Post on 26-Mar-2020
Postgraduate Guide Book 2014/2015
i
POSTGRADUATE GUIDE BOOK 2014/2015
FACULTY OF PETROLEUM AND
RENEWABLE ENERGY ENGINEERING
(FPREE) UNIVERSITI TEKNOLOGI MALAYSIA
www.utm.my/petroleum
Postgraduate Guide Book 2014/2015
ii
Contents
Universiti Teknologi Malaysia 1
FPREE in Brief 2
Faculty Administrators 5
Graduate Faculty
Department of Petroleum Engineering
Department of Gas Engineering
8
12
Facilities 18
Programmes Offered 20
Program Specifications
(a) Research
Master of Philosophy / Petroleum Eng
Master of Philosophy / Gas Engineering
Doctor of Philosophy / Petroleum Eng
Doctor of Philosophy / Gas Engineering
Industrial PhD
Guidelines for thesis submission
(b) Taught Course
Master of Petroleum Engineering)
Master of Gas Engineering and Management
22
22
26
30
34
38
41
42
42
51
Research Facilities 61
Centre of Excellent 64
Postgraduate Student Society 67
Postgraduate Guide Book 2014/2015
1
UNIVERSITI TEKNOLOGI MALAYSIA
Universiti Teknologi Malaysia (UTM) is an innovation-led research university in engineering,
science, and technology. Its main campus, which houses 14 faculties including Faculty of Petroleum
and Renewable Energy Engineering (FPREE), is located in Johor Bahru, the southern city in Iskandar
Malaysia which is a vibrant economic corridor in the south of Peninsular Malaysia. It is renowned for
being at the forefront of engineering and technological knowledge and expertise, contributing to the
technical and professional workforce of the nation since its inception in 1904.
Equipped with more than 2000 experienced academic staff including 200 international
graduate faculty members, UTM continuously strives to enhance the quality of its undergraduate
programmes to international standard and global recognition. Apart from having a cosmopolitan
atmosphere in UTM with the presence of international students from Indonesia, China, Kazakhstan,
Somalia, Sudan, Uganda, Iran, Yemen, Nigeria, Pakistan, Australia, and Saudi Arabia, another bold
effort is taken through the engagement in academic and research collaboration with renowned
institutions, namely Imperial College of London, University of Cambridge, University of Oxford, MIT,
Institute Technology of Bandung, Tokyo University, etc., on areas of mutual interests and this effort
is seen to promote significant contribution to academic standard.
Today, UTM has more than 10,000 full-time postgraduate students in various fields of
specialization. To complement a conducive teaching and learning environment, UTM provides many
basic and value-added facilities, as listed in ‘Current Students’ of UTM’s website. Having successfully
produced more than 200,000 technical graduates and qualified professionals over the years, UTM
has earned its place as Malaysia’s premier university in Engineering and Technology which inspires
creativity and innovation.
Postgraduate Guide Book 2014/2015
2
FPREE IN BRIEF
Faculty of Petroleum and Renewable Energy Engineering (FPREE) was established on 1st June
2010. It was one of the 14 faculties in Universiti Teknologi Malaysia (UTM) − a research and premier
technology university with niche in engineering, science and technology. FPREE is located in Johor
Bahru − the southern city in Iskandar Malaysia which is a vibrant economic corridor in the south of
Peninsular Malaysia. The faculty is about 18 kilometers from the Sultan Ismail Airport of Johor Bahru.
FPREE was established by separating the Faculty of Chemical and Natural Resources
Engineering (FKKKSA) into two faculties: FPREE and Faculty of Chemical Engineering (FKK). Currently,
it comprises two departments, namely Department of Renewable Energy Engineering and
Department of Petroleum Engineering. The Department of Petroleum Engineering had been
established much earlier in 1975 under the Faculty of Mechanical Engineering. In 1983, it was placed
under FKKKSA.
The faculty is led by a Dean and assisted by two Deputy Deans, two Heads of Departments, a
Postgraduate Academic Manager, a Laboratory Manager, an Information Technology Manager, a
Senior Assistant Registrar, and an Assistant Registrar. The smooth running of this faculty is supported
by its clerical and technical support groups and academic staff from the departments.
The faculty’s vision is to be a world class centre of academic and research excellence in the
field of petroleum and renewable energy engineering through innovation and creativity while its
mission is to lead in the development of world class professionals and technology in petroleum and
renewable energy engineering through excellence in education and research. The faculty’s
objectives that have been designed to support the vision and mission are:
(1) To produce competent human capital in petroleum and renewable energy engineering who
are responsible towards the Creator and the community.
Postgraduate Guide Book 2014/2015
3
(2) To become the leading training provider and center of reference for product and technology
development in petroleum and renewable energy sectors.
(3) To contribute towards sustainable development of the industries and nation through
research, innovation, consultancy services and smart partnership activities.
FPREE offers postgraduate programmes by taught course and research. Two taught course
postgraduate programmes are Master of Petroleum Engineering and Master of Gas Engineering and
Management. For research programmes, there are Master of Philosophy and Doctor of Philosophy.
The research programmes are offered to those interested in in-depth research on a specialized area.
Equipped with more than 50 experienced academic staff including international graduate
faculty members, FPREE continuously strives to enhance the quality of its postgraduate programmes
of international standard and global recognition. Apart from having a cosmopolitan atmosphere in
FPREE with the presence of more than 50 international students from Singapore, Indonesia, China,
Tunisia, Bangladesh, Kazakhstan, Somalia, Sudan, Uganda, Iran, Yemen, Nigeria, Saudi Arabia,
Pakistan, etc., another bold effort taken which contributes positively to academic standard is
through the engagement in academic and research collaboration with renowned institutions, namely
Imperial College of London, University Trisakti, Institute Technology of Bandung, etc., on areas of
mutual interests. FPREE also has very close links with oil and gas industries that have continuously
supported the faculty in producing world-class graduates through teaching and learning,
professional talks, mentoring in Field Development Project, evaluation of Master Project’s
presentation, sponsorship of conferences and industrial visits, etc.
Today, FPREE is responsible to educate and train more than 200 postgraduate students in
various fields of specialization. To complement a conducive teaching and learning environment,
FPREE provides many basic and value-added facilities, such as a mini library, complimentary WiFi
system, a computer laboratory, etc. The Postgraduate Student Association of FPREE (PGSS-FPREE)
was established to serve as a platform for the FPREE’s students to acquire knowledge on latest
technology development and to improve their generic skills.
Having produced more than 2000 technical graduates over the years, FPREE is committed to
supporting university’s academic vision and mission, to be recognised as a world-class centre of
academia and technological excellence and to be a leader in the development of human capital and
innovative technologies that will contribute positively to the nation’s wealth creation.
VISION
To be a world class centre of academic and research excellence in the field of petroleum and renewable energy engineering through innovation and creativity
MISSION To lead in the development of world class professional and technology in petroleum and renewable energy engineering through excellence education and research
Postgraduate Guide Book 2014/2015
4
OBJECTIVES
1) To produce competent human capital in petroleum and renewable energy engineering who are responsible towards the creator and the community.
2) To become the leading training provider and centre of reference for knowledge, product and technology development in petroleum and renewable energy sectors.
3) To contribute towards sustainable development of the industries and nation through research,
innovation, consultancy services and smart partnership.
CUSTOMER CHARTER
To provide excellence service to fulfil customer’s satisfaction in accordance to stakeholders, professional body, university and government
QUALITY STATEMENT
To provide service in engineering, teaching & learning, research, consultancy, publication, and societal service through innovation and creativity
QUALITY VALUES
Creative & Innovative
Customer’s satisfaction Competent
Postgraduate Guide Book 2014/2015
5
FACULTY ADMINISTRATORS
The list of the administrators is as follows:
DEAN
Assoc. Prof. Dr. Rahmat Mohsin, CEng. B. Mech. Eng. (UTM), M.Sc. Gas Engineering & Management. (Salford), Ph.D Manufacturing & Mechanical Eng. (Birmingham) Room: N01-330 Tel: 5535500 Email: rahmat@petroleum.utm.my
DEPUTY DEAN (ACADEMIC)
Assoc. Prof. Dr. Azeman Mustafa B.Sc. Chemical Eng. (Louisiana), M.Sc. Combustion and Energy (Leeds), Ph.D Combustion Eng. (Leeds) Room: N01-321 Tel: 5535503 Email: azeman@petroleum.utm.my
DEPUTY DEAN (DEVELOPMENT)
Assoc. Prof. Dr. Khairul Sozana Nor Kamarudin B.Sc. Chemical Eng. (New South Wales), M. Chemical Eng (UTM) Ph.D Gas Eng. (UTM) Room: N01-255 Tel: 5535513 Email: sozana@petroleum.utm.my
HEAD OF PETROLEUM ENGINEERING DEPARTMENT
Dr. Muhammad Abdul Manan B.Sc. Mineral Eng. (Petroleum), (Alabama), M.Sc. Petroleum Eng. Imperial College), Ph.D Petroleum Eng. (UTM) Room: N01-247 Tel: 5535514 Email: m-amanan@petroleum.utm.my
Postgraduate Guide Book 2014/2015
6
HEAD OF RENEWABLE ENERGY ENGINEERING DEPARTMENT
Assoc. Prof. Ir. Dr. Zainal Zakaria B. Petroleum Eng. (UTM), M. Petroleum Eng (UTM), Ph.D Gas Eng. (UTM) Room: N01-274 Tel: 5535515 Email: zainalz@petroleum.utm.my
POSTGRADUATE ACADEMIC MANAGER
