Course Outline Jan2012
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Transcript of Course Outline Jan2012
CAB 1052 Engineering Graphics
Chemical Engineering Programme, Universiti Teknologi PETRONAS
CCB 1052 Engineering DrawingsSemester January 2012
Course Code:CCB 1052Course Name:Engineering Graphics/ Engineering DrawingsCourse status:CorePre-requisite:NoneInstructor 1:Pn. Putri Nadzrul Faizura (04-03-30) ChE Group Course coordinatorTel: 05-368 7590Email: [email protected] Lecture:Tuesday 10 am 12 pm (G1), Tuesday 1 pm 3 pm (G2)Location:Room 02-01-13 & 05-02-12Lab/Tutorial:Wednesday 10 am 12 pm (G1), Thursday 9 am 11 am (G2)LocationRoom 02-01-13 & 05-02-12Tutor:Mr Khoa Ta Dang & Ms Nor Diana Abd Wahab
Instructor 2:En. Azizul b Buang (05-03-34) PE GroupTel: 05 368 7627Email: [email protected]:Monday 2 pm 4 pm (G1), Monday 4 pm 6 pm (G2)Location:Room 02-01-13 & 05-02-12Lab/Tutorial:Wednesday 8 am 10 am (G1), Friday 10 am 12 pm (G2)Location:Room 02-01-13 & 05-02-12Tutor:Mr Mohd. Zaki b. Zainal Abidin & Ms Raihan M Ramli
Course Synopsis:
This course is aimed to familiarize students with graphics & drawing technology. Students are expected to be able to explain the importance of engineering graphics as an engineer and be able to equip themselves with specific software to produce assigned drawings. Apart from that, students should be able to communicate and analyze process flow diagram (PFD) and process & instrumentation diagram (PID) through drawing & writing. This course requires skills in drawing as well as team effort to solve problems.
COURSE OUTCOME:
At the end of this course, students should be able to:1. Explain the importance of engineering graphics and the basic drawing techniques 2. Produce mechanical and chemical engineering related drawings by applying knowledge on related graphical software3. Define and explain the process flow diagram (PFD) and process and instrumentation diagram (PID)4. Construct and analyze the PFD and PID using related graphical software
TEXT BOOK 1. Ralph Grabowski, The Illustrated AUTOCAD 2006 Quick Reference, Thomson Delmar Learning 2. Alan J Kalameja, The AutoCAD2004: Tutor for Engineering Graphics with AutoCAD 2005 UPDATE3. Frederick E. Giesecke, Technical Drawing, 13th Edition, Pearson International Edition4. Gary R. Bertoline, Fundamentals of Graphics Communication, 6th Edition, McGraw Hill
Rules, Regulations & NOTES:
A. Lecture / Lab1. Students are required to attend ALL lectures and labs, which have been allocated for them earlier. 2. Students MUST BE PUNCTUAL to all lectures and tutorials.3. Plagiarism in any form is forbidden. No marks will be given if students are caught cheating in test and assignments.4. Cell phones MUST BE SWITCHED OFF during classes.5. Replacement for test will not be entertained in the case of absenteeism without solid justification. 6. In case of lectures/labs fall on the public holiday, these will be replaced at suitable hours or days.7. Students will be provided with students manual for certain lectures. Please bring them along during lab session.8. Students are expected to download the lecture slides prior to lecture. All the materials are available from e-learning.
COURSE EVALUATION
Project (3)35%
Lab assessment (4)10%
Assignment (2)15%
Test 120%
Test 220%
TOTAL100%
GRADING SCALEGradeMeaningGrade PointsRange
AHigh Distinction4.0085.0 100
A-Distinction3.7580.0 84.9
B+High Credit3.5075.0 79.9
BCredit3.0065.0 74.9
C+High Pass2.5055.0 64.9
CPass2.0050.0 54.9
D+Redeemable1.5045.0 49.9
DRedeemable1.0040.0 44.9
FFail0.000.0 39.9
Course Outcome Matrix:PROGRAM OUTCOMEDELIVERY MODEASSESSMENT
CBB 1052 ENGINEERING GRAPHICS/ CCB 1052ENGINEERING DRAWINGSApply physical, chemical and engineering principles for problem identification, formulation and solution.Apply in-depth technical knowledge to analyze, interpret, evaluate and improve system performance in one of the specialized areas (industrial environmental engineering, process plant engineering, gas and petrochemical engineering, process analysis and control and petroleum engineering)Design process plants and improve performance by incorporating the concept of sustainable environment.Demonstrate professional ethics, leadership capacity and moral values in their profession.Function and communicate efficiently in a variety of professional context as an individual and in a group with the capacity to be a leader or manager.Apply engineering and business knowledge in entrepreneurship.Demonstrate the ability to work in teamUndertake independent study and engage in life long learningLectureTutorialGroup ProjectLaboratory workGroup DiscussionComputer based learning (Simulation)Final ExamsTestsQuizzesAssignmentsHomeworkReportsOral Presentations
COURSE OUTCOMES123456781234561234578
1Explain the importance of engineering graphics and the basic drawing techniques20000001
2Produce mechanical and chemical engineering related drawings by applying knowledge on related graphical software30211133
3Define and explain the process flow diagram (PFD) and process and instrumentation diagram (PID)32311032
4Construct and analyze the PFD and PID using related graphical software32311132
3- Heavily emphasized 2 Moderately emphasized
1 Attempt to emphasize0 Not emphasize
Course Content
WeekContentFormative AssessmentRemark
2
Introduction to Engineering Graphics/ Drawings1. Course structure2. Course code3. Issues PRISM and e-learning registration
2Chapter 1: Importance of Engineering Drawings1. Introduction2. Scale, Unit, Dimension3. CAD Drawings in Engineering Graphics
3
Chapter 2: Sketching & Drawing1. Sketch Lines, Proportions & Curves2. Introduction to Ortographic/Isometric Drawing
Individual assignment 1In class hands-on exercise during lab hours
4
Chapter 3: Introduction to AutoCAD1. AutoCAD layouts2. Coordinates system (Absolute, Relative, Polar)3. Adding Text (Text, Dtext, Mtext)Lab assessment 1 to be completed during lab session
Lab session 1
5
Chapter 4: Basic Drawing Techniques on AutoCAD1. Snap, Grid, Ortho & Polar2. Dimensioning3. Lines4. Polylines and Hatching5. Lab assessment 2 to be completed during lab sessionLab session 2
6
Chapter 5: Geometric Drawings on AutoCAD1. Circles (2p, 3p, TTR)2. Polygons3. Array, Chamfer, Fillet, Mirror
Lab assessment 3 to be completed during lab sessionLab session 3
7TEST 1 : CBT (Test arrangement will be announce in class)
8
Chapter 6: Geometric Drawing (Machinery)1. Drawing gears, pistons, valves etc using AutoCAD tools
Lab assessment 4 to be completed during lab session
Project 1: Machinery Drawing
Lab session 4
9Chapter 7: Introduction to 3D-Modelling
10Chapter 8: Introduction to Standards in Process Industries (British Standard)1. Standard2. British Standard in drawings3. Block DiagramIndividual assignment 2 developing block diagram
11
Chapter 9: PFD & PID1. Process Flow Diagram (PFD)2. Process and Instrumentation Diagram (PID)Individual assignment 3 developing PFD from block diagramIn class hands-on
12TEST 2: MCQ (PART A) & SUBJECTIVE (PART B)
13
Project WeekDeveloping 3D drawing of engineering equipmentPROJECT 2
14
Project WeekDeveloping PFD & PID of a process plantPROJECT 2
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