Module Information

معلومات المادة الدراسية

Module Title

Drilling Engineering II

Module Delivery

Module Type

C

☒ Theory

☒ Lecture

☒ Lab

☐ Tutorial

☐ Practical

☐ Seminar

Module Code

BOG1161

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 overall objectives of this class are to provide students with a comprehensive understanding of well design and casing considerations in the oil and gas industry. Through the exploration of various topics, including data gathering, well profile and casing design, casing landing methods and calculations, casing metallurgy selection, well stability, safety factor and design factor determination methods, temperature effects on HPHT wells, annular pressure buildup, wellhead movements, casing parting or buckling, cost analysis, and optimization, students will gain the necessary knowledge and skills to design and optimize well structures. The utilization of Landmark software from Halliburton will allow students to apply their learning to real-world cases, enhancing their practical expertise in well design and casing selection. By the end of the course, students will be equipped with the ability to analyze and make informed decisions regarding well design, casing selection, and optimization, taking into account factors such as data, safety, stability, and cost.

Module Learning Outcomes

مخرجات التعلم للمادة الدراسية

Upon completion of this class, students will be able to:

1. Understand the importance of data gathering and its relevance to well design and casing selection.
2. Analyze and apply casing landing methods and calculations to ensure proper well construction.
3. Evaluate casing metallurgy options and consider factors such as SSC resistance in casing selection.
4. Assess well stability issues and implement appropriate measures to mitigate risks.
5. Determine safety factors and design factors using relevant methodologies for reliable well design.
6. Comprehend the effects of temperature on HPHT wells, including annular pressure buildup, wellhead movements, and potential casing parting or buckling.
7. Perform cost analysis and optimization techniques to make informed decisions regarding well design, casing selection, and design factors.
8. Utilize Landmark software from Halliburton to analyze and solve real-world well design and casing-related problems.
9. Apply the learned knowledge and skills to develop comprehensive drilling programs and accurate drilling reports.
10. Demonstrate critical thinking, problem-solving, and decision-making abilities in the context of well design and casing selection.

By achieving these learning outcomes, students will be well-prepared to handle the challenges and complexities associated with well design and casing considerations in the oil and gas industry.

Indicative Contents

المحتويات الإرشادية

In this class, students will gain a comprehensive understanding of the key aspects involved in well design and casing selection. They will learn about data gathering techniques, casing landing methods, casing metallurgy selection, and factors affecting well stability. The course will cover safety factor determination, temperature effects on HPHT wells, cost analysis, and optimization related to well design. Students will also have the opportunity to practice their skills using industry-leading software. By the end of the class, students will have the knowledge and skills necessary to make informed decisions in well design, casing selection, and optimize drilling operations.

Learning and Teaching Strategies

استراتيجيات التعلم والتعليم

Strategies

The main strategy for delivering this module is to foster active student engagement and enhance their critical thinking abilities. This will be accomplished through a combination of interactive classes, engaging tutorials, and hands-on activities that involve practical experiments and sampling. By encouraging student participation and providing opportunities for exploration and analysis, this teaching approach aims to deepen their understanding of well design and casing selection concepts. Additionally, the use of interactive sessions and real-world examples will help students connect theoretical knowledge with practical applications, enabling them to develop essential problem-solving and decision-making skills in the field of drilling engineering.

Student Workload (SWL)

الحمل الدراسي للطالب محسوب لـ ١٥ اسبوعا

Structured SWL (h/sem)

الحمل الدراسي المنتظم للطالب خلال الفصل

86

Structured SWL (h/w)

الحمل الدراسي المنتظم للطالب أسبوعيا

Unstructured SWL (h/sem)

الحمل الدراسي غير المنتظم للطالب خلال الفصل

64

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

Data Gathering, Well Profile & Casing Design

Week 2

Casing Landing Methods & Calculations

Week 3

Casing Metallurgy Selection, SSC Resistance

Week 4

Well Stability

Week 5

Safety Factor & Design Factor Determination

Week 6

Temperature Effects on HPHT Wells, Annular Pressure Buildup, Wellhead Movements, Casing Parting or Buckling

Week 7

Cost Analysis & Optimization in Well Design

Week 8

Practice & Real Case (Landmark Software)

Week 9

Review and Revision

Week 10

Mid-Semester Assessment

Week 11

Practice & Real Case Continuation

Week 12

Review and Discussion

Week 13

Final Exam Preparation

Week 14

Exam Week

Week 15

Preparation Week

Week 16

Preparatory week before the final Exam

Delivery Plan (Weekly Lab. Syllabus)

المنهاج الاسبوعي للمختبر

Week 

Material Covered

Week 1-14

Practice & Real Case: landmark software from Halliburton Co.

Learning and Teaching Resources

مصادر التعلم والتدريس

Text

Available in the Library?

Required Texts

Recommended Texts

TBA

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.