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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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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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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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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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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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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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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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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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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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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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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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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Course Schedule

 Lectures  Day: Mon., Tue. & Thu.  Time: 0100-0150  Room: EN2050

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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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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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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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Lecture 01 - Faculty of Engineering and Applied · PDF fileShawn Kenny, Ph.D., P.Eng....

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