Dr. Mariani Idroas B.Sc. Electrical Eng. (Western Michigan), M.Sc. Instrumentation & Analytical Sc. (UMIST), Ph.D Instrumentation (Sheffield) Room: N01-260 Tel: 5535512 Email: mariani@petroleum.utm.my
HEAD OF NUCELAR ENGINEERING PROGRAMME
Dr. Khaidzir Hamzah B.Sc. Nuclear Engineering. (Queen Mary College of University), M.Sc. Physics (UTM), Ph.D. Corrosion (University of Manchester) Room: N01-141 Tel: 5536052 Email: khaidzir@petroleum.utm.my
IT MANAGER
Dr. Mohd Fadil Abd Wahab B.Sc. Chemical Eng. (Oklahoma), M.Sc. Gas Engineering & Management. (Salford), Ph.D. Gas Engineering (UTM) Room: N01-431 Tel: 5535607 Email: fadil@petroleum.utm.my
Postgraduate Guide Book 2014/2015
7
LAB MANAGER
Dr. Noorul Anam Mohd Noordin B.Sc. Petroleum Eng. (Univ of Tulsa, Oklahoma, USA), M.Sc Chemical Eng (UTM), Ph.D Gas Engineering (UTM) Room: N01-256 Tel no : 5535733 Email: anam@petroleum.utm.my
DEPUTY REGISTRAR (ACADEMIC)
Encik Fauzi Abd Rahman Room: Academic Office, FPREE Tel: 07-5535508 Email: fauziar@petroleum.utm.my
ASISSTANT REGISTRAR (HUMAN RESOURCES)
Mrs Nurazlyna Mohamad Marjid Room: N01 ext: 36035 Email: nurazlyna@petroleum.utm.my
Dean’s Personal Assistant Mrs. Thuwaibah Ismail Room: N01 ext: 35501 why@petroleum.utm.my Personal Assistant to Deputy Deans and Head of Departments Mrs. D. Dahyuna Mohd Yunos Room N01 ext: 35509 dahyuna@petroleum.utm.my Main Office : 07-553 5739 Academic Office : 07-553 5739 Fax : 07-558 1463
Postgraduate Guide Book 2014/2015
8
GRADUATE FACULTY
DEPARTMENT OF PETROLEUM ENGINEERING
Prof. Dr. Ahmad Kamal Idris B.Sc. Petroleum Eng. (ITB), M.Sc. Petroleum Eng. (ITB), Ph.D Petroleum Eng. (Imperial College) Room: N01-429 Tel: 5535606 Email: kamal@petroleum.utm.my Research area/Expertise:
Improved oil recovery
Rock-fluid interactions
Oil-water demulsification
Prof. Dr. Ariffin Samsuri B.Sc. Petroleum Eng. (ITB), M.Sc. Petroleum Eng. (ITB), Ph.D Petroleum Eng. (Strathclyde) Room: N01 -432 Tel: 55 35608 Email: ariffin@petroleum.utm.my Research area/Expertise:
Well-bore stability
Rock mechanics
Drilling
Cementing
Prof. Dr. Mohd. Nawi Derahman B.Sc. Chemical Eng. (UMIST), M.Sc. Petroleum Eng. (Heriot-Watt), Ph.D Petroleum Eng. (Bath) Room: N01-303 Tel: 5535557 Email: nawi@petroleum.utm.my Research area/Expertise:
Reservoir simulation
Water flooding
Numerical simulation of oil recovery process
Assoc. Prof. Abdul Razak Ismail B. Petroleum Eng. (UTM), M. Phil. Petroleum Eng. (Heriot-Watt) Room: N01-428 Tel: 5535605 Email: razak@petroleum.utm.my Research area/Expertise: • Drilling fluids (environmental friendly, additives, shale problem) • Formation damage • Fluid flow and cuttings transport in vertical and horizontal pipes
Postgraduate Guide Book 2014/2015
9
Assoc. Prof. Azmi Kamis B.Sc. Petroleum Eng. (W. Virginia), M.Sc. Petroleum Eng. (Southern California) Room: N01-324 Tel: 55 35571 Email: azmik@petroleum.utm.my Research area/Expertise:
Drilling fluids
Production engineering
Assoc. Prof. Issham Ismail B. Petroleum Eng. (UTM), M.Sc. Petroleum Eng. (Imperial College) Room: N01 -427 Tel: 55 35604 Email: issham@petroleum.utm.my Research area/Expertise:
Drilling fluids additives
Production engineering
Assoc. Prof. Dr. Mat Hussin Yunan B.Sc. Fuel and Energy Eng. (Leeds), Post Grad. Diploma Petroleum Eng. (Heriot-Watt), M.Sc. Petroleum Eng. (UNSW), Ph.D Petroleum Eng. (UTM) Room: N01-422 Tel: 55 35599 Email: mhussin@petroleum.utm.my Research area/Expertise:
Improved oil recovery by miscible flooding
Deposition of asphaltene during carbon dioxide gas flooding
Rock-fluid interactions especially on wettability
Assoc. Prof. Dr. Radzuan Junin B. Sc. Geology (UKM), M.Sc. Ind. Mineralogy (Hull), Ph.D Petroleum Eng. (Nottingham) Room: N01-434 Tel: 5535732 Email: radzuan@petroleum.utm.my Research area/Expertise:
Drill cuttings disposal
Improved oil recovery by surfactant flooding
Reservoir rocks characterization
Assoc. Prof. Dr. Yahya Sukirman B. Petroleum Eng. (UTM), M.Sc. Petroleum Eng. (Strathclyde), Ph.D Civil Eng. - Rock Mechanics (Wales-Swansea) Room: N01-325 Tel: 5535572 Email: k-yahya@petroleum.utm.my Research area/Expertise:
Fluid mechanics especially on well-bore stability
Numerical reservoir simulation
Postgraduate Guide Book 2014/2015
10
Scaling mitigation
Dr. Muhammad Abdul Manan B.Sc. Mineral Eng. (Petroleum), (Alabama), M.Sc. Petroleum Eng. Imperial College), Ph.D Petroleum Eng. (UTM) Room: N01-247 Tel: 5535554 Email: m-amanan@petroleum.utm.my Research area/Expertise:
Improved oil recovery by surfactant flooding
Multi-phase flow studies using micro models
Separation of oil-water emulsion
Dr. Mohd Zaidi Jaafar B.Sc. Petroleum Eng. (Missouri-Rolla), M.Sc. Petroleum Eng. (Imperial College), Ph.D. Petroleum Eng. (Imperial College) Room: N01-277 Tel: 55 35539 Email: mzaidij@petroleum.utm.my Research area/Expertise:
Down hole monitoring
Streaming potential measurements
Intelligent wells
Dr. Moulishree Joshi PhD (Geology) (India), MSc (Geology) (India) Room: N01-402 Tel: + (6)07-5535559 Email: mollyj@petroleum.utm.my Research Area/Expertise: Palaeontology
Climate Change
Geomorphology and tectonics
Dr. Wan Rosli Wan Sulaiman B. Petroleum Eng. (UTM), M.Sc. Petroleum Eng. (Imperial College) Ph.D. Chemical Eng. (Dongguk University) Room: N01-248 Tel: 5535555 Email: r-wan@petroleum.utm.my Research area/Expertise:
Reservoir Engineering
Simulation
Postgraduate Guide Book 2014/2015
11
Dr. Mansoor Zoveidavianpour B.Sc. Geology-Petroleum Geoscience (Islamic Azad Univ, Iran), M.Sc. Petroleum Eng. (Islamic Azad Univ, Iran), Ph.D. Petroleum Eng. (UTM) Room: N01-319 Tel: 5536141 Email: mansoor@petroleum.utm.my Research area/Expertise:
Drilling Engineering
Hydraulic Fracturing
Environmental Related Petroleum Engineering
Rock Mechanics
Postgraduate Guide Book 2014/2015
12
DEPARTMENT OF RENEWABLE ENERGY ENGINEERING
Prof. Dr. Ahmad Fauzi Ismail, FASc. CEng. FICheme B. Petroleum Eng. (UTM), M. Chemical Eng. (UTM), Ph.D Chemical Eng. Membrane Technology (Strathclyde) Room: N01-410 Tel: 55 35592 Email: fauzi@petroleum.utm.my Research areas:
Membrane Technology
Membrane Manufacturing
Carbon Nanostructured Material
Advanced Material for Energy Application
Assoc. Prof. Dr. Rahmat Mohsin, CEng. B. Mech. Eng. (UTM), M.Sc. Gas Engineering & Management. (Salford), Ph.D Manufacturing & Mechanical Eng. (Birmingham) Room: N01-330 Tel: 5535489 Email: rahmat@petroleum.utm.my Research area:
CFD development and application
Gas Metering and Calibration
Natural Gas Vehicle Systems (NGV)
Gas Transmission and Distribution System
Assoc. Prof. Dr. Azeman Mustafa B.Sc. Chemical Eng. (Louisiana), M.Sc. Combustion and Energy (Leeds), Ph.D Combustion Eng. (Leeds) Room: N01-321 Tel: 55 35568 Email: azeman@petroleum.utm.my Research areas:
Combustion
Membrane Separation
Computational Fluid Dynamics (CFD)
Assoc. Prof. Dr. Khairul Sozana Nor Kamarudin B.Sc. Chemical Eng. (New South Wales), M. Chemical Eng (UTM) Ph.D Gas Eng. (UTM) Room: N01-255 Tel: 5535482 Email: sozana@petroleum.utm.my Research area:
Waste Combustion /Energy Conservation
Adsorbent Development
Nanomaterials
Postgraduate Guide Book 2014/2015
13
Assoc. Prof. Dr. Noor Shawal Nasri B. Chemical Eng. (UTM), M.Sc. Gas Eng. & Management (Salford), Ph.D Catalytic Combustion (Leeds) Room: N01-323 Tel: 55 35570 Email: noorshaw@petroleum.utm.my Research area:
Green Technology
Catalysis for environmental
Renewable Energy
Bio-Mass especially in bio-fertilizer
Assoc. Prof. Ir. Dr. Zainal Zakaria B. Petroleum Eng. (UTM), M. Petroleum Eng (UTM), Ph.DGas Eng. (UTM) Room: N01-274 Tel: 55 35497 Email: zainalz@petroleum.utm.my Research area:
Storage System
Transmission and Distribution
Corrosion
Fluid flow
Dr. Khaidzir Hamzah B.Sc. Nuclear Engineering. (Queen Mary College of University), M.Sc. Physics (UTM), Ph.D. Corrosion (University of Manchester) Room: N01-141 Tel: 5536052 Email: khaidzir@petroleum.utm.my Research area:
Corrosion
Nuclear Engineering
Ultrasonic
Dr. Mariani Idroas B.Sc. Electrical Eng. (Western Michigan), M.Sc. Instrumentation & Analytical Sc. (UMIST), Ph.D Instrumentation (Sheffield) Room: N01-260 Tel: 55 35487 Email: mariani@petroleum.utm.my Research area:
Instrumentation system
Industrial Process Tomography
Imaging system and shape recognition
Postgraduate Guide Book 2014/2015
14
Dr. Rafiziana Md. Kasmani B.Chemical Eng. (UTM), M.Sc. Fire and Explosion Eng. (Leeds), Ph.D Vented Gas Explosion (Leeds) Room: N01-276 Tel: 55 35499 Email: rafiziana@petroleum.utm.my Research area:
Gas and dust explosions
Fire engineering
Explosion protection and mitigation
Dr. Noorul Anam Mohd Noordin B.Sc. Petroleum Eng. (Univ of Tulsa, Oklahoma, USA), M.Sc Chemical Eng (UTM), Ph.D Gas Engineering (UTM) Room: N01-256 Tel no : 07 - 5535483 Email: anam@petroleum.utm.my Research area:
Membrane for fuel cell technology
Direct Methanol and Hydrogen Fuel Cell
Membrane for separation and purification process
Dr. Lau Woei Jye B.Eng. Chemical-Gas Engineering (UTM), Ph.D. Chemical Engineering (UTM) Room: N09-313 and N29A Tel: 07-5535926 Email: wjlau@petroleum.utm.my Research area:
Preparation and Characterization of Nanofiltration Membranes
Preparation and Characterization of Ultrafiltration Membranes with Enhanced Fouling Resistance using Innovative Materials
Membrane Distillation for Wastewater Treatment
Crude Palm Oil Refining using Membrane-Based Technology
Dr. Mukhlis A. Rahman B.Eng. Chemical (UTM), M.Eng. Gas, (UTM), Ph.D Chemical Engineering (Imperial College London, UK) Room: N29A Tel: 07-5535532 Email: mukhlis@petroleum.utm.my Area of Research:
Energy Production
Catalyst
Membrane Technology
Postgraduate Guide Book 2014/2015
15
Dr. Juhana Jaafar B. Chemical Eng. (UTM), M. Chemical Eng. (UTM), Ph.D. Gas Engineering (UTM) Room: N01-241 Tel: 07-5535548 Email: juhana@petroleum.utm.my Area of Research:
Membrane Technology
Fuel Cell
Dr. Mohd Hafiz Dzarfan b. Othman B.Eng. Chemical (UTM, Malaysia), M.Eng. Gas, (UTM, Malaysia), Ph.D Chemical Engineering (Imperial College London, UK) Room: N01-248 Tel: 07-5535555 Email: hafiz@petroleum.utm.my Area of Research:
