identify comma splice and fused sentences.10.4 Identify misplaced and dangling modifiers.
3. Study Methods:- In-class Lectures/Discussions- Field trips- Personal assignments- Laboratory studies- Workshops- Consultations- Student teams
4. Study Materials:- Electronic books- Hand-out materials- Lab Equipment
5. Course Texts:
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5.1. P. Global. Power electricity 6. Course Evaluation System
Two grammar quizzes (2 x 15%) 30% Descriptive paragraphs (for shift reports) 4 x 10% 40%Work order memorandum 15% Resume & cover letter 15%Total 100%
Grade Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Communicating in the Workplace
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1072. Course Outline 1083. Study Methods 1104. Study Materials 1105. Course Texts 1106. Course Evaluation System 110
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Communicating in the Workplace” explores interpersonal communications and how strong communications skills may be applied to positive workplace relationships. The course work is designed to help you become a more effective communicator in the increasingly diversified workplace.
Total Modules: 9. Number of Hours: 30.Credits: 1.5.The Course of “Communicating in the Workplace” is the basis for the
development of a working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with subject “Industrial Communication” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course Outline
Unit 1. Introduction to Interpersonal Communication
Learning Outcome:Recognize your current level of interpersonal communication skills and develop strategies to improve these skills in the workplace.
Objectives:1.1 Analyze your current level of interpersonal communication skills.1.2 Develop strategies to incorporate new communication skills into a workplacesituation.1.3 Analyze the benefits of improved workplace interpersonal communication skills.
Unit 2. The Self and Communication
Learning Outcome:Explain how effective self-communication affects interpersonal communication.
Objectives:2.1 Analyze your current understanding of yourself.2.2 Explain how your self-understanding affects workplace communications.2.3 Develop strategies for incorporating your understanding of self-concept,self-esteem and self-disclosure into your relationships
Unit 3. Perception
Learning Outcome:Integrate the perception checking process into your interpersonal practices.
Objectives:3.1 Analyze your current level of perception awareness.3.2 Explain the consequences of poor perception accuracy and stereotyping.3.3 Develop strategies for incorporating a perception checking process into your workplace communications.3.4 Examine your value system with respect to prejudging others.
Unit 4. Listening Effectively
Learning Outcome:Explain the benefits of building listening skills and reducing listening barriers.
Objectives:4.1 Analyze your current level of active listening skills.
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4.2 Develop strategies to incorporate a range of active listening skills into yourworkplace communications.4.3 Identify factors that have limited your listening effectiveness in the workplace.
Unit 5. Verbal Communication
Learning Outcome:Summarize how spoken language has the power to shape workplace culture.
Objectives:5.1 Discuss the relationship between words and thought.5.2 Analyze the consequences of discriminatory language.5.3 Develop strategies that will help you to be a supportive communicator.5.4 Consider the impact of gender and ethnicity-biased language on workplace relationships.
Unit 6. Non-Verbal Communication
Learning Outcome:Interpret the use of non-verbal communication cues by yourself and others.
Objectives:6.1 Analyze your current understanding of what constitutes non-verbal communication.6.2 Analyze how culture, gender and emotion can lead to misinterpretation of non-verbal communication.6.3 Develop strategies for incorporating a broader understanding of non-verbal communication into your workplace relationships.
Unit 7. Conflict Resolution
Learning Outcome:Interpret your own conflict resolution style and incorporate win/win conflict resolution techniques into your workplace relationships.
Objectives:7.1 Analyze your current conflict resolution style.7.2 Differentiate between productive and destructive approaches to conflict resolution.7.3 Develop strategies for incorporating new techniques into your problem solvingrepertoire.
Unit 8. Communication in a Diverse Workplace
Learning Outcome:
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Integrate an awareness of diversity into effective workplace communication.
Objectives:8.1 Reflect on your current understanding of diversity.8.2 Analyze the benefits of a diverse workplace.8.3 Develop strategies for using the strengths of diverse workplace teams.
Unit 9. Personal Versus Workplace Relationships
Learning Outcome:Differentiate between personal and workplace relationships.
Objectives:9.1 Outline the process of relational development for individuals.9.2 Explore organizational relationships.
3. Study Methods:- In-class Lectures/Discussions- Field Trips- Personal assignments- Class assignments- Laboratory studies- Textbook readings - Website activities and readings - Discussion board - Reviewing a movie(s).
4. Study Materials:- Electronic books- Lab Equipment- Handouts
5. Course Texts: 5.1. Beebe, Steven A., Susan J. Beebe, Mark V. Redmond, Terri M. Geerinck. Interpersonal Communications Relating to Others (4th ed.). Toronto: Pearson Education. 2007. ISBN: 0205459927. 5.2. Materials from site http://wps.prenhall.com/ca
6. Course Evaluation System
Assignment One - Reflective Journal: 25%Assignment Two - Response To Film: 25%Assignment Three - Facilitating On-line Discussions: 20%Assignment Four - Research Paper: 30%Total: 100%
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Grade Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
MS Office: An Introduction
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1152. Course Outline 1163. Study Methods 1174. Study Materials 1175. Course Texts 1176. Course Evaluation System 117
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “MS Office: An Introduction” covers practical skills needed for Windows file management, Internet, e-mail and training in word processing, spreadsheet, database, and presentation software.
Total Modules: 4. Number of Hours: 45.Credits: 1.5.The Course of “MS Office: An Introduction” is the basis for the
development of a working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with subject “Technological Processes” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Internet/E-mail/File Management
Learning Outcome:Manage data retrieved from the internet, email, or other documents.
Objectives:1.1 Execute internet searches using Uniform Resource Locators, Search Engines,Boolean Search Operators.1.2 Gather information obtained from the Internet.1.3 Access an existing e-mail account.1.4 Send e-mail.1.5 Attach documents to an e-mail.1.6 Setup e-mail and internet security options.1.7 Manage a folder structure on local and portable storage devices.1.8 Compress large files.1.9 Demonstrate proper file naming conventions.1.10 Manage contacts and distribution lists, tasks and calendar appointments.
Unit 2. Word
Learning Outcome:Create a document using word processing software.
Objectives:2.1 Output a simple document.2.2 Format a paragraph.2.3 Setup tabs.2.4 Create a table.2.5 Create a template.2.6 Enter text in columns.2.7 Insert graphics and drawing objects.2.8 Format a long document.2.9 Generate a table of contents, captions, referencing and indexes.
Unit 3. Excel
Learning Outcome:Create a spreadsheet using spreadsheet software.
Objectives:3.1 Input repetitive data in a worksheet quickly.3.2 Customize Excel templates to automate common tasks3.3 Format numbers in a worksheet.
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3.4 Apply conditional formatting to identify specific data in a worksheet.3.5 Define data with borders, shading and background images.3.6 Add comments to a worksheet.3.7 Build formulas to perform worksheet calculations.3.8 Apply cell addressing schemes to facilitate copying formulas.3.9 Link worksheet data, both internally and externally.3.10 Build three-dimensional formulas to calculate data on multiple worksheets.3.11 Audit formulas to ensure accuracy.3.12 Execute mathematical functions.3.13 Create a chart.
Unit 4. PowerPoint
Learning Outcome:Create a presentation using presentation software.
Objectives:4.1 Design a presentation.4.2 Incorporate slide masters, graphics, animation, and slide transitions.4.3 Incorporate slide notes, slide options, and timings into a presentation.4.4 Export presentations to onscreen, web-based, and portable
3. Study Methods- Class Discussions- Computer-aided Presentation- Demonstrations- Evaluation- Guided Instruction- Independent Study- Lecture/Laboratory
4. Study Materials- Thumb drive (optional).
5. Course Texts 5.1. Electronic course books
6. Course Evaluation SystemFinal Exam 50%Assignment(s) 30%Powerpoint Presentations 20%Total 100%
Grade Schedule
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Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Safety and Environmental Protection
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1222. Course outline 1233. Study Methods 1254. Study Materials 1265. Course Texts 1266. Course Evaluation System 126
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Safety and Environmental Protection” provides an introduction to safety problems and safe practices in industry and an appreciation of the potential environmental impact of air, water, waste and noise. Some discussion on the handling of waste and perception of risk, environmental responsibility and sustainable development are included.
Total Modules: 9. Number of Hours: 60.Credits: 3.0.The Course of “Safety and Environmental Protection” is the basis for the
development of a working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with subject “Process Operations” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Introduction to Occupational Health and Safety Legislation
Learning Outcome:Navigate the legislation addressing Occupational Health and Safety in Alberta.
Objectives:1.1 Outline key aspects of the Alberta Occupational Health and Safety (OHS) Act.1.2 Describe the main responsibilities of workers and employers set out in the Alberta OHS Act.1.3 Describe the conditions that must exist before a worker can refuse work.1.4 Identify key concepts of Section 15 of the Alberta OHS Regulation.1.5 Outline key Parts of the Alberta OHS Code that apply to all industries.1.6 Explain how changes are made to the Alberta OHS Act, Regulation and Code.
Unit 2. Industrial Legislation
Learning Outcome:Use codes and provincial acts and regulations with respect to boilers and pressure vessels.
Objectives:2.1 State the purpose and function of the ASME boiler and pressure committee2.2 Describe provincial acts and regulation and the major sections of the Safety Codes Act2.3 Connect the regulations in the Alberta Safety Codes Act pertaining to design, construction and installation of boilers and pressure vessels2.4 Interpret the regulations that apply to engineers and pressure welders
Unit 3. WHMIS
Learning Outcome:Apply the WHMIS system to controlled products used in the workplace.
Objectives:3.1 Explain the significance of the Workplace Hazardous Materials InformationSystem3.2 Explain the significance of WHMIS labels and their application to the worksite3.3 Use an (MSDS) material safety data sheet to determine appropriate handling procedures for a controlled product encountered in the workplace
Unit 4. General Safety
Learning Outcome:
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Recommend procedures and practices to mitigate general workplace hazards.
Objectives:4.1 Determine the cost and effect of workplace injuries4.2 Describe various types of personal protective equipment most frequently used on worksites4.3 Describe the general procedures involved in the isolation of plant equipment4.4 Describe the procedures needed to enter into, or work safely in confined spaces4.5 Describe the procedures for safe storage and handling of cylinders containing gasses4.6 Describe the effect of hydrogen sulphide on the health and safety on individuals in the workplace
Unit 5. Fire Safety
Learning Outcome:Select appropriate fire extinguishing media based on the type of fire.
