MODULE DESCRIPTION FORM

نموذج وصف المادة الدراسية

 

 

Module Information

معلومات المادة الدراسية

Module Title

Production Engineering

Module Delivery

Module Type

C

☒ Theory

☒ Lecture

☒ Lab

☐ Tutorial

☐ Practical

☐ Seminar

Module Code

BOG1163

ECTS Credits

6

SWL (hr/sem)

150

Module Level

UGx11  UGIII

Semester of Delivery

Six

Administering Department

Oil and Gas Engineering

 College

 Oil and Gas Engineering

Module Leader

 

 e-mail

 

Module Leader’s Acad. Title

 

Module Leader’s Qualification

 

Module Tutor

 

 e-mail

 

Peer Reviewer Name

 

 e-mail

 

Scientific Committee Approval Date

 

Version Number

1.0

               

 

 

Relation with other Modules

العلاقة مع المواد الدراسية الأخرى

Prerequisite module

 

Semester

 

Co-requisites module

 

Semester

 

 

 

 

 

 

 

Module Aims, Learning Outcomes and Indicative Contents

أهداف المادة الدراسية ونتائج التعلم والمحتويات الإرشادية

 Module Objectives

أهداف المادة الدراسية

 

The objective of this class is to develop an understanding of reservoir behavior, productivity assessment, pressure drop calculations, and completion and workover operations in order to optimize well performance and design effective completion systems for various reservoir types and flow conditions.

Module Learning Outcomes

 

مخرجات التعلم للمادة الدراسية

  1. Understand the different types of reservoirs and their radial flow characteristics, and apply appropriate mathematical and physical principles to analyze pressure drop and flow patterns.
  2. Gain proficiency in assessing reservoir productivity through the interpretation of inflow performance relationships (IPR) and outflow performance relationships.
  3. Develop skills in using various methods and techniques, such as Vogel, Standing, Couto, Fetkovich, Al-Saadoon, for productivity index calculations and well performance analysis.
  4. Acquire knowledge of completion and workover operations, including completion design, tubing design, subsurface equipment, and selection of completion fluids.
  5. Gain understanding of sand control techniques, perforating methods, and remedial cementing for maintaining well integrity and enhancing production.
  6. Explore the principles and applications of horizontal well completion technology.
  7. Apply problem-solving and critical thinking skills to optimize well performance and make informed decisions regarding completion and workover operations.
  8. Develop effective communication skills through technical discussions, presentations, and reports related to reservoir behavior and completion practices.
  9. Understand the importance of safety protocols and environmental considerations in completion and workover operations.
  10. Apply theoretical knowledge and practical skills in real-world scenarios through hands-on exercises, simulations, and case studies.

Indicative Contents

المحتويات الإرشادية

Types  of  reservoirs  and  radial  flow  in  the  reservoirs,  productivity index,  inflow  performance  relationship  (IPR),Outflow performance relationship,  effect  of  stratification  and water  cut  on  IPR,  productivity  index  test,    Vogel    method,  Standing method,  Couto  method,  Fetkovich  method,  Al-Saadoon  method, mathematical  and  physical  principles  for  pressure  drop  calculations,  flow pattern  and  its  relation  with  pressure  drop,  Poettmann  and  Carpenter method,  Dukler  method,  working  charts,  analysis  of  choke  performance, prediction  of  restricted  and  unrestricted  production,  effect  of  other parameters  on  well  performance,

Study of the fundamentals and applications of completion and work over operations

including various completion designs, reservoir and mechanical considerations, basic

tubing design, subsurface equipment, completion and work over fluids, perforating, sand control and remedial cementing. Horizontal well completion technology

 

Learning and Teaching Strategies

استراتيجيات التعلم والتعليم

Strategies

 

The main strategy for delivering this module is to actively engage students in practical exercises, fostering critical thinking and problem-solving skills. This will be achieved through interactive classes, hands-on tutorials, and the integration of relevant experiments and case studies to create an engaging learning experience.