Fuel cell
Membranes Technology
Dr. Zalilah Shahrer B.Eng. Chemical Engineering (Leeds University, UK) MSc Gas Engineering and Management (SalfordUnversity, UK), Ph.D. Materials (Oxford University, UK) Room: N01-269 Tel: 07-5535492 Email: zalilah@petroleum.utm.my Area of Research:
Corrosion of metals
Protection by organic coating, studies of coating breakdown
Dr. Norhaniza Yusof B.Eng. Chemical Engineering (UTM, Malaysia), M.Eng. Gas, (UTM, Malaysia), Ph.D Gas Engineering ((UTM, Malaysia) Room: AMTEC Tel: 07-5536049 Email: norhaniza@petroleum.utm.my Area of Research:
Gas Adsorption
Membranes Technology
Postgraduate Guide Book 2014/2015
16
Dr. Wan Norhayati Wan Salleh B.Eng. Chemical Engineering (UTM, Malaysia), Ph.D Gas Engineering ((UTM, Malaysia) Room: AMTEC Tel: 07-5535812 Email: hayati@petroleum.utm.my Area of Research:
Carbon Membrane
Membranes Technology
Dr. Goh Pei Sean B. Chemistry (UTM, Malaysia), Master Chemistry, (UTM, Malaysia), Ph.D Gas Engineering (UTM, Malaysia) Room: AMTEC Tel: 07-5535807 Email: peisean@petroleum.utm.my Area of Research:
Membrane Separation
Membranes Technology
Dr. Jasman Zainal BSc (Hons) Applied Physics (USM, Malaysia), M.Sc Medical Physics (USM, Malaysia), Ph.D Laser Ultrasound (University of Manchester,UK) Room: C21-308 Tel: 07-5534090 Email: jasman@petroleum.utm.my Area of Research: • Laser Ultrasound, Optics • Medical Physics • Radiation • Non destructive testing
Dr. Hasrinah Hasbullah B.Eng. Chemical Engineering (UTM, Malaysia), MSc Chemical Engineering (UTM, Malaysia), Ph.D. Chemical Engineering (Imperial College London, UK) Room: N01-202 Tel: 07-5535516 Email: hasrinah@petroleum.utm.my Area of Research:
Gas separation
Membrane technology
Material engineering
Postgraduate Guide Book 2014/2015
17
Dr. Norazana Ibrahim B.Eng. Chemical Engineering (UTM, Malaysia) MSc Chemical Engineering (UTM, Malaysia), Ph.D. Chemical Engineering (Denmark Technical University, Denmark) Room: N01-272 Tel: 07-5535495 Email: norazana@petroleum.utm.my Area of Research:
Biomass to Biofuels
Combustion Energy (Renewable Energy)
Dr. Mohd Fadil Abd Wahab B.Eng. Chemical Engineering (Oklahoma State University, USA) MSc Gas Engineering and Management (Salford Unversity, UK), Ph.D. in Gas Engineering (Universiti Teknologi Malaysia, UTM) Room: N01-310 Tel: 07-5535562 Email: fadil@petroleum.utm.my Area of Research:
Safety and Risk Assessment
Energy efficiency and utilization
Nuclear safety and technology
Postgraduate Guide Book 2014/2015
18
FACILITIES
UTM provides students with a conducive environment for learning and acts as a one stop agency
for services related to health, accommodation, financial aid, students’ general welfare and more.
At present, there are 17 residential colleges on the main campus, which can accommodate more
than 15,000 students. There are many types of room available in each college; single, 2-person, 3-
person and 4-person’s occupancy. Some colleges provide single accommodation for graduate
students with each room having a network port and its own attached bathroom.
Hostel Health Centre
Library
The University also provides transport services for students to commute from their on-campus
residential colleges to classes. The buses provide services from 7.15 am to 11.30 pm daily. In
addition, there are also public buses such as the Transit Link and Maju bus companies, which ply
between Taman Universiti via the ring road of the campus to Johor Bahru City Centre. Other facilities
include library, cafeteria and sport centre.
Transportation Cafeteria
Postgraduate Guide Book 2014/2015
19
Sultan Ismail Mosque
The faculty itself is equipped with various facilities in order to provide conducive environment for
students. Currently, FPREE has 12 laboratories, a workshop, a mini library, and qualified staff to
assist in teaching, research, consultation, publications and various forms of services. The laboratories
include teaching laboratories for students to learn the practical aspects in Petroleum and Gas
Engineering processes whereas research and service laboratories are meant for research and
consultancy activities. Student societies are also set-up to encourage active social interactions
among students and staff and to inculcate positive generic skills among students.
1. Student Society
Postgraduate student society has been set up in 2011, after the establishment of the new faculty
(FPREE). All postgraduates’ students under Faculty of Petroleum and Renewable Energy Engineering,
Universiti Teknologi Malaysia are automatically eligible for membership of the association. This
provision includes part-time as well as full time students.
2. Prayer Room
Prayer rooms are available for the convenience of Muslim students to perform prayer.Two prayer
rooms for the male students are located in N01-280-01 and N05. Meanwhile, a prayer room in N01-
342-01 is allocated for the female Muslim students.
3. The Faculty Library
This is a mini library (resource centre) in the faculty, located at level two in the main administration
block N01. It can accommodate 30 students at a time. This room is equipped with Internet and
Audio Visual service for students. Reference materials, magazines and thesis from previous students
as well as final year projects are also available. It is opened weekdays from 9.00 a.m. until 4.00 p.m.
4. Computer Laboratory
There are 40 Internet-ready computers in the Computer Lab, situated in block N14. This facility is
provided to enable students to carry out their assignments and other academic-related matters.
Postgraduate Guide Book 2014/2015
20
PROGRAMMES OFFERED
The Faculty of Petroleum and Renewable Energy Engineering (FPREE) offers graduate programmes
by research and taught course. The research programmes offered are:
1. Master of Philosophy / Field of Study: Gas Engineering
2. Master of Philosophy / Field of Study: Petroleum Engineering
3. Doctor of Philosophy / Field of Study: Gas Engineering
4. Doctor of Philosophy / Field of Study: Petroleum Engineering
The taught courses offered are:
1. Master of Petroleum Engineering
2. Master of Gas Engineering and Management
The graduate program is designed based on the quality of our faculty, our graduate students, and
the cutting-edge of the collaborative researches. The background and interests of our faculty, the
research facilities, and the academic excellence of our students promote the faculty as an attractive
environment for graduate study. As a faculty, we look forward to the future by acknowledging the
rapid change and growth in academic world as the important aspects in our discipline. The faculty
currently has approximately 30 graduate faculty members and more 500 undergraduates and
graduates students, with a strong commitment to the importance of diversity among peers and
faculty for the professional development of all graduate students. A graduate degree at FPREE will
enable you to develop the intellectual skills both practical and theories in facing challenging
competition among the best engineers in the world. Besides, world-class training offered in this
faculty provides an excellent basis for graduate to embrace and fulfill their career in industry,
research, or teaching.
The candidate of Master’s or PhD by research is supervised by a selected graduate faculty. The
focused research work introduces candidates to the processes by which new knowledge is
developed and applied accordingly. The academic progress of a candidate is assessed through a
research progress report submitted at the end of each semester. The degree is awarded based on an
oral examination (viva voce) of the thesis submitted by the candidate on completion of study.
Research at FPREE is carried out in various disciplines. It includes basic and applied research in
petroleum engineering, gas engineering, and renewable energy engineering. Emphasis is also placed
on interdisciplinary projects of applied research, relevant to oil and gas industry, environmental,
economy and society.
There are several research groups that can be joined by the students such as Drilling and Production
Enhancement Group (DPEG), Reservoir Management Group (RMG), Gas Technology Centre
(GASTEG), Advanced Membrane Technology Centre (AMTEC), Institute of Hydrogen Institute Energy
(IHE) and Process Tomography and Instrumentation Research Group (PROTOM-i).
Postgraduate Guide Book 2014/2015
21
Mode of Programme
Master degree by research
The course is offered on full-time and part-time modes with specific subjects being delivered and
assessed in each semester. The assessment of the research is based on the progress report,
supervisor’s evaluation, research proposal and oral presentation.
Master degree by taught course
The candidate must complete a minimum of 46 credits, and must obtain a final academic grade of at
least 3.0 CGPA (Cumulative Grade Point Average). The minimum 46 credits taught course consists of
several courses including compulsory courses, a university elective course and a master project.
Each course normally carries 3 credits, and the assessment is carried out by examinations and
assignments. The master project is to be completed in the final semester and will be assessed by a
research proposal seminar, a final project report and an oral examination.
Doctoral degree
The course is offered on full-time and part-time modes. The assessment of the research is based on
the progress report, supervisor’s evaluation, research proposal and oral presentation. A student may
choose to enroll as a full-time or part-time student subject to the study program offered by the
faculty.
A research student is required to complete his/her study within the duration prescribed as in Table I.
Level of Study
Full-time Part-time
Minimum (Registered Semester)
Maximum (Semester)
Minimum (Registered Semester)
Maximum (Semester)
Master Degree 2 6 4 8
Doctoral degree 6 12 8 16
English Requirements
All international students applying to UTM must have a valid two-year TOEFL score of 550 or an
IELTS Band 6 to be enrolled in the faculty programme.