Objectives:5.1 Differentiate between flaming and glowing fires5.2 Identify the four classes of fires5.3 Describe the types of fire extinguishers and how they work5.4 Describe electrical fires
Unit 6. Environment
Learning Outcome:Recommend solutions to the environmental challenges that power generation facilities encounter.
Objectives:6.1 Differentiate between the air, water and soil cycles and explain the interdependency of the ecosystem and food webs6.2 Describe the environmental impacts of gaseous and noise pollutants6.3 Examine the problems of dealing with thermal pollutants and solid ash and the solutions available6.4 Describe the impact of liquid waste6.5 Explain the impact of gasses and vapours6.6 Describe potential environmental contamination sources from a facilities operation and shutdown
Unit 7. Incident Investigation and Hazard Control
Learning Outcome:
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Apply hazard control methods to mitigate risk in the workplace and deal with incidents that have occurred.
Objectives:7.1 Describe how hazard control methods at a worksite spans the entire scope of the operations and how it is integral to an effective health and safety program7.2 State the purpose and benefits of incident reporting, investigation and analysis
Unit 8. Transportation of Dangerous Goods (TDG)
Learning Outcome:Apply Transporation of Dangerous Goods and Legislation to the shipping, packaging, labelling and documentation of goods that fall under TDG legislation.
Objectives:8.1 Identify the general responsibilities of personnel involved in transportingdangerous goods8.2 Describe the training required in order to qualify for a TDG certificate of training8.3 Describe the classification system for TDG8.4 Outline the mandatory contents of a dangerous goods shipping document8.5 Identify the nautre and hazards posed by dangerous goods from the informationsupplied on a TDG label or placard8.6 Identify the selection, use and reuse of certified containers8.7 Describe special situations that effect exceptions and compliance with Transportation of Dangerous Goods Regulation (TDGR)8.8 Identify situations for which immediate reporting is required
Unit 9. First Aid
Learning Outcome:Demonstrate an ability to identify potential medical difficulties and provide assistance until professional medical aid can be obtained.
Objectives:9.1 Explain the emergency procedures for obtaining consent and activation the Emergency Medical Services (EMS) system9.2 Discuss common emergency situations involving the heart and lungs9.3 Describe the emergency treatment for shock, bleeding, broken bones and bites
3. Study Methods:- In-class Lectures/Discussions- Field Trips- Student Teams- Laboratory studies
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4. Study Materials:- Electronic books- Hand-out materials- Lab Equipment - Lecture materials - Audio-visual aids
5. Course Texts: 5.1. PanGlobal. Power Engineering 4th Class
6. Course Evaluation System
WHMIS 15 %Midterm exam 20%TDG 15%First Aid 20%Final exam 20%In-Class & Take home Work Assignments 30%Total 100%
Grade Schedule Percentage Grade Letter Grade Grade Points
90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OFProcess Operations
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1302. Course outline 1313. Study Methods 1324. Study Materials 1325. Course Texts 1326. Course Evaluation System 132
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Process Operations” covers the following subjects: Fluid Circuit, Centrifugal Pumps, Refrigeration, Heat Exchanger, Heat Loss, Climbing Film, Evaporator, PVT Cell, Fractionation (Distillation), Gas Absorption, Field Operations: Conventional Separators, Design, Normal Operation, Hydrate Control,Dehydration – Glycol Equipment and Operation, Stabilization Equipment, Hydrocarbons – Storage and Loading, Sulphur: Claus Process, Plant Tail Gas Cleanup.
Total Modules: 4. Number of Hours: 150.Credits: 4.0.The Course of “Process Operations” is the basis for the development of a
working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with subject “Unit Operations” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Flow Measurement - Orifice Plates
Learning Outcome:Analyze the purpose of orifice plates and describe the most commonly used types.
Objectives:1.1 State the theory involved in the use of differential pressure flow meters.1.2 Describe the types of orifice plates and their applications.1.3 Analyze the mechanical requirements which are followed to ensure accuracy when using orifice plates.
Unit 2. Centrifugal Pumps
Learning Outcome:Analyze the construction and operation of the major types of centrifugal pumps.
Objectives:2.1 Explain the principle of operation of centrifugal volute and diffuser pumps.2.2 Describe pump components.2.3 Describe multi-stage pumps, including principles of operation and usage.
Unit 3. Refrigeration
Learning Outcome:Examine the operations, designs and main components of various refrigeration systems.
Objectives:3.1 Examine the factors that are taken into consideation before selection of a refrigeration system.3.2 Describe the equipment required in a typical externally refrigerated process.3.3 Analyze the principles of operation of an externally refrigerated system.3.4 Describe the start and stop, and preventative maintenance used on refrigerationsystems.
Unit 4. Heat Exchangers
Learning Outcome:Apply the fundamentals of heat transfer in relation to heat transfer equipment used in industry.
Objectives:4.1 Describe three basic means of heat transfer.
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4.2 Explain what factors affect heat transfer.4.3 Define conduction, radiation, heating medium and fouling.4.4 Explain the principles of operation for plate-to-plate, pipe and shell and tube exchangers.4.5 Describe the advantages and disadvantages of these types of exchangers.4.6 Explain the principles of conductions and calculate heat conduction through single walls.4.7 Describe the convection and radiation theory of heat trasnfer.
3. Study Methods:- In-class Lectures/Discussions- Field Trips- Workshops- Laboratory studies- Assignments
4. Study Materials:- Electronic books- Hand-out materials- Computer Lab Equipment- Lecture materials
5. Course Texts:5.1. PanGlobal . 4th Class Power Engineering.
6. Course Evaluation System
Midterm exam 20%Final Exam 20%Assignments & Quizzes 10%Lab Reports & Lab Exam 30%Lab Oral Exam 20%Total 100%
Grade Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.3
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50-54 D 1.0Minimal Pass
0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OFUnit Operations
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1372. Course Outline 1383. Study Methods 1454. Study Materials 1455. Course Texts 1456. Course Evaluation System 145
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The introductory Course of “Unit Operations” describes different types of plant where they may be employed, Introduction to Gas Plants and Pulp Mills, Steam-Related Oil, Food and Sawmill Processes.
Total Modules: 24. Number of Hours: 60.Credits: 3.0.The Course of “Unit Operations” is the basis for the development of a
working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with the discipline “Process Operations” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course Outline
Unit 1. Introduction - Industrial Modules
Learning Outcome:Demonstrate basic understanding of Gas Plants and Pulp Mills as well as Steam Related Oil, Food, and Sawmill Processes.
Objectives:1.1 Learn principle of operations, components, operating, and safety for hot oilsystems.1.2 Learn the purposes and process of Gas Plants and Pulp Mills.1.3 Describe the basic operation of Sawmills and Food (Meat) Processing plants.1.4 List the unit processes in oil refining.1.5 Describe the overall steam processes in a Refinery.
Unit 2. Option 1 - RefrigerationRefrigeration Safety Requirements
Learning Outcome:Outline the safety requirements for a refrigeration plant.
Objectives:2.1 Discover how Alberta's Safety Codes Act Regulates safety in a refrigeration plant.2.2 List the governing bodies and the associated authorities responsible for developing operational standards.2.3 Interpret the Standards Association's codes and ASME codes concerned with refrigeration operations.2.4 Determine the ASME Code requirement for Safety Relief Valve in refrigeration.
Unit 3. Refrigeration Theory
Learning Outcome:Apply refrigeration theories to a variety of systems.
Objectives:3.1 Explain electricity, electrical circuits, and plant electrical accessories.3.2 Calculate in the study of mechanics: mass, force, velocity, acceleration, weightpressure, work, power and energy.3.3 Analyze the principles and laws of thermodynamics and the modes of heatransfer.3.4 Use thermodynamics terms and principles to explain refrigeration systemoperation.
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3.5 List refrigerants, their classification and the thermodynamic properties of theserefrigerants.3.6 Use refrigerant tables to solve problems and analyse system operation.3.7 Determine the nature and impact of chlorinated hydrocarbons on the environment.3.8 Analyse the psychrometric properties of air.3.9 Use a psychrometric chart to analyse air conditioning systems.3.10 Explain air conditioning comfort requirements and effective temperature.
Unit 4. Refrigeration Plant Connections
Learning Outcome:Compare and contrast the piping materials and connection methods used in refrigeration plants.
Objectives:4.1 Examine the various materials used for piping in a refrigerant plant.4.2 Choose proper connections for refrigerant piping systems.4.3 Explain the operations of an acetylene torch4.4 Explain the procedure and the equipment used, in metal arc welding.4.5 Sketch and describe the arrangements for straight polarity and reverse polaritywelding4.6 Explain the use of submerged arc welding.4.7 Explain welding terms.4.8 Choose proper methods of weld inspection for a refrigerant plant.
Unit 5. Refrigeration Plant Auxiliary Equipment
Learning Outcome:Explain the purpose of auxillary equipment in a refrigerant plant.
Objectives:5.1 Explain the design and operating principles of various types of pumps used inbuildings and industrial plants.5.2 Examine procedures for pump operation and maintenance.5.3 Interpret problems in centifugal pump operation.5.4 Determine the proper uses of valves in a refrigerant plant with knowledge ofmaterial selection , designs, function, and application.5.5 Explain valve maintenance requirements in a refrigerant plant.5.6 Explain the operating principle of cooling towers.5.7 Explain the cooling water treatment of cooling towers
Unit 6. Compression Refrigeration
Learning Outcome:
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Analyze the main components of compression refrigeration.
Objectives:6.1 Examine the operating principles of the types of compressors and their auxiliary exquipment.6.2 Explain the operating principles of ammonia and Freon compression refrigeration systems and the difference between the direct and indirect systems.6.3 Explain the function of a refrigeration compressor and the operaton of the types of refrigeration compressors.6.4 Explain types of seals used refrigeration compressors.6.5 Explain the construction and operating classifications for evaporators.6.6 Explain condenser types, their operation amd maintenance requirements.6.7 Explain the operation and purpose of various refrigeration system accessories.6.8 Explain the classes, principles , purposes of lubrication and the selection of lubricating oils and additives for refrigeration systems.6.9 Describe prestart-up, operational and maintenance procedures used on compression refrigeration systems.
Unit 7. Refrigeration Sysstem Control and Operation
Learning Outcome:Connect the controls of a refrigeration plant with its operation.
Objectives:7.1 Explain the operating principles of metering and capacity control devices onrefrigeration systems7.2 Explain the purposes and operating principles of the operational and safety controls on a refrigeration system.
