Lecture 01 - Faculty of Engineering and Applied · PDF fileShawn Kenny, Ph.D., P.Eng....
Transcript of Lecture 01 - Faculty of Engineering and Applied · PDF fileShawn Kenny, Ph.D., P.Eng....
Shawn Kenny, Ph.D., P.Eng. Assistant Professor Faculty of Engineering and Applied Science Memorial University of Newfoundland [email protected]
Lecture 01 – Course Introduction
ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Course Learning Objectives Students will be able to:
Develop an understanding of fundamental engineering principles for the design, construction and operation of offshore energy pipeline transportation systems.
Conduct stress and strain based design procedures, focused on mechanical integrity, using international codes and standards.
Conduct pipeline/soil interaction analysis with application to standard design practice and examination of special topics.
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Goals – Engineering Knowledge Overview Pipeline Engineering
Introduction to Pipeline Systems Route selection, engineering surveys and subsea
geotechnical engineering Pipeline thermal and hydraulic analysis; Flow
assurance Linepipe fabrication; Materials selection On-bottom stability and vortex induced vibrations Bottom roughness Installation and shore approach Intervention and repairs
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Goals – Engineering Design Practice
Mechanical Design Codes and standards Stress based and limit states design
approaches Pressure containment and thermal expansion Combined loads – Load and displacement
control Collapse and propagation buckling
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Goals – Engineering Design Practice
Pipeline/Soil Interaction Analysis Thermal expansion, settlement, terrain
roughness, upheaval and lateral buckling Analytical methods including closed-form and
approximate solutions Structural and continuum finite element
methods
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Goals – Computational Methods
Use of common engineering tools for communications and reporting Word, Excel, PowerPoint
Use of specialized engineering tools for analysis and design Matlab Finite element methods (e.g. ABAQUS)
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Course Information
Syllabus, Lecture Notes and Information www.engr.mun.ca/~spkenny/Courses
Office Hours Mon., Tues, & Thu. 9am – 1pm
Contact Information www.engr.mun.ca/~spkenny/Contact
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Planned Course Outline Introduction [1 Lecture] Pipeline Route Selection [1 Lecture] Flow Assurance [1 Lecture] Materials Selection [3 Lectures] Mechanical Design [15 Lectures] Pipeline/Soil Interaction [5 Lectures] Installation [3 Lectures] Intervention and Repair [2 Lectures] Special Topics [3 Lectures]
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Course Evaluation Assessment Notes Due Date Grade (%)
Assignments • 4 staggered over term • Feb. 9 • Feb. 26 • Mar. 16 • Apr. 2
5 5 5 5
Term Project • Proposal • Interim Status Report • Final Report
• Feb. 5 • Mar. 5 • Apr. 6
5 5
20 Final Exam • Open notes • Date TBD 50
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Course Perspective
Lecture Notes Complements available resources Engage critical thinking and student learning Taking additional notes recommended
Educational and Professional Development Facilitated by course material Student ownership is fundamental
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Resources Textbooks
Subsea Pipeline Engineering (2004). A.C. Palmer and R.A. King, ISBN 159370013X
Offshore Pipeline Design, Analysis, and Methods (1981).A. H. Mousselli, Pennwell Corp, ISBN 0878141561
Offshore Pipelines (2005). B. Guo, S. Song, A. Ghalambor and J. Chacko, Elsevier Science, ISBN 075067847X
Advances in Subsea Pipeline Engineering and Technology (1990). C.P. Ellinas Editor, Kluwer Academic Publishers, ISBN 9780792307945
Subsea and Pipeline Engineering (1993). Various, Bentham Press, ISBN 1874612129
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Resources (cont.) Conferences
Offshore Technology Conference International Society of Offshore and Polar Engineers Offshore Mechanics and Arctic Engineering International Pipeline Conference
Journals Offshore Mechanics and Arctic Engineering Petroleum Technology Pipeline Integrity Pressure Vessel and Piping Technology Transportation Engineering
Available from QE II Library and CISTI Library
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Resources (cont.) Industry Magazines
Oil and Gas Journal http://www.ogj.com/index.cfm
Offshore http://www.offshore-mag.com/index.cfm
Offshore Engineer http://www.offshore-engineer.com/
Pipeline and Gas Technology http://www.pipelineandgastechnology.com/
World Pipelines http://www.hydrocarbonengineering.com/Pipelines/
WP_home.htm
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Course Schedule
Lectures Day: Mon., Tue. & Thu. Time: 0100-0150 Room: EN2050
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Assignments Work Scope
4 assignments Available on course website Due in class Late assignments -50%
Objectives To advance critical thinking and problem solving skills To demonstrate comprehension of course material by
solving assigned problem sets
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Term Project – Work Scope
Work Scope Desktop study
Topic of interest related to offshore pipeline systems Topic and work scope must be approved by
instructor Feedback and Learning
Proposal Interim report Final report
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ENGI 8673 Subsea Pipeline Engineering – Lecture 01 © 2009 S. Kenny, Ph.D., P.Eng.
Term Project Objectives
Obtain improved technical knowledge and engineering skills on a topic of interest, within the course work scope, on offshore pipeline systems
Develop critical thinking skills Synthesize and assess a topic of interest within current
engineering practice Not a simple compilation of literature Not a graduate studies thesis
Demonstrate learning objectives have been achieved through submission of an engineering report
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