Postgraduate Guide Book 2014/2015
22
PROGRAM SPECIFICATIONS
(a) Research
Name of Programme Master of Philosophy
Field of Study: Petroleum Engineering
Final Award Master of Philosophy
Awarding Institution Universiti Teknologi Malaysia
Teaching Institution Faculty of Petroleum and Renewable Energy
Engineering (FPREE)
Professional or Statutory Body of Accreditation MQA
Language of Instruction English
Mode of Study (Conventional, distance learning etc) Conventional
Mode of Operation (Franchise, self-govern, etc) Mainstream
Study Scheme (Full Time/Part Time) Full Time and Part Time
Study Duration
Full-time Minimum: 1 years
Maximum: 3 years
Part-time Minimum: 2 years
Maximum: 4 years
Type of Semester No. of Semester No. of Weeks per Semester
Full Time Part Time Full Time Part Time
Normal 3 6 14 14
Short - - - -
ENTRY REQUIREMENT
Candidate must hold a Bachelor Degree in Petroleum Engineering with CGPA at least 3.0/4.0 (or equivalent) from a recognised Higher Learning Institution. Candidate with CGPA less than 3.0, the UTM entry qualification and guidelines will be applied. Those with a Bachelor Degree in other engineering or science disciplines may also apply, but they may be required to take certain courses that will be determined by the Department of Petroleum Engineering.
PROGRAM EDUCATIONAL OBJECTIVES
The objectives of this programme are:
1. Graduate able to successfully incorporate the advanced knowledge of petroleum engineering,
research and problem solving skills to formulation and solution of diverse petroleum engineering
problems taking into account safety, environmental, economic and societal impacts.
2. Graduate able to communicate effectively to convey and acquire technical ideas, information,
and recommendations in a multi-disciplinary environment
3. Graduate able to responsibly practice professional ethics with appreciation for the value of
continuing professional development in maintaining their professional competence
Postgraduate Guide Book 2014/2015
23
Intended Learning Outcomes Teaching and Learning
Methods Assessment
(a) Applied Knowledge and Competencies
PO1: Able to demonstrate continuing and advanced knowledge in petroleum engineering and have the capabilities to further develop or use these in new situations or multi-disciplinary contexts.
An ability to apply advanced knowledge in petroleum engineering-related areas using the techniques, skills, and modern engineering tools necessary for petroleum engineering practice.
Discussion, presentation Progress report
PO2: Able to analyse and evaluate critically problems in petroleum engineering, particularly in situations with limited information and to provide solutions through the application of appropriate
tools and techniques.
An ability to independently analyze and manage scientific research, individually or collectively, using acceptable methodologies
Experimental work and/or simulation work
Research proposal, First stage examination
PO3: Able to appraise available information and research evidence and apply it in the petroleum engineering context.
An ability to identify, analyze and solve research problems related to petroleum engineering through effective and critical thinking skills
Experimental work and/or simulation work
Thesis and viva presentation
PO4: Able to plan and perform research undertakings professionally, ethically and responsibly.
An ability to embrace intellectual honesty and integrity through
non-plagiarism Thesis Thesis and viva presentation
PO5: Able to report technical findings in both written and oral forms.
An ability to communicate ideas and findings through
collaborative work, oral presentation and scientific
writing
Presentation and Thesis Thesis, paper and viva
presentation
PO6: Able to recognise the needs for continuing professional development.
An ability to engage life-long learning
Research proposal, Thesis Thesis and viva presentation
Postgraduate Guide Book 2014/2015
24
PROGRAMME STRUCTURES AND FEATURES, CURRICULUM AND AWARD REQUIREMENTS
The course is offered on full-time and part-time. The assessment of the research is based on the
progress report, supervisor’s evaluation, research proposal and oral presentation.
The subjects are categorized as university electives, program cores and program electives such as
the followings:
Subject Category Code Course Credit
University Elective (1 subject))
UHX XXX3
(to choose from the list given by School of Graduate Studies)
3
Research Methodology UKPU 0010 Research Methodology 0
Research (Minimum 3
semesters)
MKPT 1100 Research 0
MKPT 1200 Research 0
MKPT 2100 Research 0
Total Credit 3
Awards requirements:
For the award of Master of Philosophy, the students should submit a thesis and pass oral
examination.
REGULATION OF ASSESSMENT
Evaluation for a master student by research shall include: a) Evaluation of Research Proposal.
A student is required to present a research proposal for evaluation purposes within the duration specified by the University, failing which the student may be given unsatisfactory (TM) status.
b) Semester evaluation by the supervisor (Progress report). c) Thesis examination by the Internal and External Examiners. d) Oral defense of thesis to a Panel for Oral Examiners.
Postgraduate Guide Book 2014/2015
25
Summary of grades, marks and their interpretation for a progress report are as follows:
Overall Assessment Statement by category
Mark Description Mark
Satisfactory
Excellent 9.0 ≤ M≤ 10.0
Very good 8.0 ≤ M≤ 9.0
7.0 ≤ M≤ 8.0
Good 6.0 ≤ M≤ 7.0
5.0 ≤ M≤ 6.0
Unsatisfactory Fair 4.0 ≤ M≤ 5.0
3.0 ≤ M≤ 4.0
Fail Poor 2.0 ≤ M≤ 3.0
1.0 ≤ M≤ 2.0
For thesis and viva the following grading scheme applies: After examining the thesis, I recommend that
a) The candidate be awarded the degree of Master of Philosophy (or) b1) The candidate be awarded the degree of Master of Philosophy subject to minor
corrections; (or) b2) The candidate be awarded the degree of Master of Philosophy subject to the
amendments and corrections as listed elsewhere in this report being made in the thesis to the satisfaction of the Internal/External Examiner(s);
(or) c) The candidate not be awarded the degree of Master of Philosophy but be permitted to resubmit the thesis for further examination in a revised form after a further period of study and research;
(or) d) The candidate not be awarded the degree of Master of Philosophy but a lower; (or) e) The candidate not be awarded the degree of Master of Philosophy.
Postgraduate Guide Book 2014/2015
26
Name of Programme
Master of Philosophy Field of Study: Gas Engineering
Final Award Master of Philosophy
Awarding Institution Universiti Teknologi Malaysia
Teaching Institution Faculty of Petroleum and Renewable Energy Engineering (FPREE)
Professional or Statuatory Body of Accreditation MQA
Language of Instruction English
Mode of Study (Conventional, distance learning etc) Conventional
Mode of Operation (Franchise, self-govern, etc) Mainstream
Study Scheme (Full Time/Part Time) Full Time and Part Time
Study Duration
Full-time Minimum: 1 years Maximum: 3 years
Part-time Minimum: 2 years Maximum: 4 years
Type of Semester No. of Semester No. of Weeks per Semester
Full Time Part Time Full Time Part Time
Normal 3 6 14 14
Short - - - -
ENTRY REQUIREMENT
Candidate must hold a Bachelor Degree in Chemical Engineering or Chemical Engineering (Gas) or with CGPA at least 3.0/4.0 (or equivalent) from recognized higher Learning institution. For those having CGPA less than that, the UTM entry qualification and guidelines will be followed. Candidate holding a Bachelor Degree in other engineering or science disciplines may also apply but may be required to take some pre-requisite courses that will be determined by the Department of Renewable Energy Engineering.
PROGRAMME EDUCATIONAL OBJECTIVES
The objectives of this programme are:
1. Graduates successfully incorporate the advanced knowledge of gas engineering, research and
problem solving skills to formulation and solution of diverse gas engineering problems taking into
account safety, environmental, economic and societal impacts.
2. Graduates communicate effectively to convey and acquire technical ideas, information, and
recommendations in a multi-disciplinary environment.
3. Graduates responsibly practice professional ethics with appreciation for the value of continuing
professional development in maintaining their professional competence.
Postgraduate Guide Book 2014/2015
27
Intended Learning Outcomes Teaching and Learning
Methods Assessment
(a) Applied Knowledge and Competencies
PO1: Able to demonstrate continuing and advanced knowledge in gas engineering and have the capabilities to further develop or use these in new situations or multi-disciplinary contexts.
An ability to apply advanced knowledge in gas engineering-related areas using the techniques, skills, and modern engineering tools necessary for gas engineering practice.
Discussion, presentation Progress report
PO2: Able to anaylse and evaluate critically problems in gas engineering, particularly in situations with limited information and to provide solutions through the application of appropriate tools and
techniques.
An ability to independently analyze and manage scientific research, individually or collectively, using acceptable methodologies
Experimental work and/or simulation work
Research proposal, First stage examination
PO3: Able to appraise available information and research evidence and apply it in the gas engineering context.
An ability to identify, analyze and solve research problems related to gas engineering through effective and critical thinking skills
Experimental work and/or simulation work
Thesis and viva presentation
PO4: Able to plan and perform research undertakings professionally, ethically and responsibly.
An ability to embrace intellectual honesty and integrity through
non-plagiarism Thesis Thesis and viva presentation
PO5: Able to report technical findings in both written and oral forms.
An ability to communicate ideas and findings through
collaborative work, oral presentation and scientific
writing
Presentation and Thesis Thesis, paper and viva presentation
PO6: Able to recognise the needs for continuing professional development.
An ability to engage life-long learning
Research proposal, Thesis Thesis and viva presentation
Postgraduate Guide Book 2014/2015
28
PROGRAMME STRUCTURES AND FEATURES, CURRICULUM AND AWARD REQUIREMENTS
The course is offered on full-time and part-time modes. The assessment of the research is based on
the progress report, supervisor’s evaluation, research proposal and viva.
The subjects are categorized as university elective, program core and program electives such as the
followings:
Subject Category Code Course Credit
University Elective (1 subject))
UHX XXX3
(to choose from the list given by School of Graduate Studies)
3
Research Methodology UKPU 0010 Research Methodology 0
Research (Minimum 3
semesters)
MKPG 1100 Research 0
MKPG 1200 Research 0
MKPG 2100 Research 0
Total Credit 3
Awards requirements:
For the award of Master of Philosophy, the students should submit a thesis and pass oral
examination.
REGULATION OF ASSESSMENT
Evaluation for a master student by research shall include: a) Evaluation of Research Proposal.
A student is required to present a research proposal for evaluation purposes within the duration specified by the University, failing which the student may be given unsatisfactory (TM) status.
b) Semester evaluation by the supervisor (Progress report). c) Thesis examination by the Internal and External Examiners. d) Oral defense of thesis to a Panel for Oral Examiners.
Postgraduate Guide Book 2014/2015
29
Summary of grades, marks and their interpretation for a progress report are as follows:
Overall Assessment Statement by category
Mark Description Mark
Satisfactory
Excellent 9.0 ≤ M≤ 10.0
Very good 8.0 ≤ M≤ 9.0
7.0 ≤ M≤ 8.0
Good 6.0 ≤ M≤ 7.0
5.0 ≤ M≤ 6.0
Unsatisfactory Fair 4.0 ≤ M≤ 5.0
3.0 ≤ M≤ 4.0
Fail Poor 2.0 ≤ M≤ 3.0
1.0 ≤ M≤ 2.0
For thesis and viva the following grading scheme applies: After examining the thesis, I recommend that
a) The candidate be awarded the degree of Master of Philosophy (or) b1) The candidate be awarded the degree of Master of Philosophy subject to minor
corrections; (or) b2) The candidate be awarded the degree of Master of Philosophy subject to the
amendments and corrections as listed elsewhere in this report being made in the thesis to the satisfaction of the Internal/External Examiner(s);
(or) c) The candidate not be awarded the degree of Master of Philosophy but be permitted to resubmit the thesis for further examination in a revised form after a further period of study and research;
(or) d) The candidate not be awarded the degree of Master of Philosophy but a lower; (or) e) The candidate not be awarded the degree of Master of Philosophy.