Unit 8. Absorption Refrigeration
Learning Outcome:Analyze the main components of absorption refrigeration.
Objectives:8.1 Explain the operating principle of the ammonia and lithium absorption refrigeration systems.8.2 Explain operational and maintenance procedures used on absorption refrigeration systems.
Unit 9. Heating and Ventilation in HVAC Systems
Learning Outcome:Summarize the processes of heating and ventiliation in a HVAC system.
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Objectives:9.1 Examine the performance, limitations, and advantages of the various types of fans used in HVAC.9.2 Determine which class of fan is compatible with given operating requirements.9.3 Explain building ventilation requirements.9.4 List the types of contaminants found in air.9.5 List the proper air ventilation cleaning device for a given a set of circumstances.9.6 Explain the principles of humidification and the operation of humidification equipment.9.7 Identify various types of coils and coil surfaces used in air conditioning systems.9.8 Describe the operation and installaton of steam, hot water and glycol heating coils used in HVAC.
Unit 10. Air Conditioning in HVAC
Learning Outcome:Summarize the processes of air-conditioning in a HVAC system.
Objectives:10.1 Explain the design and components of duct systems used in air conditioning.10.2 Explain duct leakage losses.10.3 Explain the catgories and the operation of various types of air conditioningsystems.10.4 Explain the design and operation of combined air conditioning systems.10.5 Choose the selection of air conditioning systems for a set of circumstances.10.6 Explain the purpose, design and operation of heat recovery in air conditioning systems.10.7 Describe the control systems used in air conditioning.
Unit 11. Option II – GPO Development of Petroleum Deposits
Learning Outcome:Summarize the development of natural gas and surveying
Objectives:11.1 Identify the methods of geological and geophysical surveying used to predict the favorability of rock formations for the presence of gas and oil.11.2 Summarize the history of natural gas development, the divisions of the gas industry.11.3 Describe the origins and geology of petroleum formation.
Unit 12. Land Survey Systems
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Learning Outcome:Locate well-sites, leases and surface facilities
Objectives:12.1 Describe the Dominion Land Survey System of land survey and the Unique Identifier System for locating specific sites.12.2 Summarize the principle of land ownership12.3 Describe the National Topographic System of survey and how specific sites are identified.
Unit 13. Drilling Methods and Equipment
Learning Outcome:Identify various drilling methods and the safety issues associated with them.
Objectives:13.1 Summarize the procedures to follow prior to drilling a well.13.2 Identify the tools and components used in rotary, directional and horizontaldrilling.13.3 Recognize special drilling procedures.
Unit 14. Drilling Methods and Equipment
Learning Outcome:Summarize the process used to establish initial production from a new well.
Objectives:14.1 Name the tests used to determine the fluid characteristics and the productionpotential of a well.14.2 Describe well completion, the major steps to complete a well and the main components of a completed well.14.3 Identify natural, artificial lift, and secondary methods of establishing initial production from a well.
Unit 15. Testing, Completion, and Production
Learning Outcome:Apply the fundamentals of chemistry as they apply to oil and natural gases and their basic classifications and sales specifications.
Objectives:15.1 Name specific chemical terms and definitions as they apply to oil and natural gases.15.2 Identify the grouping of hydrocarbon compounds found in natural gases.
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15.3 Name the non-hydrocarbon compounds that contaminate and dilute natural gases.15.4 Identify the types of oils and natural gases.15.5 Identify typical sales/delivery specifications for oil and natural gases.
Unit 16. Oil and Gas Composition and Sales Specifications
Learning Outcome:Identify solutions for potential problems with production at oil and gas wells.
Objectives:16.1 Indicate the types of production problems that may be encountered in the start-up and continuous operation of oil and gas wells.16.2 Identify the type of equipment used to heat wellhead gas to inhibit the formation of hydrates.
Unit 17. Gas Line Heating and Field Production Problems
Learning Outcome:Identify the factors to consider when choosing a separator.
Objectives:17.1 Identify the physical characteristics of a typical well stream.17.2 Describe procedures necessary to separate the well stream into three phases.17.3 Describe the use of stage and low-temperature separation (LTS) in the removal of water and hydrocarbon liquids from gas streams.
Unit 18. Separators
Learning Outcome:Choose the appropriate sampling method according to the guidelines for determining the vapour pressure of hydrocarbons.
Objectives:18.1 Describe the standard test method for determining the vapour pressure of liquefied petroleum products.18.2 Identify the types of sampling methods and the guidelines for each, as well as the importance of well testing.
Unit 19. Hydrocarbon Sampling
Learning Outcome:Choose the appropriate sampling method according to the guidelines for determining the vapour pressure of hydrocarbons.
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Objectives:19.1 Describe the standard test method for determining the vapour pressure of liquefied petroleum products.19.2 Identify the types of sampling methods and the guidelines for each, as well as the importance of well testing.
Unit 20. Gas Plants
Learning Outcome:Summarize the basic processes used in gas plants, with reference to the market and government requirements.
Objectives:20.1 Choose the types of plants required to process various gas streams to meet market and governmental requirements.20.2 Describe the various configurations of inlet systems.20.3 Indicate the basic process of gas plants.20.4 Indicate the process flow of a conventional gas plant utilizing a simple gas processing plant flow diagram.
Unit 21. Stabilizers
Learning Outcome:Determine the purpose and the procedures required to stabilize raw condensate.
Objectives:21.1 Describe the various processes used to stabilize raw condensate.21.2 Indicate the start-up procedures for a condensate stabilization system.
Unit 22. Sulphur Processing
Learning Outcome:Summarize the processes and operational considerations involved in the production of sulphur.
Objectives:22.1 Recognize the use and requirements for sulphur production in our modern industrialized society.22.2 Indicate the operational considerations necessary to ensure stable efficient production.22.3 Identify the control variables that affect the efficiency of a sulphur plant.22.4 Describe the processes used to produce sulphur from acid gases with varying compositions.
Unit 23. Uninterrupted Power Supplies
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Learning Outcome:Indicate the purpose and operating principle of an uninterruptible power supply (UPS).
Objectives:23.1 List the major components that make up an uninterruptible power supply.23.2 Identify how an uninterruptible power supply maintains a steady supply of alternating control power to the critical circuits during a power outage.23.3 List the critical equipment in a plant that depends on the uninterruptible power supply for control power.
Unit 24. Basic Economics
Learning Outcome:Apply the basic principles of economics as they relate to the oil and gas industry.
Objectives:24.1 Name the factors that influence the economics of business operations.24.2 Identify the terms: Capital item, Expense item, Payback, Depreciation, and Profit.24.3 Calculate present and future values as they apply to basic business decisions.
3. Study Methods:- In-class Lectures/Discussions- Field Trips- Theory Quizzes- Laboratory studies
4. Study Materials:- Electronic books- Hand-out materials- Computer Lab Equipment- Lecture materials- Lab Equipment
5. Course Texts: 5.1. Electronic course books
6. Course Evaluation System
Industrial Modules 15%Refirgeration Unit Finals 50%Refrigeration Final Exam 35%Total 100%
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Grade Schedule Percentage Grade Letter Grade Grade Points
90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Basic Plant Operations I
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1502. Course Outline 1513. Study Methods 1624. Study Materials 1625. Course Texts 1626. Course Evaluation System 162
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Basic Plant Operations I” will prepare students to write the ABSA 4th Class Part A exam which includes Material and Welding, Piping and Valves, High Pressure Boiler Design, Fittings, Parts and Operation, Feedwater Treatment, Prime Movers and Engines, Pumps, Compressors and Air Compression. Students will spend a large proportion of their time in the lab learning practical applications to the theory and gaining practical experiences towards the 4th.
Total Modules: 35. Number of Hours: 180.Credits: 6.0.The Course of “Basic Plant Operations I” is the basis for the development of
a working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with the discipline “Process Operations” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Introduction to Power Engineering
Learning Outcome:Upon successful completion of this module, the student will be able to describe the overall industrial background and certification system for Power Engineering.
Objectives:1.1 Define the terms Power Plant and Power Engineer.1.2 Describe the nature of Power Engineering work.1.3 Describe the competency certification systems.
Unit 2. Basic Boiler Construction
Learning Outcome:Upon successful completion of this module, the student will be able to sketch and describe the general construction features of watertube and firetube boilers.
Objectives:2.1 Describe the fabrication of boiler shells and tubesheets.2.2 Sketch the basic types of welding joints used in boiler construction.2.3 Sketch and describe boiler tube attachments.2.4 Sketch and describe different types of boiler stays.2.5 Discuss access and inspection openings.2.6 Sketch and describe different types of firetube boiler internal furnaces.2.7 Describe boiler foundations and supports.2.8 Sketch and describe watercooled furnace wall construction.
Unit 3. Watertube Boilers
Learning Outcome:Upon successful completion of this module, the student will be able to describe thedevelopment of boilers. Upon successful completion of this module, the student will be able to describe packaged watertube boilers.
Objectives:3.1 Describe the water circulation in a longitudinal drum straight tube boiler.3.2 Describe four-drum, three-drum, and two-drum bent tube boilers.3.3 State the advantages of a bent tube boiler compared to a straight tube boiler.3.4 Explain the advantages and applications of the packaged watertube boiler.
Unit 4. Sketching Fundamentals
Learning Outcome:
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Upon successful completion of this module, the student will be able to make basic engineering sketches of plant equipment.
Objectives:4.1 Set up a sketch using center lines.4.2 Recognize standard view of an object.4.3 Apply simple techniques for drawing parallel lines, circles and ellipses.4.4 Apply and recognize cross hatching methods in sectional drawings.
Unit 5. Basic Fittings for Low-Pressure Steam Boilers I
Learning Outcome:Upon successful completion of this module, the student will be able to name, describe and explain the operating principles of pressure gauges and safety valves found on low-pressure steam boilers.
Objectives:5.1 Sketch and describe the operating principle of a steam pressure gauge and explain the code requirements associated with a steam pressure gage.5.2 Sketch and describe the operating principle of a steam safety valve and explain the code requirements associated with a steam safety valve.5.3 Describe the various tests performed on a steam safety valve.
Unit 6. Basic Fittings for Low-Pressure Steam Boilers II
Learning Outcome:Upon successful completion of this module, the student will be able to name, describe the purpose, and explain the operating principles of various boiler fittings found on steam boilers.
