Department of Petroleum and Gas Engineering
Baluchistan is rich in natural resources like oil, gas and minerals. The largest reserves of gas exist in the area of Sui of this province, which meets one-third of the country’s energy requirements. Engineering education in the country has significantly assisted the exploitation of natural resources. All we need is the excellence in engineering education by continuously producing well-trained engineers with skills required for growing industries. Therefore, keeping in view this essential need, a department of Petroleum and Gas was initiated in the fall of 2004 as the first and pioneering department in the newly established Faculty of Engineering and Applied Sciences (later renamed as the Faculty of Engineering). Currently, a four-year BS Petroleum & Gas Engineering program is offered in the department. The graduates will serve the oil and gas sector and petrochemical-based industries as well as serving other public and private sector organizations.
The four-year BS Petroleum and Gas Engineering has been accredited by Pakistan Engineering Council (PEC). Petroleum & Gas Engineering program equips its student with scientific and computer-based skills for exploration, drilling, exploitation and development of existing oil and gas fields. Special emphasis is given to drilling, production, reservoir engineering, well testing, well logging, petroleum economics, petroleum refinery, and environment and safety management subjects. Thus, engineers from the department will be absorbed in exploration and production as well as service and marketing activities of national and international companies.
The program cultivates industrious engineers for the national and international petroleum and gas industry and its related fields in education, business, and government by providing technical knowledge, skills and values through academic inquiry, teaching and technical services.
Mission
The program cultivates industrious engineers for the national and international petroleum and gas industry and its related fields in education, business,
and government by providing technical knowledge, skills and values through academic inquiry, teaching and technical services.
Admission Requirement
- F.Sc (Pre-Engineering) from any recognized board or equivalent with at least 60% marks.
- Diploma of Associate Engineer (DAE) in the relevant field securing at least 60% marks.
- Entry test will be conducted by NTS.
Degree Requirement
- Total Credit Hours: 136
- Total Courses: 44
- Minimum CGPA ≥ 2.0
- The student must pass all twelve Program Learning Outcomes (PLOs) during the four-year BS Petroleum & Gas Engineering program.
- Each PLO is also assessed to ensure the quality of the Petroleum & Gas Engineering program
- Academic rules
* For details Program Schema
Program Educational Objectives
The graduates of Petroleum and Gas Engineering department will be able to:
- Address complex problems in the areas like renewable, non-renewable energy and sustainable development by utilizing professional, teamwork, communication and managerial skills.
- Fulfil the requirements and necessary skills for higher studies and cutting edge research.
- Adopt a healthy and symbiotic environment with strong commercial instinct helping in creating new opportunities, especially in Balochistan.
Program Learning Outcomes
Program learning outcomes (PLOs) of the P&G program have been adopted from the graduate attributes for engineers defined in the Pakistan Engineer Council (PEC) Outcome Based Assessment (OBA) Manual, 2014. The graduates of Petroleum and Gas Engineering program will attain the following attributes:
...
- Engineering Knowledge: An ability to apply
mathematics, science and engineering fundamentals and an engineering specialization
to the solution of complex computer engineering problems.
- Problem Analysis: An ability to identify,
formulate, and analyze complex computer engineering problems and to be able to
acquire substantiated conclusions using principles of computer engineering, natural
sciences and engineering sciences.
- Design/Development of Solutions: An ability to
design solutions for complex computer engineering problems and design systems,
components or processes that meet specified needs with appropriate consideration for
public health and safety, cultural, societal, and environmental considerations.
- Investigation: An ability to investigate complex
engineering problems in a methodical way including literature survey, design and
conduct of experiments, analysis, and interpretation of experimental data, and
synthesis of information to derive valid conclusions.
- Modern Tool Usage: An ability to create, select and
apply appropriate techniques, resources, and modern engineering and IT tools,
including prediction and modeling, to complex engineering activities, with an
understanding of the inherent limitations.
- The Engineer and Society: An ability to apply
reasoning informed by contextual knowledge to assess societal, health, safety, legal
and cultural issues and the consequent responsibilities relevant to professional
engineering practice and solution to complex engineering problems.
- Environment and Sustainability: An ability to
understand the impact of professional engineering solutions in societal and
environmental contexts and demonstrate knowledge of and need for sustainable
development.
- Ethics: Apply ethical principles and commit to
professional ethics and responsibilities and norms of engineering practice.
- Individual and Team Work: An ability to work
effectively, as an individual or in a team, on multifaceted and /or
multidisciplinary settings.
- Communication: An ability to communicate
effectively, orally as well as in writing, on complex engineering activities with
the engineering community and with society at large, such as being able to
comprehend and write effective reports and design documentation, make effective
presentations, and give and receive clear instructions.
- Project Management: An ability to demonstrate
management skills and apply engineering principles to one’s own work, as a member
and/or leader in a team, to manage projects in a multidisciplinary environment.
- Lifelong Learning: An ability to recognize the
importance of and be able to pursue lifelong learning in the broader context of
innovation and technological developments.