Postgraduate Guide Book 2014/2015
30
Name of Programme Doctor of Philosophy
Field of Study: Petroleum Engineering
Final Award Doctor of Philosophy
Awarding Institution Universiti Teknologi Malaysia
Teaching Institution Faculty of Petroleum and Renewable Energy Engineering (FPREE)
Professional or Statutory Body of Accreditation MQA
Language of Instruction English
Mode of Study (Conventional, distance learning etc) Conventional
Mode of Operation (Franchise, self-govern, etc) Mainstream
Study Scheme (Full Time/Part Time) Full Time and Part Time
Study Duration: Full-time
Part-time
Minimum: 3 years Maximum: 6 years Minimum: 4 years Maximum: 8 years
Type of Semester No. of Semester No. of Weeks per Semester
Full Time Part Time Full Time Part Time
Normal 6 8 14 14
Short - - - -
ENTRY REQUIREMENT
• A Master's Degree in science or technology from Universiti Teknologi Malaysia or any other
Institutions of higher learning recognised by the Senate; or
• Other qualifications equivalent to a Master's degree and experience in the relevant field recognised by the Senate; or
• Candidates who a currently registered in a Master's Degree programme at Universiti
Teknologi Malaysia, and approved by the Graduate Studies Committee of the respective faculty and the Senate.
PROGRAM EDUCATIONAL OBJECTIVES
The objectives of this programme are:
1. Graduates effectively incorporate the in-depth scholarship of gas engineering knowledge,
research and problem solving skills to formulation and solution of diverse petroleum
engineering problems taking into account safety, environmental, economic and societal
impacts.
2. Graduates communicate effectively to convey and acquire technical ideas, information, and
recommendations in a multi-disciplinary environment.
3. Graduates responsibly practice professional ethics with appreciation for the value of
continuing professional development in maintaining their professional competence.
Postgraduate Guide Book 2014/2015
31
Intended Learning Outcomes Teaching and Learning Methods Assessment
(a) Applied Knowledge and Competencies
PO1: Able to demonstrate an in-depth scholarship of their area of research in petroleum engineering.
Graduates able to apply in-depth scholarship of their research in petroleum engineering-related areas using the techniques, skills, and modern engineering tools necessary for petroleum engineering practice.
Guided independent research, cooperative and collaborative learning
Progress report, first stage-examination report, thesis, viva
PO2: Able to contribute to original research to broaden the boundary of knowledge in petroleum engineering through thesis or dissertation.
Graduates able to independently analyze and manage scientific research, individually or collectively, using acceptable methodologies
Guided independent research, cooperative and collaborative learning
Progress report, first stage-examination report, thesis, viva
PO3: Able to make critical analysis, evaluation and synthesis of new ideas in research problems related to petroleum engineering.
An ability to identify, analyze and solve research problems related to petroleum engineering through effective and critical thinking skills
Guided independent research, cooperative and collaborative learning
Progress report, first stage-examination report, thesis, viva
PO4: Able to plan and perform independent research undertakings professionally, ethically and responsibly, and to lead research projects.
An ability to embrace intellectual honesty and integrity through non-plagiarism
Guided independent research, cooperative and collaborative learning, postgraduate seminar presentation
Thesis and viva presentation
PO5: Able to report research findings to peers at levels suitable for international publications.
Students able to communicate ideas and findings through collaborative work, oral presentation and scientific writing.
Guided independent research, cooperative and collaborative learning, postgraduate seminar presentation
Thesis, paper and viva presentation
PO6: Able to recognize the needs for continuing professional development.
An ability to engage life-long learning
Guided independent research, cooperative and collaborative learning, postgraduate seminar presentation
Thesis and viva presentation
Postgraduate Guide Book 2014/2015
32
PROGRAMME STRUCTURES AND FEATURES, CURRICULUM AND AWARD REQUIREMENTS
The course is offered on full-time and part-time modes. The assessment of the research is based on
the progress report, supervisor’s evaluation, research proposal and viva.
The subjects are categorized as university elective, program core and program electives such as the
followings:
Subject Category Code Course Credit
University Elective (1 subject))
UHX XXX3
(to choose from the list given by School of Graduate Studies)
3
Research Methodology UKPU 0010 Research Methodology 0
Research (Minimum 6
semesters)
PKPP 1100 Research 0
PKPP 1200 Research 0
PKPP 2100 Research 0
PKPP 2200
PKPP 3100,
PKPP 3200
Research
0
Total Credit 3
Awards requirements:
For the award of Doctor of Philosophy, the students should submit a thesis and pass oral
examination.
REGULATION OF ASSESSMENT
Evaluation for a doctoral degree student shall include: a) Evaluation of Research Proposal.
A student is required to present a research proposal for evaluation purposes within the duration specified by the University, failing which the student may be given unsatisfactory (TM) status.
b) Semester evaluation by the supervisor (Progress report). c) Thesis examination by the Internal and External Examiners. d) Oral defense of thesis to a Panel for Oral Examiners.
Postgraduate Guide Book 2014/2015
33
Summary of grades, marks and their interpretation for progress report are as follows:
Overall Assessment Statement by category
Mark Description Mark
Satisfactory
Excellent 9.0 ≤ M≤ 10.0
Very good 8.0 ≤ M≤ 9.0
7.0 ≤ M≤ 8.0
Good 6.0 ≤ M≤ 7.0
5.0 ≤ M≤ 6.0
Unsatisfactory Fair 4.0 ≤ M≤ 5.0
3.0 ≤ M≤ 4.0
Fail Poor 2.0 ≤ M≤ 3.0
1.0 ≤ M≤ 2.0
For thesis and viva the following grading scheme applies: After examining the thesis, I recommend that
a) The candidate be awarded the degree of Doctor of Philosophy (or) b1) The candidate be awarded the degree of Doctor of Philosophy subject to minor
corrections (or) b2) The candidate be awarded the degree of Doctor of Philosophy subject to the
amendments and corrections as listed elsewhere in this report being made in the thesis to the satisfaction of the Internal/External Examiner(s)
(or) c) The candidate not be awarded the degree of Doctor of Philosophy but be permitted to resubmit the thesis for further examination in a revised form after a further period of study and research
(or) d) The candidate not be awarded the degree of Doctor of Philosophy but a lower (or) e) The candidate not be awarded the degree of Doctor of Philosophy.
Postgraduate Guide Book 2014/2015
34
Name of Programme Doctor of Philosophy
Field of Study: Gas Engineering
Final Award Doctor of Philosophy
Awarding Institution Universiti Teknologi Malaysia
Teaching Institution Faculty of Petroleum and Renewable Energy Engineering (FPREE)
Professional or Statutory Body of Accreditation MQA
Language of Instruction English
Mode of Study (Conventional, distance learning etc) Conventional
Mode of Operation (Franchise, self-govern, etc) Mainstream
Study Scheme (Full Time/Part Time) Full Time and Part Time
Study Duration
Full-time Minimum: 3 years Maximum: 6 years
Part-time Minimum: 4 years Maximum: 8 years
Type of Semester No. of Semester No. of Weeks per Semester
Full Time Part Time Full Time Part Time
Normal 6 8 14 14
Short - - - -
ENTRY REQUIREMENT
• A Master's Degree in science or technology from Universiti Teknologi Malaysia or any other
Institutions of higher learning recognised by the Senate; or
• Other qualifications equivalent to a Master's degree and experience in the relevant field recognised by the Senate; or
• Candidates who a currently registered in a Master's Degree programme at Universiti
Teknologi Malaysia, and approved by the Graduate Studies Committee of the respective faculty and the Senate.
PROGRAM EDUCATIONAL OBJECTIVES
The objectives of this programme are:
1. Graduates successfully incorporate the advanced knowledge of petroleum engineering, research
and problem solving skills to formulation and solution of diverse gas engineering problems taking
into account safety, environmental, economic and societal impacts.
2. Graduates communicate effectively to convey and acquire technical ideas, information, and
recommendations in a multi-disciplinary environment.
3. Graduates responsibly practice professional ethics with appreciation for the value of continuing
professional development in maintaining their professional competence.
Postgraduate Guide Book 2014/2015
35
Intended Learning Outcomes Teaching and Learning
Methods Assessment
(a) Applied Knowledge and Competencies
PO1: Able to demonstrate continuing and advanced knowledge in gas engineering and have the capabilities to further develop or use these in new situations or multi-disciplinary contexts.
An ability to apply advanced knowledge in petroleum engineering-related areas using the techniques, skills, and modern engineering tools necessary for gas engineering practice.
Discussion, presentation Progress report
PO2: Able to anaylse and evaluate critically problems in gas engineering, particularly in situations with limited information and to provide solutions through the application of appropriate tools and
techniques.
An ability to independently analyze and manage scientific research, individually or collectively, using acceptable methodologies
Experimental work and/or simulation work
Research proposal, First stage examination
PO3: Able to appraise available information and research evidence and apply it in the petroleum engineering context.
An ability to identify, analyze and solve research problems related to gas engineering through effective and critical thinking skills
Experimental work and/or simulation work
Thesis and viva presentation
PO4: Able to plan and perform research undertakings professionally, ethically and responsibly.
An ability to embrace intellectual honesty and integrity through non-
plagiarism Thesis Thesis and viva presentation
PO5: Able to report technical findings in both written and oral forms.
An ability to communicate ideas and findings through collaborative work,
oral presentation and scientific writing
Presentation and Thesis Thesis, paper and viva
presentation
PO6: Able to recognise the needs for continuing professional development.
An ability to engage life-long learning Research proposal, Thesis Thesis and viva presentation
Postgraduate Guide Book 2014/2015
36
PROGRAMME STRUCTURES AND FEATURES, CURRICULUM AND AWARD REQUIREMENTS
The course is offered on full-time and part-time modes. The assessment of the research is based
on the progress report, supervisor’s evaluation, research proposal and viva.
The subjects are categorized as university elective, program core and program electives such as
the followings:
Subject Category Code Subject Credit
University Elective (1 subject))
UHX XXX3
(to choose from the list given by School of Graduate Studies)
3
Research Methodology UKPU 0010 Research Methodology 0
Research (Minimum 6
semesters)
PKPG 1100 Research 0
PKPG 1200 Research 0
PKPG 2100 Research 0
PKPG 2200,
PKPG 3100,
PKPG 3200
Research
0
Total Credit 3
Awards requirements:
For the award of Doctor of Philosophy, the students should submit a thesis and pass oral
examination.
REGULATION OF ASSESSMENT
Evaluation for a doctoral degree student shall include: a) Evaluation of Research Proposal.