Objectives:6.1 Explain the purpose of a water column and water gauge glass and describe thecode requirements associated with water columns and gauge glasses.6.2 Describe the types of valves used as steam outlet valves for low-pressure steamboilers.6.3 Describe the proper feedwater connection and valves found on low-pressure steam boilers.6.4 Describe the proper blowoff connection and valve found on low-pressure steamboilers.6.5 Explain the purpose of the boiler vent valve on a steam boiler.
Unit 7. Boiler Preparation, Start-up and Shutdown
Learning Outcome:
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Upon successful completion of this module, the student will be able to describe the basic preparation of a boiler for start-up, and the start-up and shutdown procedures.
Objectives:7.1 List the initial system checks.7.2 Describe Dry Out and Boil Out procedures.7.3 Describe general boiler ignition procedure.7.4 Describe how to warm up the boiler steam line and main steam heater.7.5 Describe a general boiler shutdown procedure.
Unit 8. Routine and Emergency Boiler Operation
Learning Outcome:Upon successful completion of this module, the student will be able to describe the routine safe and efficient operation of a packaged boiler.
Objectives:8.1 Describe the routine operating procedures for boilers.8.2 Explain the causes of abnormal conditions that may lead to emergency situations and how to correct them.8.3 List the most common causes of boiler explosions.
Unit 9. Boiler Draft Equipment
Learning Outcome:Upon successful completion of this module, the student will be able to discuss, sketch and describe the basic equipment used to supply combustion air to a boiler furnace.
Objectives:9.1 Discuss natural draft and explain its principle of operation.9.2 Compare the advantages and disadvantages of different chimney types.9.3 Discuss mechanical draft and describe how it is produced.9.4 Define induced, forced and balanced draft.9.5 Discuss the common methods of controlling combustion air flow and measuring furnace pressures.
Unit 10. Introduction to Boiler Combustion
Learning Outcome:Upon successful completion of this module, the student will be able to discuss the basic theory of combustion in a boiler, and the equipment used to provide proper combustion conditions.
Objectives:
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10.1 Describe the combustion process and write the equations for complete and incomplete combustion.10.2 Discuss excess air and its relationship to proper boiler operation.10.3 Describe the common methods of burning coal, fuel oil and natural gas.10.4 Discuss basic flue gas analysis and estimate excess air and boiler combustionefficiency.
Unit 11. Low-Water Fuel Cutoffs
Learning Outcome:Upon successful completion of this module, the student will be able to discuss various types of low-water fuel cutoffs.
Objectives:11.1 Describe the operation of float, magnetic and probe type low-water fuel cutoffs.11.2 Explain why a low-water fuel cutoff is required.11.3 State possible causes of a low water level.11.4 Describe the ASME Code and CSA regulations related to a low-water fuel cutoff.11.5 Describe how to test a low-water fuel cutoff.
Unit 12. Chapter 60 Safety and Relief Valves
Learning Outcome:Upon successful completion of this module, the student will be able to discuss boiler safety valves for power boilers and heating boilers.
Objectives:12.1 Describe the construction, purpose and operating principle of a safety valve.12.2 Summarize and list the ASME Code requirements for safety valves.12.3 Describe the method for adjustment of popping pressure and the blowdown of a safety valve.12.4 Discuss the methods used for testing a safety valve.
Unit 13. Water Columns and Gage Glasses
Learning Outcome:Upon successful completion of this module, the student will be able to describe different types of direct and inferential level gauges or indicators.
Objectives:13.1 Describe the necessity of liquid level measurement and indication in industry.13.2 Differentiate between point level and continuous level detection.
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13.3 Differentiate between direct and inferential methods of level measurement and indication.13.4 With the aid of sketches, describe the design and operation of tubular, reflex,see-through, bicolor and remote level gauges.13.5 Sketch and describe a typical gage glass installation including auxiliary equipment, stating the function of each item.13.6 Describe the limitations of gauge glass installation.
Unit 14. Basic Concepts about Matter
Learning Outcome:Upon successful completion of this module, the student will be able to identify atoms, molecules, elements and compounds and their basic interaction in chemical reactions.
Objectives:14.1 Differentiate between physical changes, chemical changes and their properties as well as atoms, molecules, elements and compounds.14.2 Define protons, neutrons, electrons, ions and isotopes.14.3 Apply the terms atomic symbols, numbers and masses to elements.14.4 Use chemical equations to show reactions.14.5 Balance chemical equations by using the two simple rules applied to the examples.
Unit 15. External Feed water Treatment
Learning Outcome:Upon successful completion of this module, the student will be able to discuss the general principles, methods and equipment used in preparing raw feedwater.
Objectives:15.1 List the common impurities in raw feedwater, and their potential effects on a boiler.15.2 List and describe the common processes which are used to remove these impurities.15.3 Sketch and describe typical equipment used to filter, soften and deaerate feedwater externally.
Unit 16. Internal Feedwater Treatment and Testing Methods
Learning Outcome:Upon successful completion of this module, the student will be able to discuss the general principles, methods and equipment used in the internal treatment of raw feedwater for steam production in a boiler.
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Objectives:16.1 Describe typical equipment used to chemically treat feedwater internally.16.2 Describe some of the essential tests for measuring water quality.16.3 Sketch typical equipment used in chemical feeding of boiler feedwater.
Unit 17. Continuous and Intermittent Blowdown
Learning Outcome:Upon successful completion of this module, the student will be able to describe the purposes, equipment and operation of continuous and intermittent blowdown.
Objectives:17.1 Describe the terms continuous blowdown and intermittent blowdown.17.2 Sketch the basic equipment and flows for continuous and intermittent blowdown.17.3 List the correct sequence of steps for valve operations when performing anintermittent blowdown.
Unit 18. Drum Internals
Learning Outcome:Upon successful completion of this module, the student will be able to describe drum internals.
Objectives:18.1 Describe the construction and operation of a cyclone separator.18.2 Explain the function and location of the continuous blowdown line in a boilerdrum.18.3 Describe the purpose and operation of the internal feed pipe in a boiler.18.4 Explain the function of the chemical feed line in a boiler drum and describe where it is located.18.5 Sketch an end view of a boiler drum, showing all internals, and the riser and downcomer tubes.
Unit 19. Sootblowers
Learning Outcome:Upon successful completion of this module, the student will be able to discuss sootblowers.
Objectives:19.1 Explain the purpose and typical location of steam generator sootblowers.19.2 Describe the construction and the operation of stationary and retractablesootblowers.19.3 Sketch and describe an arrangement for shot cleaning.
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Unit 20. Oil Burners for Heating Boilers
Learning Outcome:Upon successful completion of this module, the student will be able to describe the various oil burners used on heating boilers.
Objectives:
20.1 Describe the operation of the air/steam atomizer, mechanical atomizer and rotary cup oil burners.20.2 Describe the major auxiliaries used with a fuel oil system.20.3 Explain the operation of basic fuel oil system.
Unit 21. Gas Burners for Heating Boilers
Learning Outcome:Upon successful completion of this module, the student will be able to describe the operation of the various types of gas burners used on heating boilers.
Objectives:21.1 Sketch and describe the operation of an atmospheric, refractory, ring and combination gas burner used on heating boilers.21.2 Describe the different types of pilots used with gas burners.21.3 Explain the operation of diaphragm, solenoid and motorized automatic gas valve used on a heating boiler.
Unit 22. Industrial Legislation
Learning Outcome:Upon successful completion of this module, the student will be able to describe the purpose of provincial acts and regulations.
Objectives:22.1 Discuss the purposes and the scope of the Boilers and Pressure Vessels Act.22.2 Discuss the regulations governing design, construction, and installation of boilers and pressure vessels.22.3 Discuss the regulations pertaining to the pressure equipment industry.
Unit 23. Engineering Materials
Learning Outcome:Upon successful completion of this module, the student will be able to describe the mechanical properties of engineering materials.
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Objectives:23.1 Define brittleness, hardness, ductility, malleability, plasticity, elasticity and toughness.23.2 Describe the types of engineering materials in terms of their mechanical properties.Upon successful completion of this module, the student will be able to describe the ability of alloying elements to change the mechanical properties of materials.
Objectives:23.3 List the effects of nickel, chromium, molybdenum, vanadium, copper, lead and manganese, when added to steel. Upon successful completion of this module, the student will be able to identify nonferrous materials as used in engineering.
Objectives:23.4 Describe the properties and uses of copper and copper alloys as used inengineering.23.5 Describe the properties and uses of aluminum and aluminum alloys as used inengineering.23.6 Describe the properties and uses of white metal as used in engineering.
Unit 24. Welding Methods
Learning Outcome:Upon successful completion of this module, the student will be able to describe oxyacetylene welding and its application.
Objectives:24.1 Describe the equipment used in oxyacetylene welding.24.2 Describe the methods of cutting steel using an oxyacetylene torch.Upon successful completion of this module, the student will be able to describe electric arc welding and its application.
Objectives:24.3 Describe the procedure, and the equipment used, for metal arc welding.24.4 Sketch and describe the arrangements for straight polarity and reverse polaritywelding.24.5 Describe the procedure for submerged arc welding.
Unit 25. Welding Terms and Inspection
Learning Outcome:Upon successful completion of this module, the student will be able to define welding terms.
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Objectives:25.1 Define the terms used in relation to welding.Upon successful completion of this module, the student will be able to describe welding inspection.
Objectives:25.2 Describe the dye penetrant test.25.3 Describe radiographic inspection.25.4 Describe ultrasonic inspection.
Unit 26. Firetube Heating Boilers
Learning Outcome:Upon successful completion of this module, the student will be able to describe the use of firetube boilers for heating purposes.
Objectives:26.1 Describe horizontal firetube heating boilers.26.2 Describe vertical firetube heating boilers.26.3 Explain the advantages of firetube heating boilers.
Unit 27. Watertube and Tubular Heating Boilers
Learning Outcome:Upon successful completion of this module, the student will be able to describe the types of watertube boilers used in heating systems.
Objectives:27.1 Describe the general construction and arrangement of the serpentine-tube watertube heating boiler.27.2 Describe the general construction and arrangement of the bent-tube watertubeheating boiler.27.3 Discuss the advantages and disadvantages of watertube heating boilers.Upon successful completion of this module, the student will be able to describe the types of tubular boilers used in heating systems.
Objectives:27.4 Describe the general construction of copper-tubular heating boiler.27.5 Discuss the advantages and disadvantages of tubular heating boilers.
Unit 28. Cast-Iron Sectional and Modular Boilers
Learning Outcome:Upon successful completion of this module, the student will be able to describe and explain the uses of cast-iron boilers.