 

Student Workload (SWL)

الحمل الدراسي للطالب محسوب لـ ١٥ اسبوعا

Structured SWL (h/sem)

الحمل الدراسي المنتظم للطالب خلال الفصل

58

Structured SWL (h/w)

الحمل الدراسي المنتظم للطالب أسبوعيا

 

Unstructured SWL (h/sem)

الحمل الدراسي غير المنتظم للطالب خلال الفصل

92

Unstructured SWL (h/w)

الحمل الدراسي غير المنتظم للطالب أسبوعيا

 

Total SWL (h/sem)

الحمل الدراسي الكلي للطالب خلال الفصل

150

 

 

Module Evaluation

تقييم المادة الدراسية

 

As

Time/Number

Weight (Marks)

Week Due

Relevant Learning Outcome

Formative assessment

Quizzes

 

10% (10)

5 and 10

LO #1, #2 and #10, #11

Assignments

 

10% (10)

2 and 12

LO #3, #4 and #6, #7

Projects / Lab.

 

10% (10)

Continuous

All

Report

 

10% (10)

13

LO #5, #8 and #10

Summative assessment

Midterm Exam

1hr

10% (10)

7

LO #1 - #7

Final Exam

2hr

50% (50)

16

All

Total assessment

100% (100 Marks)

 

 

 

 

 

Delivery Plan (Weekly Syllabus)

المنهاج الاسبوعي النظري

Week 

Material Covered

Week 1

Types of reservoirs and radial flow in the reservoirs

Week 2

Productivity index, inflow performance relationship (IPR)

Week 3

Outflow performance relationship, effect of stratification and water cut on IPR

Week 4

Productivity index test, Vogel method, Standing method, Couto method, Fetkovich method, Al-Saadoon method

Week 5

Mathematical and physical principles for pressure drop calculations, flow pattern and its relation with pressure drop

Week 6

Poettmann and Carpenter method, Dukler method, working charts

Week 7

Analysis of choke performance, prediction of restricted and unrestricted production, effect of other parameters on well performance

Week 8

Fundamentals and applications of completion and work over operations

Week 9

Reservoir and mechanical considerations, basic tubing design, subsurface equipment

Week 10

Completion and work over fluids, perforating, sand control and remedial cementing

Week 11

Horizontal well completion technology

Week 12-15

Applications

Week 16

Preparatory week before the final Exam

 

Delivery Plan (Weekly Lab. Syllabus)

المنهاج الاسبوعي للمختبر

Week 

Material Covered

Week 1

 

Week 2

 

Week 3

 

Week 4

 

Week 5

 

Week 6

 

Week 7

 

 

Learning and Teaching Resources

مصادر التعلم والتدريس

 

Text

Available in the Library?

Required Texts

 

 

Recommended Texts

 

 

Websites

 

                         

                                                                     Grading Scheme

مخطط الدرجات

Group

Grade

التقدير

Marks %

Definition

Success Group

(50 - 100)

A - Excellent

امتياز

90 - 100

Outstanding Performance

B - Very Good

جيد جدا

80 - 89

Above average with some errors

C - Good

جيد

70 - 79

Sound work with notable errors

D - Satisfactory

متوسط

60 - 69

Fair but with major shortcomings

E - Sufficient

مقبول

50 - 59

Work meets minimum criteria

Fail Group

(0 – 49)

FX – Fail

راسب (قيد المعالجة)

(45-49)

More work required but credit awarded

F – Fail

راسب

(0-44)

Considerable amount of work required

 

 

 

 

 

 

Note: Marks Decimal places above or below 0.5 will be rounded to the higher or lower full mark (for example a mark of 54.5 will be rounded to 55, whereas a mark of 54.4 will be rounded to 54. The University has a policy NOT to condone "near-pass fails" so the only adjustment to marks awarded by the original marker(s) will be the automatic rounding outlined above.