A student is required to present a research proposal for evaluation purposes within the duration specified by the University, failing which the student may be given unsatisfactory (TM) status.
b) Semester evaluation by the supervisor (Progress report). c) Thesis examination by the Internal and External Examiners. d) Oral defense of thesis to a Panel for Oral Examiners.
Postgraduate Guide Book 2014/2015
37
Summary of grades, marks and their interpretation for progress report are as follows:
Overall Assessment Statement by category
Mark Description Mark
Satisfactory
Excellent 9.0 ≤ M≤ 10.0
Very good 8.0 ≤ M≤ 9.0
7.0 ≤ M≤ 8.0
Good 6.0 ≤ M≤ 7.0
5.0 ≤ M≤ 6.0
Unsatisfactory Fair 4.0 ≤ M≤ 5.0
3.0 ≤ M≤ 4.0
Fail Poor 2.0 ≤ M≤ 3.0
1.0 ≤ M≤ 2.0
For thesis and viva the following grading scheme applies: After examining the thesis, I recommend that
a) The candidate be awarded the degree of Doctor of Philosophy (or) b1) The candidate be awarded the degree of Doctor of Philosophy subject to minor
corrections (or) b2) The candidate be awarded the degree of Doctor of Philosophy subject to the
amendments and corrections as listed elsewhere in this report being made in the thesis to the satisfaction of the Internal/External Examiner(s)
(or) c) The candidate not be awarded the degree of Doctor of Philosophy but be permitted to resubmit the thesis for further examination in a revised form after a further period of study and research
(or) d) The candidate not be awarded the degree of Doctor of Philosophy but a lower (or) e) The candidate not be awarded the degree of Doctor of Philosophy.
Postgraduate Guide Book 2014/2015
38
Industrial PhD
An Industrial PhD is a Doctoral Research Program which accommodates the range of
activities that support original and innovative work that encompasses the academic,
professional and technological fields and is not restricted or related solely to a traditional
'scientific method'. Qualitatively, Industrial PhD is equivalent to all other types of doctoral
programs, including the conventional PhD.
Industrial PhD is a doctoral program that provides opportunities for students/researchers to
bridge the gap between two worlds. The objective of the program is to establish cooperation
between the university, a company and student/researcher, on a specific research project
that is of high value to the company and the participating parties. There is researcher
demand, workforce trends, industry needs and/or national priorities which give rise to the
need for the development of such an industrial doctoral program, in transforming the
country into an innovation-led economy (New Economic Model). The development of such
an industrial doctoral program is a clear strategic priority for the institution of higher
learning, and the Ministry of Higher Education Malaysia (MyBrain15 Initiative).
Industry-based PhD Programme or Industrial PhD at UTM an attractive alternative to the
conventional PhD, being better suited to the needs of the industry, and providing a more
vocationally oriented doctorate with industrial relevance. It is highly flexible and able to
accommodate candidates from all levels of management. It is a full-time postgraduate
programme where candidates have the opportunity to spend most of their time carrying out
the research at their respective organisations or industries.
Industrial PhD Features
Research focus based on industrial issues or problems;
Joint supervision by experts from the University and industry;
Research conducted in the industry and candidates do not have to leave their
workplace.
A PhD program distinct from the conventional PhD degree in term of mode of
research, but preserves the mark of original or innovative research and scholarship
expected of a doctoral study;
The company benefits from access to new/innovative and valuable knowledge
acquired by the student/researcher during his or her studies. In return, the
University gains access to new knowledge and innovation provided by the private
company.
PhD student/researcher is employed by a private company during the entire
research work, while being registered as a PhD student at the university.
Mode of Study
Full Time at the Industry (Candidate's workplace)
Postgraduate Guide Book 2014/2015
39
Entry Requirement
A Master’s degree or equivalent qualification recognised by the University Senate;
or
A Bachelor’s degree and industry experience in relevant field subject to the terms
and conditions of Recognition of Prior Learning (RPL) specified by the Malaysian
Qualification Agency (MQA) and Public Institution of Higher Learning.
Candidates must be currently an employee in the industry in Malaysia as
professionals, executives, engineers, researchers or equivalent;
Candidates must be a Malaysian citizen.
Duration of the Program
The study is only offered in full time mode. However, students/researchers are expected to
conduct their Doctoral research in their respective companies throughout their registration
period. Students are given a minimum of 2 years and a maximum of 5 years to complete the
Industrial PhD Program.
Supervision
Each student will be assigned to a minimum of two supervisors: one from the university and
the other, someone from the industry who has substantial experience or expertise in the
relevant areas of the research topic.
Supervision and monitoring processes are to be undertaken by the appointed supervisors.
Supervision and thesis evaluation practices are similar to those practised in the conventional
PhD program.
Additional Notes
All students must undertake:
1. research at the workplace;
2. research with the topic and scope based on real problems at their workplaces, related
to their jobs, and in their respective field of specializations;
3. research projects that have the potential in improving the operation, products,
services, business and management of the company.
Students shall also be subjected to the existing UTM regulations related to post-graduate
studies for conferment of PhD
Postgraduate Guide Book 2014/2015
40
How to Proceed
For industry executives/ researchers or students interested in the Industrial PhD, your first
step should be to organize an employer and university representatives (or supervisors) for
your PhD project. Once you have done this, your employer will send an application to the
University and followed by application to the Ministry of Higher Education.
Application Procedure
Applicants who fulfil the above requirements can apply Online at www.sps.utm.my. The
application should be submitted with a brief research proposal, and the approval/supporting
letter from the employer.
The proposal should include background of study, problem/s to be addressed, research
questions, research objectives, scope, significance of research, short review of the literature
in proposed study area, methodology, and research schedule.
Upon successful selection, candidates will be issued with an offer letter from UTM/SPS to
pursue the Industrial PhD Program.
The complete application form and other relevant documents should be sent to:
Admission Officer,
Block F54, School of Graduate Studies
Universiti Teknologi Malaysia
81310 UTM Johor Bahru
JOHOR
Tel : +607 – 553 7784/37904/37877
Fax : +607 – 55 37592 / 55 37800
Postgraduate Guide Book 2014/2015
41
Guidelines for Thesis/Dissertation Submission
1) Thesis/dissertation/master project report must follow the guidelines prescribed in the
UTM Thesis Manual.
2) A thesis or dissertation submitted for examination must be approved by the supervisor.
3) A master student is required to submit his/her thesis/dissertation/master project report
to the faculty for evaluation according to the specified requirements.
4) For master by research and doctoral programs:
a. A student should submit Notice For Submission of Thesis approved by the supervisor
at least three (3) months prior to submission of the thesis for examination, or three
(3) months before expiry of the maximum study duration.
b. A student should submit his/her thesis/dissertation for examination within or before
the end of the maximum duration of study. Only a registered student is allowed to
submit his/her thesis/dissertation.
5) After the oral examination and fulfillment of all specified requirements, a doctoral or a
master student by research/taught course and research is required to submit bound
and digital copies of thesis/dissertation according to the specified number and
submission date determined by the University.
6) Taking into consideration the evaluation of the thesis and the recommendation of the
Panel for Oral Examination, the examination results of a thesis/dissertation will be
verified by JKTS for endorsement by the Senate.
7) University will not accept a thesis/dissertation that has been submitted for the purpose
of examination either to UTM or any other institutions of higher learning.
8) A doctoral thesis/dissertation should not exceed 300 pages excluding appendices.
Master thesis/dissertation or the Master project report should not exceed 200 pages
excluding appendices.
9) A thesis/dissertation or Master project report may either be written in Bahasa Melayu
or English.
10) All thesis/dissertations/master project reports are the property of the University.
Postgraduate Guide Book 2014/2015
42
(b) Taught Course
Name of Programme Master of Petroleum Engineering
Final Award Master of Petroleum Engineering
Awarding Institution Universiti Teknologi Malaysia
Teaching Institution Faculty of Petroleum and Renewable
Energy Engineering (FPREE)
Professional or Statuatory Body of Accreditation MQA
Language of Instruction English
Mode of Study (Conventional, distance learning
etc)
Conventional
Mode of Operation (Franchise, self-govern, etc) Mainstream
Study Scheme (Full Time/Part Time) Full Time and Part Time
Study Duration
Full-time Minimum: 1.5 years
Maximum: 3 years
Part-time Minimum: 3 years
Maximum: 5 years
Type of Semester No. of Semester No. of Weeks per Semester
Full Time Part Time Full Time Part Time
Normal 3 6 14 14
Short - - - -
ENTRY REQUIREMENT
Good Bachelor degree in selected engineering or science disciplines from recognized institution (CPA > 3.00). Graduates from other fields can apply if they have work experience in upstream petroleum industry.
PROGRAM EDUCATIONAL OBJECTIVES
The objectives of this programme are: 1. Graduates incorporate in-depth petroleum engineering knowledge and principles in their
professional works. 2. Graduates manage conducive working environment and readily pursue different
challenging roles in global petroleum engineering positions through effective team work, leadership and communication.
3. Graduates demonstrate ethical responsibilities including social issues, safety and environmental awareness and continuously engage in personal and professional growth.
Postgraduate Guide Book 2014/2015
43
Intended Learning Outcomes
Teaching and Learning Methods
Assessment
(a) Applied Knowledge and Competencies
PO1: Integrate all knowledge about petroleum engineering and evaluate oil/gas field development project in professional practice.
Ability to synthesize knowledge of petroleum engineering that covers geology, formation evaluation, drilling, reservoir engineering, production engineering and petroleum economics.
Conventional lectures, seminars, individual and group discussion and assignment and examinations.
Examinations, assignments, group and individual presentations, discussions, and group and individual projects.
PO2: Formulate hypothesis, design, organize and perform research scientifically and analyse observed phenomena.
Ablility to plan, execute and justify projects, and write technical reports and papers.
Laboratory and/or simulation works done in master project, field development project.
Log book and report of masyer and field development project, and technical paper.
Intended Learning Outcomes
Teaching and Learning Methods
Assessment
(b) Generic Skills
PO3: Analyse situation and adjust oneself to practice communication in verbal and written mode to people from the same or different background.
Ability to supervise team members, negotiate and reach agreement, and responsible to group discussion.
Field development project, industrial visit, SPE-UTM meeting, and group assignments.
Final report, presentation, industrial trip report, peer assessment, assessment by industry.
PO4: Demonstrate professional ethics and adapt ethics in research and oilfield development.
Ability to integrate ethics in personal lifr, society, and professional practice.
Lectures, field development project, master project, assignment, SPE-UTM activities.
Examination, reports of master and field development project, seminar and assignments.
PO5: Organize, adapt and apply contemporary knowledge independently and manage information effectively.
Ability to search and ecquire new knowledge throughout his/her life.
Group projects, assignments / trips, field development project, and master project.
Examinations, final reports, and presentation.
PO6: Demonstrate and manage effectively, identify business opportunity and plan business.
Ability to identify and outline business plan.
Lectures, field development project, and SPE-UTM activities.
Examinations, SPE-UTM reports, field development and indutrial visit reports.