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Objectives: 28.1 Describe the construction of cast-iron sectional boilers.28.2 Describe the modular boilers.28.3 Explain the advantage of cast-iron heating boilers.
Unit 29. Electric Boilers
Learning Outcome:Upon successful completion of this module, the student will be able to describe electric boilers in regard to their use and general design.
Objectives:29.1 Explain the advantages and disadvantages of electric boilers and their applications and use.29.2 Describe the general construction and arrangements of the electrodes in electric boilers.29.3 Describe the general construction of immersion heater type electric boilers.
Unit 30. Basic Fittings for Hot Water Boilers
Learning Outcome:Upon successful completion of this module, the student will be able to describe the purpose and operating principles of basic boiler fittings on hot water boilers.
Objectives:30.1 Explain the purpose of a pressure altitude gage found on a hot water boiler.30.2 Explain the purpose of a thermometer on a hot water boiler.30.3 Describe how a safety relief valve operates and explain the code requirementsassociated with a safety relief valve on hot water boilers.30.4 Explain the purpose of the supply and return stop valves on a hot water boiler.30.5 Explain the purpose of the blow off or drain valve on a hot water boiler.30.6 Explain the purpose and describe the different types of expansion tanks used with.
Unit 31. Hot Water and Steam Heating Boiler Operation
Learning Outcome:Upon successful completion of this module, the student will be able to describe the specific safe and efficient operational procedures that relate to automatically fired, low -pressure hot water and steam heating boilers.
Objectives:31.1 Explain the start-up and shutdown procedures for hot water and steam heatingboilers.
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31.2 Describe the routine operating procedures related to hot water and steam heating boilers.31.3 Explain the causes of abnormal conditions in hot water and steam heating boilers that may lead to emergency situations and how to correct them.
Unit 32. Steam Related Oil, Food and Sawmill Processes
Learning Outcome:Upon successful completion of this module, the student will be able to identify related processes in food processing plants, sawmills and oil refineries.
Objectives:32.1 Discuss the application of steam in food processing plants, sawmills and refineries.32.2 Discuss the reason for kiln drying in saw mill operation.32.3 Describe the basic operation of a food (meat) processing plant.32.4 Describe the basic operation of a refrigeration system in the meat processingindustry.32.5 List the unit processes involved in oil refining.32.6 Describe the overall role of steam systems in an oil refinery.
Unit 33. Hot Oil Systems
Learning Outcome:Upon successful completion of this module, the student will be able to discuss the basic design of a hot oil system.
Objectives:33.1 Sketch a basic hot oil system and name the components and their function.33.2 Describe the design and function of a direct fired heater.Upon successful completion of this module, the student will be able to discuss the requirements for the safe operation of a direct fired heater.
Objectives:33.3 Identify and list the purpose of the major safety shutdown devices on a hot oilsystem.33.4 Describe the hazards associated with a fired heater tube failure.
Unit 34. Fluidized Bed Combustion
Learning Outcome:Upon successful completion of this module, the student will be able to discuss the basic theory and design of a fluidized bed steam generator.
Objectives:
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34.1 Define the term "fluidized bed combustion" for a steam generator.34.2 Describe the reasons for, and development of, fluidized bed combustion.34.3 List the advantages and disadvantages of fluidized bed combustion compared to conventional solid firing systems.34.4 Discuss the advantages of a pressurized fluidized bed combustion.Upon successful completion of this module, the student will be able to describe the special operational and control aspects of fluidized bed combustion.
Objectives:34.5 List two methods of bed startup preparation.34.6 Describe the term "bed expansion".
Unit 35. Introduction to Gas Plants and Pulp Mills
Learning Outcome:Upon successful completion of this module, the student will be able to describe the basic equipment and processes used in the refining of natural gas, and in the production of pulp and paper.
Objectives:35.1 List the four main purposes of natural gas refining.35.2 Briefly describe the main process used in natural gas refining.35.3 Describe the main processes used in the production of pulp and paper.
3. Study Methods:- In-class Lectures/Discussions - Class Discussions - Computer-aided Presentation - Lecture/Laboratory- Assignments
4. Study Materials:- Electronic books- Hand-out materials- Lab equipment
5. Course Texts: 5.1. Pan Global. Energetics 4-class. 2009
6. Course Evaluation SystemAssignments 15%Tests 45%Quizzes 15%Final Exam 25%Total 100%
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Grade Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OF
Basic Plant Operations II
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1672. Course outline 1683. Study Methods 1734. Study Materials 1735. Course Texts 1736. Course Evaluation System 173
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Basic Plant Operations II” will help prepare students to write the ABSA 4th Class Part B exam including the topics of prime movers, lubrication, basic electricity, heating boilers and accessory equipment. Students will spend a large portion of their time in the lab learning material practical to the theory.
Total Modules: 17. Number of Hours: 180.Credits: 6.0.The Course of “Basic Plant Operations II” is the basis for the development
of a working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with the discipline “Basic Plant Operations I” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Prime Movers and Engines
Learning Outcome:Evaluate the operation of steam turbines and cooling towers.
Objectives:1.1 Describe the conversion of heat into mechanical energy.1.2 Relate the terms heat engine and prime mover to the design of a simple steamengine1.3 Compare and contrast impulse and reaction turbines1.4 Compare and contrast natural draft and mechanical draft cooling towers1.5 Characterize compression ignition cycle engines.
Unit 2. Pumps and Compressors
Learning Outcome:Classify pumps and compressors used in buildings and industry plants
Objectives:2.1 Explain the theory of pumping and the classification of the major types of pumps.2.2 Describe the set-up, start-up and maintenance for the commonly used pumps.2.3 Connect the different compressor classifications with their operating principles.2.4 Review the purpose of each component in an air compressor system.
Unit 3. Lubrication
Learning Outcome:Select the appropriate lubricating oil for various applications
Objectives:3.1 Classify lubricants according to their purpose and properties3.2 Identify the characteristics of various additives used in lubricants.3.3 Describe the different types of bearings.3.4 Explain the maintenance and replacement of a bearing.3.5 Identify the causes of breaing failure
Unit 4. Electricity, Controls Instrumentation, & Process Computer Applications.
Learning Outcome:Apply electrical theory to boiler programming and process operation.
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Objectives:4.1 Describe the basic principles of electricity & magnetism, including Ohm’s Law.4.2 Explain how to use an electrical metering devices4.3 Explain the operating pricinples of AC & DC motors/generators and transformers.4.4 Identify the components of an electrical distribution system.4.5 Outline the purpose and function of plant instrumentation systems, programming controls and process measurement.4.6 Identify the basic types and functions of transmitters, recorders, controller andcontrol valves.
Unit 5. Heating Boilers and Heating Systems
Learning Outcome:Apply the principles of heat to the operation of boilers and burners.
Objectives:5.1 Connect the characteristics of hot water and steam with their behaviour in a heating system5.2 Outline construction and operation of cast-iron sectional and modular heatingboilers.5.3 Describe oil and gas burners and the basic fittings for low pressure steam and hot water boilers.5.4 Outline the operation and maintence of various heating systems.5.5 Compare and contast hot water, steam, warm air, infrared and electric heating.5.6 Explain how to condition air for internal environments including cleaning,ventilation, humidity and temperature control.5.7 Describe the instrumentational controls needed for the safe and efficient operation of heating boilers.
Unit 6. Steam and Water Heating Systems
Learning Outcome:Compare steam, water, air, infrared, and electric heating systems.
Objectives:6.1 Describe the basic componenets and accessory equipment of the steam, water and electric heating system.s6.2 Explain the general operating, maintenance and troubleshooting guide for eachsystem.6.3 Identify the types of air clearing devices used to remove the various contaminants found in the air of commercial and residential buildings.6.4 Evaluate the advantages and disadvantages of the steam, water, air, infrared and electric heating systems.
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Unit 7. Auxillary Building Systems
Learning Outcome:Evaluate the basic design fof lighting a space and the various drainage systems used in buildings.
Objectives:7.1 Outline hot and cold water distribution systems.7.2 Justify the use of drain traps and air venting.7.3 Compare commercial and domestic plumbing systems.7.4 Describe the routine maintenance of plumbing systems.7.5 Review the common types of lighting.7.6 Explain the various methods of lighting control.7.7 Explain the need for emergency lighting.
Unit 8. Low Pressure Steam Boiler
Learning Outcome:Demonstrate skills to operate a low pressure steam boiler
Objectives:8.1 Identify steam boilder fittings and controls8.2 Trace fuel, water, blowdown and flue gas systems8.3 Demonstrate start-up and shutdown procedure8.4 Demonstrate low water cutoff test procedure8.5 Demonstrate blowdown procedure8.6 Trouble shoot problems preventing boiler operation
Unit 9. Hot Water Boilers
Learning Outcome:Demonstrate the skills to operate a Hydrotherm/CB Flextube.
Objectives:9.1 Identify boiler fittings and controls specific to a hydrotherm/CB Flextube9.2 Trace fuel, water, blowdown and flue gas systems9.3 Explain the purpose and operationg of expansion tanks9.4 Demonstrate start-up and shutdown procedure
Unit 10. Ammonia Refrigeration System
Learning Outcome:Demonstrate skills to safely operate an ammonia refrigeration system.
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Objectives:10.1 Explain safety regulations concerning refrigeration plants10.2 Identify location of safety apparatus10.3 Identify the components/piping of the system10.4 Explain the operation of the system10.5 Demonstrate start-up and shutdown procedure10.6 Demonstrate emergency procedures for an ammonia refrigeration system10.7 Demonstrate maintenance procedures for an ammonia refrigeration system.
Unit 11. Ingersoll-Rand Air Compressor
Learning Outcome:Demonstrate the skills to operate an ingersoll-rand air compressor.
Objectives:11.1 Identify the components of the air compressor11.2 Identify auxiliary equipment11.3 Explain the purpose of the various pieces of equipment11.4 Trace the air and cooling water paths11.5 Demonstrate pre-start checks, start-up and shutdown procedures11.6 Demonstrate loading/unloading of the compressor.
Unit 12. Lister Internal Combustion Engine
Learning Outcome:Demonstrate the skills to operate a lister internal combustion engine.
Objectives:12.1 Explain generator excitation and loading12.2 Perform pre-start checks12.3 Demonstrate start-up and shutdown procedures12.4 Demonstrate generator voltage/load changes
Unit 13. Inglis Boiler Controls
Learning Outcome:Demonstrate the skills to control an Inglis Boiler.