Read more
Program Schema
The BS Petroleum & Gas Engineering is a 4-years (8-semesters)
programme in which students are required to complete a specified number of courses:
|
First Semester
|
|
S.No.
|
Course Code
|
Course Title
|
Prerequisite
|
Credit Hours
|
|
1
|
PGE-102
|
Fundamentals of Petroleum Engineering
|
|
2+0=2
|
|
2
|
GEO-201
|
Applied Geology
|
|
2+1=3
|
|
3
|
HUM-101/112
|
Islamic Studies/Ethics
|
|
2+0=2
|
|
4
|
MATHA 111
|
Applied Mathematics-I
|
|
3+0=3
|
|
5
|
PHY-205
|
Applied Physics
|
|
3+1=4
|
|
6
|
HUM-163
|
Functional English (English-I)
|
|
3+0=3
|
|
7
|
ENGG 202L
|
Workshop Practice
|
|
0+2=2
|
|
Second Semester
|
|
S.No.
|
Course Code
|
Course Title
|
Prerequisite
|
Credit Hours
|
|
1
|
HUM-268
|
Communication Skills (English-II)
|
|
3+0=3
|
|
2
|
HUM-102
|
Pakistan Studies
|
|
2+0=2
|
|
3
|
MATHA-116
|
Applied Mathematics-II
|
Applied Mathematics-I
|
3+0=3
|
|
4
|
CHE-102
|
Applied Chemistry
|
|
2+1=3
|
|
5
|
ENGG-201 L
|
Engineering Drawing
|
|
0+2=2
|
|
6
|
CS-113
|
Introduction to Computer Programming
|
|
2+1=3
|
|
Third Semester
|
|
S.No.
|
Course Code
|
Course Title
|
Prerequisite
|
Credit Hours
|
|
1
|
HUM-276
|
Technical Report Writing and Presentation Skills (English-III)
|
|
2+0=2
|
|
2
|
MATHA-211
|
Applied Mathematics-III
|
Applied Mathematics-II
|
3+0=3
|
|
3
|
ENGG-206
|
Fluid Mechanics
|
|
2+1=3
|
|
4
|
ENGG-211
|
Principles of Electrical Engineering
|
|
2+1=3
|
|
5
|
PGE-306
|
Petroleum Geology and Geophysical Exploration
|
|
3+0=3
|
|
6
|
ENGG-215
|
Applied Thermodynamics
|
|
2+1=3
|
|
Fourth Semester
|
|
S.No.
|
Course Code
|
Course Title
|
Prerequisite
|
Credit Hours
|
|
1
|
STAT-203
|
Applied Statistics
|
|
3+0=3
|
|
2
|
GEOE-206
|
Mechanics of Materials
|
|
2+1=3
|
|
3
|
PGE-303
|
Drilling Engineering-I
|
|
3+1=4
|
|
4
|
PGE-302
|
Petrophysics
|
|
3+1=4
|
|
5
|
HUM-206
|
Introduction to Sociology
|
|
3+0=3
|
|
Fifth Semester
|
|
S.No.
|
Course Code
|
Course Title
|
Prerequisite
|
Credit Hours
|
|
1
|
MATHA-212
|
Applied Numerical Methods
|
|
2+1=3
|
|
2
|
PGE-305
|
Properties of Reservoir Fluids
|
|
3+1=4
|
|
3
|
PGE-402
|
Drilling Engineering-II
|
Drilling Engineering-I
|
3+1=4
|
|
4
|
ENGG-322
|
Environment and Safety Management
|
|
3+0=3
|
|
5
|
CHEE-313
|
Instrumentation and Process Control
|
|
2+1=3
|
|
Sixth Semester
|
|
S.No.
|
Course Code
|
Course Title
|
Prerequisite
|
Credit Hours
|
|
1
|
PGE-311
|
Reservoir Geomechanics
|
|
2+0=2
|
|
2
|
PGE-304
|
Well Logging
|
Petrophysics
|
2+1=3
|
|
3
|
PGE-309
|
Reservoir Engineering I
|
|
3+1=4
|
|
4
|
PGE-308
|
Petroleum Production Engineering-I
|
|
3+1=4
|
|
5
|
CHEE-416
|
Petroleum Refinery Engineering
|
|
3+1=4
|
|
Seventh Semester
|
|
S.No.
|
Course Code
|
Course Title
|
Prerequisite
|
Credit Hours
|
|
1
|
PGE-408L
|
Final Year Project
|
|
0+3=3
|
|
2
|
MGMT402
|
Project Planning and Management
|
|
2+0=2
|
|
3
|
PGE-404
|
Well Testing
|
|
3+1=4
|
|
4
|
PGE-405
|
Petroleum Production Engineering-II
|
Petroleum Production Engineering-I
|
3+1=4
|
|
5
|
PGE-312
|
Reservoir Simulation
|
|
3+1=4
|
|
Eighth Semester
|
|
S.No.
|
Course Code
|
Course Title
|
Prerequisite
|
Credit Hours
|
|
1
|
PGE-408L
|
Final Year Project
|
|
0+3=3
|
|
2
|
PGE-412
|
Natural Gas Engineering
|
|
2+1=3
|
|
3
|
ECON-105
|
Engineering Economics
|
|
2+0=2
|
|
4
|
PGE-407
|
Principles of Enhanced Oil Recovery
|
|
3+1=4
|
|
5
|
PGE-403
|
Reservoir Engineering – II
|
|
3+1=4
|