Postgraduate Guide Book 2014/2015
44
PROGRAMME STRUCTURES AND FEATURES, CURRICULUM AND AWARD REQUIREMENTS
The program is offered on full-time mode only and based on a 2-semester Academic Year.
Courses Offered:
Course Code Course Name Credit
MKPP 1213 Applied Geoscience and Geophysics 3
MKPP 1323 Formation Evaluation 3
MKPP 1413 Drilling Engineering and Well Completion 3
MKPP 1333 Reservoir Rock and Fluid Properties 3
MKPP 1113 Petroleum Economics and Management 3
MKPP 2353 Reservoir Engineering 3
MKPP 2513 Petroleum Production Engineering 3
MKPP 2323 Reservoir Simulation (Elective)
3
MKPP 2333 Enhanced Oil Recovery (Elective)
3
MKPP 2433 Water Flooding (Elective)
3
MKPP 2533 Well Diagnosis & Treatment (Elective)
3
MKPP 3804 Field Development Project (FDP) 4
MKPP 3904 Master Project I 4
MKPP 3906 Masters Project II 6
UKPU 0013 Research Methodology 3
Assessment is made from course works (consist of tests, assignments and presentation) and
examination held at the end of semester.
Assessment Breakdown:
Course work : 50 %
Examination : 50 %
Awards requirements:
For the award of Master of Science (Petroleum Engineering), Student should:
Pass all courses with a minimum of 65 % marks.
Achieve a total of 47 credit hours with a minimum of cumulative B grade or CGPA of
3.0.
Postgraduate Guide Book 2014/2015
45
(Example of Courses taken by Full-time Students)
Semester 1 (Year 1)
MKPP 1213
MKPP 1323
MKPP 1413
MKPP 1333
UKPU 0013
Total 15 credit hours
Semester 2 (Year 1)
MKPP 2353
MKPP 2513
MKPP 1113
MKPP 2**3
MKPP 3904
Total 16 credit hours
Semester 1 (Year 2)
MKPP 3804
MKPP 2**3
UHX ***3
MKPP 3906
Total 16 credit hours
Postgraduate Guide Book 2014/2015
46
REGULATION OF ASSESSMENT
Assessment is divided into three parts:-
I) Course Assessment
Each course will be assessed in the form of a written examination or other kind of
assessment such as group work, individual assignments, and presentations.
II) Master of Project Evaluation
The Master's Project is equivalent to 6 credit hours. Evaluation will be made on the
research proposal, log book, the final report and seminar presentation
III) Field Development Project Evaluation
It is a group project. The distribution of marks is as follows:
Final Report = 60%
Seminar Presentation = 20%
Project Management (mark group) = 10%
Individual Contributions in Group = 10%
The relationship between marks, grade, points, and achievement levels of the course is given
in Table below:
Marks Grade Points Level of
Achievement
90 - 100 A+ 4.00
Excellent pass 80 - 89 A 4.00
75 - 79 A- 3.67
70 - 74 B+ 3.33 Good pass
65 - 69 B 3.00
60 - 64 B- 2.67 Pass
55 - 59 C+ 2.33
Fail
50 - 54 C 2.00
45 - 49 C- 1.67
40 - 44 D+ 1.33
35 - 39 D 1.00
30 - 34 D- 0.67
00 - 29 E 0.00
Postgraduate Guide Book 2014/2015
47
Key:
Knowledge and Competencies in the field of Petroleum Engineering:
1 = minor contribution to outcome; 2 = moderate contribution to outcome; 3 = major
contribution to outcome.
Generic Skills: a = not substantial (introduce); b = moderate (development of skills); c =
substantial (with assessment)
No. Course Code Course Name
Competency Skills
Generic Skills
PO1 PO2 PO3 PO4 PO5 PO6
1. MKPP 1213 Applied Geoscience and Geophysics
a 1
2. MKPP 1323 Formation Evaluation a a 1
3. MKPP 1413 Drilling Engineering and Well Completion
a 1 1
4. MKPP 1333 Reservoir Rock and Fluid Properties
a 1
5. MKPP 1113 Petroleum Economics and Management
a 1 2 1
6. MKPP 2353 Reservoir Engineering a 1
7. MKPP 2513 Petroleum Production Engineering
a a b
8. MKPP 2323 Reservoir Simulation a b 1 1
9. MKPP 2333 Enhanced Oil Recovery a b 1 1
10. MKPP 2433 Water Flooding a b 1 1
11. MKPP 2533 Well Diagnosis & Treatment a b 1 1
12. MKPP 3804 Field Development Project (FDP)
a a 1 1 1 1
13. MKPP 3904 Master Project I a a 1 1 1 1
14. MKPP 3906 Masters Project II a a 1 1 1 1
TOTAL 14 9 11 5 10 4
Postgraduate Guide Book 2014/2015
48
Synopses Of Courses
Applied Geoscience and Geophysics (MKPP 1213) This course introduces students with the fundamental of petroleum geology, sedimentology and applied geophysics to the search for and production of oil and gas. The course emphasis on the Earth Materials, processes, basin and petroleum systems (Plate Tectonic context of petroleum basins). These aspects will be viewed in relation to the transport, deposition and deformation processes of sediment. Besides, advanced coverage on the reservoir heterogeneity, architecture and faults seals will be explored. The geophysical technique used to locate a reservoir using mapping and correlation will be taught before the estimation on the volume of such reservoirs will be made.
Formation Evaluation (MKPP 1123) This course exposes the students on methods of formation evaluation, both direct and indirect (wireline logging). The concept, acquisition and application of drill cuttings and core samples including the important aspects of commonly used well logging techniques, like the working principles of tools, how measurements takes place, applications, advantages and disadvantages of the various techniques, and how to make interpretations from various log data will be discussed. Besides this, shaly sand analysis, cross-plotting and overlaying techniques for determination of lithology, permeability, mineral identification and other important parameters will be introduced. This course ends with an overview depicting a general scenario of new developments and techniques of well-logging.
Drilling Engineering and Well Completion (MKPP 1413) The course covers the drilling systems, drilling fluids, well control and procedures, various types of drilling techniques, configurations and measurements, special operations, design of casing and tubing string and their recommended running procedures, cementing, well completion practices, subsurface equipment, well space-out, and slickline operation.
Reservoir Rock and Fluid Properties (MKPP1333) This course covers the fundamentals of reservoir engineering which include the description and characterizing reservoir rock and fluid properties of the oil and gas reservoir, calculation of fluid in-place and the recoverable reserves. This course is conducted by normal lectures and student group project based on published reservoir data.
Petroleum Economics and Management (MKPP 1113) Understanding of the big picture petroleum industry is an important prerequisite to successfully identifying, evaluating and selecting petroleum projects. These are many factors that need to be taken into consideration and these factors need to be evaluated accordingly. The course focuses in giving an understanding of petroleum industry and factors that influence the feasibility of the petroleum upstream project. The cash flow model incorporating PSC fiscal terms is introduced and several risk analysis methods also introduced to be incorporated in the cash flow model.
Postgraduate Guide Book 2014/2015
49
Reservoir Engineering (MKPP 2353) This course is intended to explore advanced concepts in reservoir engineering. Students are presented with the physics of reservoir engineering using mathematical techniques to complex reservoir problems. The course covers topics such as the theory and practice of well testing and pressure analysis techniques, the various water-influx models, the mathematical treatment of unconventional gas reservoirs, the oil recovery mechanisms and the various forms of the material balance equation, the practical application of the MBE in predicting the oil reservoir performance under different scenarios of driving mechanisms, and the immiscible displacements.
Reservoir Simulation (MKPP 2323) This course includes basic equations, deprivations and underlying principles used in developing reservoir simulators. It covers the development of simple governing equation, partial differential equations for single-phase and multi-phase fluid flow in porous media, and the use of finite difference approximation to solve the equations. Input data requirements and applications of stimulation models for history matching and prediction of field performance will be discussed. Microsoft Excel will be used for many of the examples and exercises.
Petroleum Production Engineering (MKPP 2513) This course covers the principles and methodology for productivity of oil and gas wells, encompassing a wide range of petroleum production fundamentals, pertinent to the modern petroleum industry. It includes the essentials of the vapour/liquid mixtures behavior in the production system and the necessary calculation, analysis and evaluation of the productivity and performance of the well, particularly the design of down-hole and surface production systems, well performance prediction to optimize the controlled recovery of pipeline quality crude oil and gas, artificial lift systems and stimulation work for productivity improvement.
Enhanced Oil Recovery (MKPP 2333) Provides students with an important concepts, theories and methods of enhanced oil recovery (EOR). This course covers the general classification of EOR processes, microscopic displacement of multiphase fluids in porous media, the concept of mobilization and trapping of oil, mobility ratio, capillary number, gravity segregation, and recovery efficiencies. Also included are the important concepts and operational procedures of various types of EOR methods such as polymer flooding, surfactant/micellar flooding, alkaline flooding, ASP flooding, miscible gas flooding and thermal recovery processes.
Field Development Project (MKPP 3804) Field Development Planning gives an overview of the process and methods for developing an optimum plan for a particular petroleum field. It covers all aspects of field development planning, commencing with screening studies, after discovering hydrocarbons, to project sanction. Analysis of this data results in an assessment of the reservoir and leads to the design of an appropriate production system. Participants work in small teams and will submit written plans and give presentations in front of a panel.
Postgraduate Guide Book 2014/2015
50
Master Project I and II (MKPP 3904 / MKPP 3906) The project aims to encourage students to perform scientific research either by experiment or simulation. The students will learn all scope of research from the conceptual part (research proposal), execution, analysis and reporting of the research. This course has six credits and student has one semester to complete it.
Postgraduate Guide Book 2014/2015
51
Name of Programme Master of Gas Engineering and
Management
Final Award Master of Gas Engineering and
Management
Awarding Institution Universiti Teknologi Malaysia
Teaching Institution Faculty of Petroleum and Renewable
Energy Engineering (FPREE)
Professional or Statuatory Body of Accreditation MQA
Language of Instruction English
Mode of Study (Conventional, distance learning
etc)
Conventional
Mode of Operation (Franchise, self-govern, etc) Mainstream
Study Scheme (Full Time/Part Time) Full Time and Part Time
Study Duration
Full-time Minimum: 1.5 years
Maximum: 3 years
Part-time Minimum: 2 years
Maximum: 4 years
Type of Semester No. of Semester No. of Weeks per Semester
Full Time Part Time Full Time Part Time
Normal 2 4 14 14
Short 1 2 8 8
ENTRY REQUIREMENT
Good Bachelor degree in selected engineering or science disciplines from recognized institution (CPA > 3.00). Graduates from other fields can apply if they have work experience in related industry.
PROGRAM EDUCATIONAL OBJECTIVES
The objectives of this programme are: 1. Graduates incorporate in-depth engineering techniques and natural gas management
principles in project technical and economic analysis of gas production, processing, transportation and utilization projects.