Objectives:13.1 Identify primary elements for drum level, air flow, gas glow, steam flow and steam pressure controls13.2 Trace steam pressure control loop to boiler master13.3 Expain two-element feedwater control13.4 Transfer drum level and steam level control from manual to auto and vice versa
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13.5 Demonstrate drum level and steam level control for both auto and manual13.6 State the purpose of the instrument air system
Unit 14. Gas Turbine
Learning Outcome:Evaluate the operation of a gas turbine.
Objectives:14.1 Identify the components of the cutaway gas turbine.14.2 Explain the operating principle of a gas turbine14.3 Explain the air/gas path through the gas turbine14.4 Explain the gas turbine metal cooling methods
Unit 15. HVAC System
Learning Outcome:Evaluate the operation of a HVAC system
Objectives:15.1 Identify components, safety features and controls of a HVAC system15.2 Trace chilled water, steam, and hot water piping systems15.3 Classify various coils and filter systems according to their operation and function15.4 Explain fan types, operating principles and fan maintenance15.5 Explain the methods of humidity control
Unit 16. Volcano Boiler
Learning Outcome:Demonstrate the skills to safely operate a volcano boiler.
Objectives:16.1 Identify the boiler components and fittings16.2 Trace fuel, feedwater, blowdown, main stream flow, and air/gas systems16.3 Explain three-element feedwater control16.4 Compare steam temperature control with combustion control systems16.5 Explain the isolation procedure for air/gas side and steam/water side inspection16.6 Demonstrate start-up and shut-down procedure
Unit 17. Moore Turbine/Alternator
Learning Outcome:Demonstrate the skills to safely operate Moore Turbine/Alternator.
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Objectives:17.1 Explain steam flow through a turbine17.2 Trace condensate and regenerative feedwater systems17.3 Trace air ejection, cooling water, lube oil and gland steam systems17.4 Demonstrate start-up and shut-down procedure17.5 Make adjustments to control various components
3. Study Methods:- In-class Lectures/Discussions- Field Trips- Personal Assignments- Lab Classes
4. Study Materials:- Electronic books- Hand-out materials- Lecture materials- Lab equipment
5. Course TextsPanGlobal - Power Engineering 4th Class, 2.5 ed, 2009
6. Course Evaluation SystemMidterm exam 25%Assignments 5%Lab 45%Final exam 25%Total 100%
Grade Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OFThermodynamics
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1772. Course outline 1783. Study Methods 1794. Study Materials 1795. Course Texts 1796. Course Evaluation System 179
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Thermodynamics” deals with introductory level mechanics and thermodynamics. The level of difficulty is appropriate for candidates preparing to write the Alberta Boilers Fourth class exam.
Total Modules: 5. Number of Hours: 60.Credits: 3.0.The Course of “Thermodynamics” is the basis for the development of a
working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
Interdisciplinary integration with the disciplines “Chemistry and Corrosion” and “Mathematics” allows students to have a holistic perception of the studied subjects within the specialty or future employment; it helps to realize how the different training programs are interconnected.
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2. Course outline
Unit 1. Basic Math Review
Learning Outcome:Perform operations relevant to applied mathematical principles.
Objectives:1.1 Calculate conversion involving SI units1.2 Perform calculations of addition, subtraction, multiplication, division andexponents1.3 Evaluate problems involving fractions, mixed numbers and decimals1.4 Solve word problems involving ratios and proportion1.5 Solve word problems using formula transposition1.6 Determine length measurement, line and angle types, simple plane figures, surface area and volumes of various objects
2. Basic Mechanics
Learning Outcome:Perform calculations relevant to basic mechanics
Objectives:2.1 Solve problems involving simple machines, linear & vector velocity, andacceleration2.2 Determine the direction and forces of equilibrium moments2.3 Explain Newton's Laws of Motion2.4 Solve problems involving work, power, pressure and efficiency, and friction2.5 Determine the connection between work, mechanical energy, heat energy andpressure2.6 Solve problems involving stress and strain2.7 Solve problems involving belts, chains and gears in power transmission
3. Thermodynamics of Steam
Learning Outcome:Apply the laws of thermodynamics relevant to steam and heat transfer.
Objectives:3.1 Describe the laws of thermodynamics and modes of heat transfer3.2 Solve problems involving heat and linear and volumetric expansion/contraction3.3 Use steam table to perform thermodynamic calculations3.4 Perform calculations related to the throttling process
4. Thermodynamics of Refrigeration
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Learning Outcome:Analyze the principles associated with the thermodynamics of compressions based refrigeration
Objectives:4.1 Explain the fundamentals of compression based refrigeration cycles4.2 Describe the relationship between operation temperature and pressure in a compression based refrigeration system4.3 Use refrigeration tables to discover the properties of refrigerants4.4 Calculate the efficiency of simple machine.
5. Psychometric Chart
Learning Outcome:Use a psychometric chart to solve problems
Objectives:5.1 Define the terms and properties of psychometric5.2 Evaluate the behavior of air when subjected to heating, cooling, humidification and dehumidification5.3 Describe comfort and the air conditioning factors that affect it
3. Study Methods:- In-class Lectures/Discussions- Field Trips- Personal Assignments- Lab Classes/Discussions
4. Study Materials:- Electronic books- Hand-out materials- Lecture materials- Lab equipment
5. Course Texts: 5.1. Pan Global. Energetic. 2009
6. Course Evaluation System
Quizzes 10%Midterm exam 40%Assignments 20%Final exam 30% Total: 100%
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Grade Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.085-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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Ministry of Education and Science of the Republic of KazakhstanTechnical and Vocational education
EXPERIMENTAL PROGRAM ON THE SUBJECT OFWorkshop Practices
Specialty: Power and Process OperationsQualification: Power System Technician
Astana 2012
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The Program has been reviewed and approved by the Study and Methodology Council of the Department of Technical and Vocational Education of the Ministry of Education and Science of the Republic of Kazakhstan.
Protocol № «___» _____2012.
Study and Methodology Council chairman Mr. Boribekov K.___________
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Contents
1. Description 1842. Course outline 1853. Study Methods 1864. Study Materials 1865. Course Texts 1866. Course Evaluation System 186
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1. Description
The present experimental educational program was developed in accordance with state educational standards of technical and vocational education (Government order of August 23, 2012, № 1080).
The Course of “Workshop Practices” performs the following procedures; instrument tube installation, Fisher control valves, welding, flanging, drilling and tapping, threading pipe, valve, pump packing, general mechanical and preventative maintenance. Total Modules: 5
Number of Hours: 45.Credits: 1.5.The Course of “Workshop Practices” is the basis for the development of a
working program of educational organization.In the process of development of the working educational program,
educational organization has the right to make reasonable changes in the sequence of the study program material regarding the introduction of regional components, taking into account the requirements of employers and local conditions.
It is recommended to use new learning technologies (credit, module, etc.), electronic textbooks, audio and video materials, teaching aids, choose different forms, methods, organization and control of the educational process, during the implementation process of the working program.
The program suggests an alternation of theoretical (lectures) studies with laboratory practical studies and seminars in order to provide successful completion.
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2. Course outline
Unit 1. Introduction to Piping and Piping Fittings
Learning Outcome:Upon successful completion of this module, the student will be able to discuss the basic types of piping, piping connections, supports and drainage devices used in the steam industry.
Objectives:1.1 Apply the pipe schedule table to determine actual piping inside and outsidediameters.1.2 List the major types of piping fittings and methods of connection.1.3 Sketch and describe the most common methods of providing for piping expansion and contraction.1.4 Discuss the overall protection of steam piping from water hammer, including insulation, drainage and steam traps.
Unit 2. Introduction to Valves
Learning Outcome:Upon successful completion of this module, the student will be able to discuss valve design.
Objectives:2.1 Describe several common valve designs.2.2 State the applications of the various valve designs.2.3 Identify the materials used in valve construction.2.4 Describe valve trim, packing, and stem configuration.2.5 List the markings required on valves and pipefittings.2.6 Sketch and describe various arrangements of nonreturn heater valves.
Unit 3. Powerhouse Maintenance I
Learning Outcome:Upon successful completion of this module, the student will be able to describe the safe use of common hand tools in the powerhouse.
Objectives:3.1 Describe the safe lock out procedure to be used before commencing work on machinery.3.2 Describe the safe and proper use of wrenches, saws, files, chisels, hammers, screwdrivers, measuring devices, tapping, threading, grinding and drilling tools.3.3 Describe the proper care of the above tools.
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Unit 4. Powerhouse Maintenance II
Learning Outcome:Upon successful completion of this module, the student will be able to discuss and describe the safe and proper setup of equipment for hoisting and working above ground.
Objectives:4.1 Discuss the correct procedures for setting up ladders and scaffolding.4.2 Discuss the proper use of block and tackle and chain hoists.
Unit 5. Powerhouse Maintenance III
Learning Outcome:Upon successful completion of this module, the student will be able to discuss and describe the safe and proper setup of equipment for hoisting and working above ground.
Objectives:5.1 Discuss the correct use and limitations of wire cable and rope, including cableattachments and rope knots.5.2 List, sketch and describe common types of metal fasteners such as screws, bolts, studs, nuts and washers.
3. Study Methods:- In-class Lectures/Discussions- Field Trips- Computer based Classes
4. Study Materials:- Hand-out materials- Lab Equipment- Lecture materials- Audio/video materials
5. Course Evaluation System
Projects 40%Participation 40%Competency 20%Total 100%
Grade Schedule
Percentage Grade Letter Grade Grade Points90-100 A+ 4.0
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85-89 A 4.080-84 A- 3.777-79 B+ 3.373-76 B 3.070-72 B- 2.767-69 C+ 2.363-66 C 2.060-62 C- 1.755-59 D+ 1.350-54 D 1.0
Minimal Pass0-49 F 0.0
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STUDY CURRICULUM
Specialty: Power and Process OperationsQualification: Power System Technician
Study form: full-timeStandard duration of study: 1 years 10 months
On the base of: general secondary education№ Study cycles of subjects
and knowledge, skills and competency
requirements
Assessment form
Study Timeline (hours, credits)
Exa
min
atio
n,
pass
Proj
ect
Tota
l hou
rs
Cre
dits
Divided on: Study Years and
Terms
The
ory
Les
sons
Prac
tical
L
esso
ns
Year
s
Term
15 e
eks
1 2 3 4 5 6 7 8 9 101 General Humanitarian
Subjects640 16.0 400 240 1 1,2
English E 320 8.0 200 120 1 1,2Professional English E 320 8.0 200 120 1 1,2
2 General Professional Subjects
640 16.0 430 210 1 1,2
Mathematics E 240 6.0 150 90 1 1,2Physics E 160 4.0 100 60 1 1,2Chemistry E 160 4.0 100 60 1 1,2Introduction to Oil and Gas Business
80 2.0 80 - 1 1,2
3 Special Subjects 900 36.0 525 375 2 3,4Chemistry and Corrosion E 60 3.0 30 30 2 4Industrial Communications
30 1.5 30 - 2 3
Communicating in the Workplace
PR 30 1.5 30 - 2 4
MS Office: An Introduction E 45 1.5 45 - 2 3Safety and Environmental Protection
E 60 3.0 60 - 2 3
Process Operations E 150 6.0 150 2 3,4Unit Operations E 60 3.0 60 - 2 4Basic Plant Operations E 360 12.0 210 150 2 3,4Thermodynamics E 60 3.0 60 - 2 3
Workshop practices PR 45 1.5 - 45 2 3,4Examinations 60Mid-term Exam 20Final Exam 40Total 2240 68.0 1355 825
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METHODOLOGICAL GUIDELINESExperimental technical and vocational education
“Kasipkor” Holding together with the international strategic partner SAIT Polytechnic (Southern Alberta Institute of Technology, Canada) - taking into consideration the analysis of oil and gas companies needs - worked out innovative programs for “Oil-and-Gas Industry and Petroleum Chemistry” in order to prepare a new generation of skilled workers for the oil and gas sector in Kazakhstan
SAIT Polytechnic is recognized to be one of the world’s leaders in education and training for oil and gas field, that’s why their accredited and validated programs are used as basis for training skilled workers in the oil and gas industry to fit the international standards.
Kasipkor Holding and SAIT Polytechnic came to an agreement of creating joint diploma programs. It means that all the syllabuses and working programs, teaching techniques and students’ knowledge assessment shall receive a prior consent, the results in college-partner shall be recognized by both partners, management structure shall be shared, English shall be taken as the teaching language.
Experimental education involves vocational training and educational training. Vocational training graduate shall get a certificate of a skilled worker, and educational training graduate shall get a diploma.
Vocational training lasts 1 year 10 months, educational – 2 years 10 months.In accordance with the structure of innovative programs of each specialty,
the list of subjects is represented as modules and divided into such cycles as Humanities, General Professional and Special disciplines.
The cycles of Humanities and General Professional disciplines are focused on foundation program (1 course), and cycle of Special disciplines is focused on technical program (2nd-3d course).
Humanities Module provides basic training, including the English language study and preparation for IELTS 6,5. As English is the teaching language, mastery of it is provided by the "immersion" method to the level sufficient for the successful study of special subjects. Excellent English and knowledge of specialized technical terms are an essential requirement for certification in accordance with the international standards.
The English language is to be studied within 640 hours of the first two terms. The learning process of the program is divided into eight-week cycles, and focused on the study of conversational and technical English.
The General Professional disciplines (mathematics, physics and chemistry) within the Foundation program are to be studied within 640 hours. The learning process of these subjects is divided into eight-week cycles with a predominance of practical training. These disciplines are considered applied and focused on the development of specialized disciplines specialty.
Foundation Program includes "Introduction to oil and gas business" discipline . As part of this course, students learn the basics of oil and gas business, the basic concepts in the areas of oil and gas operations (Upstream, Midstream,
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Downstream), and service of oil and gas properties (mechanical, electrical, instrumentation).
The technical program contains a module of specialized disciplines, oil and gas facilities operating, oil exploration and production, well drilling and injection, maintenance and repair of oil and gas facilities, mechanical and electrical engineering. The program lasts for four terms.
The intermediate and final examinations of each program are to be conducted in the end of the term (Foundation, Technical Program).
Innovative programs are implemented according to "alternate" scheme of training, involving alternation of industrial training and classes. The part of industrial training for qualifications on the basis of certificate is not less than 70%, and on the basis of diploma is not less than 50%. Industrial training is organized in the form of the practical work in the facilities, or in shops, workshops, laboratories, colleges with the equipment, which is similar to real working environment, and meets the requirements of international colleges. Thus, the work experience of the students can be formed not only during the period of industrial training in the enterprise, but also due to technical training in the workshop or college laboratory.
Colleges can identify other forms of training (dual, "apprenticeship", etc.) that meet the principle of "alternate" training, i.e. a combination of theoretical and practical training.
Innovative programs are focused on obtaining relevant professional competencies of skilled workers and professionals with the main priorities of the industrial-innovative development of Kazakhstan's oil and gas industry, and agreed with the relevant customers - employers.
While studying the discipline modules the student must master work experience (acquire skills to perform labor activities) and acquire knowledge in order to master the professional activities and appropriate professional competencies indicated in the structure.
It should be noted that the list of projected competencies is extremely realistic as it is connected with the system of discipline modules, with specific types of training activities required for education technologies and with the system of appropriate assessment tools.
The special features of the innovative programs are the practical component and provision of sufficient autonomy to colleges in terms of substantive content of the program in the development of work programs.
As a whole, labor content indicators of the innovative programs and labor content of discipline cycles are provided in academic hours and credits. Innovative programs are recommended when:
types of classes are lectures; seminars; research seminars; workshops; laboratory works; counseling; self-study; self-study under guidance of the instructor; practices; preparation of the project; student teams; debating society;
types of learning activities are lectures attendance; classes; case studies in laboratories, workshops, shops; working out of course papers; working out of technical and laboratory skills; preparation of reports; reading of educational materials; preparation of thesis; training of constructive criticism of the work done
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by others; involvement in monitoring and assessing activities; group discussions; computer presentations;
types of assessment are oral exams; written exams; written lab exams; oral presentations; testing; reports; tests; course projects; the current assessment.
The innovative program implementation requires a modern material and technical basis for practical implementation of the proposed work, and the availability of teaching staff of appropriate qualification level.
Content correlation of the innovative programs will be carried out according to the results of their adaptation on the basis of interregional occupational Atyrau center for training and retraining.
Educational Bibliography.
1. Natural Resources. Protection and Rational Use. 2nd ed.
Abel А.
2. Occupational Health and Security,2nd ed. Amanzholov Z.К.
3. Environmental Safety and Occupational Security.Textbook, 2nd ed.
Dridge N.A.
4. Safety. Textbook. 2nd ed. Klyuzhev Y.V., Shatyrbayeva М.Z.
5. Hydraulic and Pneumatic Systems, Textbook. Mitusov A.A.
6. Hydrogeology. Textbook. Bakirova S.7. Hydrogeology. Textbook. Burmistrov А.8. Basics of Hydraulics and Hydrometrics. Textbook. Kadyrbayev А.,
Kadyrbayeva А.А.9. Oil and Gas Drilling Vadetsky Y.V.10. Oil and Gas Drilling. Textbook Kurmanseitova N.M.
11 Drilling Rigs. Textbook. Klyuzhev Y.12 Fuels and Lubricants. Laboratory Guide Abdrahmanov A.B.,
Askarov N.K.13 Geophysical methods of exploration and research
of oil and gas fields. TextbookPortnov V.S. Yurov М.V.
14 Oil and Gas Production. Textbook. Pokrepin G.V. Nugmanov А.B.
15 Regional Oil and Gas Geology in Kazakhstan. Textbook.
Amanniyazov К.N. Akmetov А.S. Kozhakhmet К.А.
16 Compressing and Pumping Units Verigin I.S.17 Mineral Resources Prospecting and Exploration
MethodsNursultanova S.N.
18 Basics of Oil and Gas . Textbook. Suyerbayev K.
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19 Oil and Gas Production Technology. Textbook. Mailybayeva G. Z.
20 Oil Processing Mechanics. Textbook. Saktaganova М.
21 Oil and Gas Chemical Processing Technologies. Textbook.
Mergaliyeva
22 Oil and Gas Chemical Processing Technologies. Textbook. 1st ed. Textbook.
Omaraliyev Т.О.
23 Oil and Gas Chemical Processing Technologies. Textbook. 2nd ed. Textbook.
Omaraliyev Т.О.
24 Oil and Gas Processing Plant Units. Konyukhova G.М.
25 Oil and Gas Processing Plant Units Sugak А.V., Leontyev V.К.
26 Оil and Gas Production Automated Technologies Prakhova М. Y., Shalovnikov E. А.
27 Basic Thermodynamics. Textbook. Quon S.S. Alzhanov М.К.
28 Safety in Petrochemical Industry Voronkova L.B., Taroyeva Е.N.
29 Oil and Gas Field Production. Textbook. Musina Z.
30 Oil and Gas Field Treatment . Учебник. Ermekov М.
31 Driller’s Reference Book Vadetskiy Y.V., Vadetskaya Z.N.
32 Petrochemical Synthesis Technology. Textbook. Suyerbayev KH.
33 Drilling Wells Equipment Installation, Maintenance, and Repair. Textbook.
Umraliyev B.Т.
34 Underground Mining Technologies Borobkov Y. А., DrobaDenko V. P., Rebrikov D. N.
35 Water Tubes and Construction Materials Technologies
Bezpalko V.I.
36 Oil and Gas Wells Operation Tagirov К. М.
37 Automation Elements in Oil and Gas Industry. Tuganbayev I.Т.
38 Gas and Electricity. Textbook. 2nd ed. Shakirova Т.М., Mametsupiyev А.A.
39 Gas and Electricity. Textbook. 2nd ed. Tapalov А.O.
40 Gas and Electricity Handbook. 2nd ed. Aliyev B., Nikiforov PAGE \* MERGEFORMAT194
N.41 Oil Processing Handbook S. Parkash42 Engineer’s Handbook R. К. Mobly (2 тома)
43 "Field preparation of hydrocarbons" (two books: "Gas Production Handbook," "Oil Production Handbook")
К. Arnold, М. Stuart
44 Set of «Oil and Gas Reservoirs Development Research» (2 books: «Hydrodynamic Research of Oil Wells» , «Practical Aspects of Oil Logging»)
Т. Darling, А. Chodri
45 Set of "Development of oil and gas fields" (2 books: "The development of promising fields", "Fundamentals of Oil and Gas Fields")
Т. Akmed, P. D. МcKeenly, L. P. Dake
46 Oil Wels Hydrodynamic Research А. Chodri
47 Practical aspects of well logging Т. Darling
48 Petrophysics: theory and practice of studying the properties of reservoir rocks and fluid movement
J. Tiab, E Donaldson
49 Prospective Fields Development Т. Akmed, P. D. McKeenly
50 Oil and Gas Fields Development Fundamentals L. P. Dake
51 Enhanced oil recovery methods. Planning and implementation strategy
V. Alvarado, E. Manrick
52 Operation of the watered gas wells J. Lee, G. Nikkens, М. Wales
53 Natural Gas Hydrants J. Carrol54 Gas Development Equipment Reference Arnold K., Stuart M.
55 Oil Development Equipment Reference Arnold K., Stuart M.
56 Modern Compressor Units (mini CD-attached) А. V. Voronetskiy
57 The Color of Oil. The Largest World Business. History and Money
Michael Economides / Ronald Ollini;
58 Oil Processing U. L. Leffler.59 English-Russian dictionary for oil business Khartukov E.
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60 Geology, exploration, drilling and production of oil
Norman J, Hein
61 Petrochemistry Donald L. Bardik / William L. Leffler;
62 Analysis of the economics of exploration, risks and agreements in the international oil and gas industry
J. Daniel
63 English-Russian dictionary for oil business Khartukov Е. М.
64 Deepwater Exploration and Production of Oil Leffler William / Pattarozzy Richard
65 Oil Economics ABC Bob Tippey66 Technical Communications Guide,2nd ed, ISBN
978-0-205-50039-0.Gurak
67 Applied Mechanics of Liquids and Gases, 6th ed Mott68 Allen&Roberts. Production Operations Volume
1&2. ISBN 978-0-930972-18-9Allen and Roberts
69 Asquith. Basic Well Log Analysis for Geologists. ISBN 0-89181-667-4
Asquith
70 Washington Custom. Basic Technical Mathematics w/Calculus SI Custom. ISBN 978-1-256-71475-0
Вашингтон Кастом
71 Pan Global. Power Engineering. 3rd Class. ISBN 978-1-926900-02-5
Pan Global
72 Pan Global. Power Engineering. 4th Class. ISBN 978-1-926900-02-5
Pan Global
73 Smith. Principles and Practice of Automatic Process Control. ISBN 978-0-471-43190-9
Smith
74 Lewis. Fundamentals of Project Management. ISBN 978-0-8144-1748-5
Lewis
75 Kirk/Weedon. Instrumentation. ISBN 978-0-8269-3430-7
Kirk/Weedon
76 Kirk/Weedon. Instrumentation Workbook. ISBN 978-0-8269-3430-7
Kirk/Weedon
77 Park. Practical Data Communications for Instrumentation and Control. ISBN 978-0-7506-5797-6
Park
78 Halabi. Internet Routing Architectures. ISBN 978-1-57870-233-6
Halabi
79 Introduction to Thermodynamics and Heat Power. ISBN 978-1-259-03422-0)
McGraw
80 Vickers. Industrial Hydraulics Manual. ISBN 978-0-9788022-0-2)
Vickers
81 Mott, Machine Elements in Mechanical Design (w/CD). ISBN 978-0-13-061885-6)
Моtt
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82 Wildi. Electric Machines, Drives and Power Systems. ISBN 978-0-13-177691-3)
Wildi
83 Bosela. Electrical Systems Design. ISBN 978-0-13-975475-3)
Bosela
84 Robbins. Circuit Analysis (w/CD). ISBN 978-1-133-28100-9
Robbins
85 Petroleum. Our Petroleum Challenge: Sustainability into the 21st Сentury Custom Pub. ISBN 978-1-256-86611-4)
86 Lestina. Process Heat Transfer. ISBN 978-0-12-373588-1
Lestina
87 Physics. ISBN 978-0-13-505048-4 Ackroyd88 Jenkins. Chemistry (20/30). ISBN 978-0-17-
628930-0)Jenkins
89 Alberta Learning. Chemistry Data Booklet 2010 Product #755115. ISBN 10645246 )
90 Learning English for Academic Purposes. ISBN: 978-2-7613-1584-5
Williams
91 Graham&Graham. Can do writing.,2009. ISBN:978-0-470-44979-0.)
Graham
92 Scanlon. Skills for Success: Listening and Speaking 1: Student book, ISBN 978-0-19-475610-5
Sclanlon
93 Lynn, Skills for Success: Reading and Writing 1: Student book, ISBN 978-0-19-475622-8)
Lynn
Materials and Equipment
1. Physics Classroom Equipment;2. Interactive Classroom for Maths;3. Chemistry Classroom Equipment;4. English Classroom Equipment;5. ActiveBoard 587Pro+2 с 3D Projector;6. Visual Presenter ActiView 322;7. Desktop Digital Podium (Chalk-190SL);8. Scientific Learning System SPARK PS-2008A-INT;9. Drilling Simulator DrillSim-5000 Classic/6000 DOME;10. Drilling Simulator DrillSim-5;11. Gas Absorption and Regeneration Controlling Unit ( - INVENSYS DCS);12. Controlled Distillation Unit (- INVENSYS DCS);13. Controlled 3 Phase Separation Unit;14. 3 kW Steam Turbine with data acquisition & control system by Touch
screen (PLC or DCS);15. Centrifugal pumps with touch screen;
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16. Two Stage Compressor;17. Heat Exchanger Unit;18. U-Tube Heat Exchanger Model;19. Multi-Pass, Fixed Tubesheet Heat Exh. Model;20. Plate-Type Heat Exchanger Model;21. 18 Kw Boiler System;22. Fluid dynamics Unit;23. Pneumatic control valve;24. Level Control Unit;25. Pressure Control Unit;26. Computer control software + Modbus kit RS 232;27. Cascade Loop;28. Cold water flowrate transmitter;29. Hot water flowrate transmitter;30. Multi-loop control;31. Flare System Model;32. Valve Cutaway Assortment, Extended;33. Mobile Valve Display Stand;34. ANSI Centrifugal Pump, Dissectible (Goulds);35. Pump Maintenance Trainer, Extended (w/Alignment);36. Multi-Pass, Floating Head Heat Exchanger Model;37. Kettle-type Reboiler Model (Kettle-type);38. Vertiсal, Thermo-syphon Reboiler Model;39. Air-Cooled Heat Exchanger Model (Fin-Fan);40. Water-Tube Boiler Model;41. Fired-Tube Boiler Model;42. Steam Trap Cutaway Assortment;43. Cooling Tower Model;44. Coolant Cycle Unit;45. Two stages compressor;46. Cooling Tower Model;47. 50 KW PeakBoiler;48. ANSI Centrifugal Pump, Dissectible (Goulds);49. Valve Cutaway Assortment, Extended;50. Flow Sensors;51. PH Control Software;52. Mini-continuous Distillation Unit53. Perforated tray column, Bubble cap tray column;54. Hold-up tanks;55. Multi-function Distillation unit computerized;56. Gas solid adsorption;57. Evaporation Crystallization Unit;58. Ebulliometer (Armored Boiler, Protected Door);59. Single Effect Evaporator (Steam boiler 18kW, Data Acquisition Software);60. Manual Multi-purpose Reactor (1 Gal);
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61. 1 Gal controlled Multi-purpose Reactor62. Equipment for heating steam/cooling reactor;63. Steam boiler 18 kW, pressure 6 bar;64. Thermo-regulator unit 6 kW;65. Glass jacketed Reactor;66. Cabinet with 2 pt100 sensors, Digital T°C;67. Condenser Thermal balance;68. Sampling device of reactive mixture;69. PTFE diaphragm vacuum pump;70. Settlement sight-tube on SS reactor;71. Azeotropic settler;72. Combined Fluidization Unit;73. Gas Solid Fluidization Drying Unit;74. Physical and Chemical Treatment Unit (Four vessel 1 L jar-test, Treated
water storage, Sludge thickener PH electrode and supplementary pH, Sludge veil detector);
75. Press Filter;76. Aerobic Treatment Unit (L cylinder-cone sludge thickener);77. Water Potabilization Line, Controlled Evaporator;78. Ion Exchange Resins;79. Reverse Osmosis Unit;80. CO2 Analysers in line;81. Crude oil Batch Distillation (Analysis equipment, Cooling unit -20°C 2
Kw, Portable densimeter);82. Gas Dehydration Unit;83. Fixed Bed Reactor Under Pressure;84. Small Oil Processing Plant Simulator Unit (Distillation Column Model и
Flare System Model);85. Electrical power distribution systems and related protections;86. Industrial control installations with cabled logics;87. PLC Systems and Applications Siemens;88. DC motor and DC generator;89. 3-ph synchronous machines (motor and alternator);90. 3-ph asynchronous machines (squirrel cage and slip ring motor);91. the most common single ph motors;92. single and 3-ph transformers;93. electromechanical tests (the Torque vs. RPM curve) for the motors;94. Circuit assembly with ammeters, voltmeters and rheostats;95. Resistance measurements with voltammetric method, Measurements of
single-phase active power and deduction of power factor;96. DC generator with: separate excitation - shunt excitation - series excitation
- compound excitation. Parallel connection of two DC generators: with shunt excitation - compound excitation;
97. Ward Leonard system;98. Electronic speed control of DC motors;
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99. Squirrel cage motor;100. 3-phase transformers;101. Single phase motors and transformations, Single-phase repulsion-start
induction motor;102. Hardware in computerised-measurement systems: Measurement converters
- Computer interfacing;103. Power Generation: Power Sets ;104. Power Protection and Measuring Techniques and devices;105. Electrical Power Generation, Distribution and Management;106. The electrical power cabins & substations;107. Special electrical systems: installations for oil drilling rigs;108. prime mover machine ;109. semiconductor devices used in power electronics;110. rectifiers;111. the electronic drive for the DC motor;112. the inverter and the PWM circuits;113. the electronic drive for the 3-ph asynchronous motor;114. Power semiconductor devices and AC to DC conversion circuits;115. Single pulse rectifier (direct polarization);116. Single pulse rectifier (inverse polarization);117. Two pulse rectifier cathodes connected;118. Two pulse rectifier anodes connected;119. Three pulse rectifier anodes connected;120. Three pulse rectifier cathodes connected;121. Single pulse rectifier (inverse polarization);122. Single pulse rectifier (inverse polarization);123. Full or Partly Controlled Well Unit;124. Electronic drives for A3-ph asynchronous motors;125. Analysis of the PWM sinusoidal modulation;126. Acceleration and deceleration ramps.
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