2. Graduates manage condusive working environment and readily pursue different challenging roles in regional and global natural gas operation and management positions through effective team work, leadership and communication skills.
3. Graduates demonstrate ethical responsibilities including social issues, safety and environmental awareness and continuously engage in personal and professional growth.
Postgraduate Guide Book 2014/2015
52
Intended Learning Outcomes Teaching and Learning Methods
Assessment
(a) Applied Knowledge and Competencies
PO1: Acquire advanced technical knowledge to produce high quality human capitals
Integrate advanced technical and scientific knowledge of gas engineering and related management principles
Conventional lectures, seminars, individual and
group discussion and assignment and examinations.
Examinations, assignments, group and individual
presentations, discussions, and group and individual projects.
PO2: Inculcate motivations and strategies for operational problems
Analyse , evaluate and propose solutions to gas engineering operational problems, designs and management through systematic planning and problem solving skills
Conventional lectures, seminars, individual and
group discussion and assignment and examinations.
Examinations, assignments, group and individual
presentations, discussions, and group and individual projects.
PO3: Inculcate performance measurement and analysis
Utilize appropriate methodologies, techniques and tools to produce work of scholarly quality.
Group projects, case studies Individual and group projects on actual cases of Gas Engineering
and Management
Intended Learning Outcomes Teaching and Learning Methods
Assessment
(b) Generic Skills
PO4: Demonsrate effective communication skills
Communicate effectively through written and oral modes.
Conventional lecturers, seminars, individual and
group discussion, assignments, examinations and case study discussion
Group projects, case study analysis, book reviews
PO5: Demonstrate effective team working and leadership skills
Demonstrate high team working spirit and effective leadership quality in undertaking a wide range of group projects.
Group project, invited government speaker and practitioner talks, industrial visit, case study, reviews of relevant documents
Group projects, equitable allocation of responsibilities, individual participations
PO6: Demonstrate life-long learning and information management skills
Perpetually seek advanced knowledge and technology of gas engineering and management
Working in groups with direct supervision by lecturers
Individual project report on creative new innovation ideas within the gas enginerering and management environment.
PO7: Demonstrate ethics and integrity
Demonstrate high ethical standards in professional practice including environmental and social issues
Independent research projects
Individual project report on creative new innovation ideas within the gas enginerering and management environment.
PO8: Demonstrate managerial skill and entrepreneurship
Incorporate knowledge of gas engineering and management in business thinking /entrepreneurship related decision making process
Group project, case study and reviews of relevant documents
Individual and group projects on actual cases of Gas Engineering and Management
Postgraduate Guide Book 2014/2015
53
PROGRAMME STRUCTURES AND FEATURES, CURRICULUM AND AWARD REQUIREMENTS
The Master of Gas Engineering and Management programme is offered on full-time and
part-time basis and based on a 12-month academic calendar. Courses are assessed
completely for each semester.
Courses Offered:
Course Code Course Name Credit
MKPM 1113 Gas Exploration, Production and Processing 3
MKPM 1123 Gas Transportation and Storage 3
MKPM 1133 Gas Supply Engineering and Economic 3
MKPM 1143 Gas Thermodynamic Properties and Utilization 3
MKPM 1223 Asset Management and Control 3
MKPM 1233 Gas Contract Negotiation and Implementation 3
MKPM 1153 LNG Technology 3
MKPM 13*3 Elective 3
MKPM 1213 Risk and Safety Management 3
MKPM 1243 Gas Project Planning, Development and
Financing
3
MKPM 1253 Energy Management System and Audit 3
MKPM 1414 Graduate Project I 4
MKPM 1426 Graduate Project II 6
Uxx xxx3 University Elective 3
UKPU 0013 Research Methodology 3
Assessment is consists of course works (tests, assignments and presentation) and
examination held at the end of semester.
Assessment Breakdown:
Course work : 50 %
Examination : 50 %
Postgraduate Guide Book 2014/2015
54
Awards requirements:
For the award of Master of Gas Engineering and Management, students should:
• Pass all courses with a minimum mark of 65%
• Achieve a total of 46 credit hours with a minimum of cumulative B grade or CGPA of 3.0.
Example of Courses taken by Full-time Students)
Semester 1 (Year 1)
MKPM 1113
MKPM 1123
MKPM 1133
MKPM 1143
UKPU 0013
Total 15 credit hours
Semester 2 (Year 1)
MKPM 1223
MKPM 1233
MKPM 1213
MKPM 1243
MKPM 1414
Total 16 credit hours
Semester 1 (Year 2)
MKPM 1426
MKPM ***3
MKPM ***3
UHX***3
Total 15 credit hours
Postgraduate Guide Book 2014/2015
55
REGULATION OF ASSESSMENT
Assessment is divided into three parts:-
IV) Course Assessment
Each course will be assessed in the form of a written examination or other kind of
assessment such as group work, individual assignments, and presentations.
V) Master of Project Evaluation
Evaluation will be made on the research proposal, log book, the final report and seminar
presentation
The relationship between marks, grade, points, and achievement levels of the course is given
in Table below:
Marks Grade Points Level of
Achievement
90 - 100 A+ 4.00
Excellent pass 80 - 89 A 4.00
75 - 79 A- 3.67
70 - 74 B+ 3.33 Good pass
65 - 69 B 3.00
60 - 64 B- 2.67 Pass
55 - 59 C+ 2.33
Fail
50 - 54 C 2.00
45 - 49 C- 1.67
40 - 44 D+ 1.33
35 - 39 D 1.00
30 - 34 D- 0.67
00 - 29 E 0.00
Postgraduate Guide Book 2014/2015
56
PROGRAMME LEARNING OUTCOME
COURSE PO1 P02 PO3 PO4 PO5 PO6 PO7 PO8
UKPU 0013: Research Methodology
/ / / / / / /
MKPM 1113: Gas Exploration, Production and Processing
/
MKPM 1123: Gas Transportation and Storage
/ /
MKPM 1133: Gas Supply Engineering and Economic
/ / /
MKPM 1143: Gas Thermodynamic Properties and Utilization
/ /
MKPM 1213: Risk and Safety Management
/ / / /
MKPM 1223: Asset Management and Control
/ /
MYYG 1233: Gas Contract Negotiation and Implementation
/ / / / /
MKPM 1243: Gas Project Planning, Development and Financing
/ / / / /
MKPM 1414: Graduate Project I
/ / / / / / /
MKPM 1426: Graduate Project II
/ / / / / / /
MKPM 1153: LNG Technology
/ /
MKPM 1253: Energy Management System and Audit
/ /
MKPM 1313: Renewable Energy
/ /
MKPM 1323: Flow Measurement
/ /
MKPM 1333: Membrane Gas Separation
/ /
MKPM 1343: Combustion Generated Pollution
/ /
MKPM 1353: Fire and Explosion
/ /
JUMLAH 18 24 4 12 7 5 8 6
Postgraduate Guide Book 2014/2015
57
Key:
Competencies : a = major contribution to outcome; b = moderate contribution to outcome;
c=minor contribution to outcome
Generic Skills: 1 = Substantial (with assessment); 2 = not substantial (introduce)
Postgraduate Guide Book 2014/2015
58
Synopses Of Courses
Gas Exploration, Production and Processing (MKPM 1113) This course is intended to expose students to the major stages in the life of an oil or gas field; from exploration, production, and finally to processing and demonstrate the link between the many disciplines involved. The contents of the course cover comprehensive introduction to the upstream and downstream that include basic methods, concepts and current and emerging technologies used and as well as issues related to operations, safety and environment.
Gas Transportation and Storage (MKPM 1123) This course enables students to develop an advanced knowledge in gas transportation and storage facilities. The course module covers a wide range of scope which includes the flow principles, operation and construction and maintenance. Sustainability of supply and storage system is well reviewed to incorporate state-of-the-art technology. The module also integrates the standards design of transportation system and relevant code of practices. Malaysian standard requirements also are highlighted thoroughly.
Gas Supply Engineering and Economics (MKPM 1133) This course enables students to develop an advanced knowledge in gas transportation and storage facilities. The course module covers a wide range of scope which includes the flow principles, operation and construction and maintenance. Sustainability of supply and storage system is well reviewed to incorporate state-of-the-art technology. The module also integrates the standards design of transportation system and relevant code of practices. Malaysian standard requirements also are highlighted thoroughly.
Gas Thermodynamic Properties and Utilization (MKPM 1143) This course provides students further understanding of knowledge of hydrocarbon gas thermodynamic properties and its relation to other various gas utilization related properties such as combustion, flames etc. The contents of the course have been designed to emphasize more on the advanced knowledge of combustion operation, control, and industrial applications and as well as combustion-related safety aspects. The contents of the course also highlight various gaseous hydrocarbon fuels derived energy generating technologies and equipment and its impact on environment. In addition, the course content also focuses on the understanding of gas burner system and burner management system for efficient utilization of hydrocarbon gases.
Risk and Safety Management (MKPM 1213) This course enables students to appreciate and apply the theoretical and practical aspect of safety and risk management in gas industry and employ the techniques of risk assessment in the design, operation and management of gas related facilities.
Asset Management and Control (MKPM 1223) This course enables students to set out the principles of plant asset management and
Postgraduate Guide Book 2014/2015
59
maintenance control, become leader in safe and efficient operation in the oil, gas and petrochemical industry in Malaysia, and provide procedures for plant asset and maintenance management, thereby promoting a consistency in approach.
Gas Contract Negotiation and Implementation (MKPM 1233) This course enables students to understand the concept of gas negotiation to sustain the stable supply of energy since consumers are interested in long term stability, predict the potential policy mistake, gas development risks, strategy for the gas chain and relationship between gas supply and purchase agreement, prepare the draft invoice for gas supply and purchase agreement, legal framework, contract structure, and explain the role of government with regard to the energy supply
LNG Technology (MKPM 1153) This course enables students to forecast of world energy consumption and role of Gas-to-Liquid (GTL) technology, determine the most accepted method to liquefy natural gas and suitable equipments as well as material used under cryogenic conditions, propose and design the storage system as well as identify it accessories, identify the latest technology to enhance the performance of the storage system and carry out inspection to enhance the integrity of the liquefaction plant
Gas Project Planning, Development and Financing (MKPM 1243) This course enables students to elaborate confidently on government policy and regulatory framework related to oil and gas industry, set out the principles of planning on development of gas projects, become leader in safe and efficient operation in the oil, gas and petrochemical industry in Malaysia, and prepare an analysis on investment and financing of gas potential projects.
Energy Management System and Audit (MKPM 1253) This course develops the knowledge of energy management and auditing program for a successful career in various energy sectors. The program provides of energy policy analysis, energy management and auditing concept, energy planning, energy security, energy prices and the environmental impacts of energy supply and use. In addition, the course content also focuses on the understanding of standard energy auditing procedure hence a good energy management program can be proposed to an organization.
Graduate Project I (MKPM 1414) This course is designed to train students on some important aspects of research management. In the first part of the graduate project course, the students are only required to carry out preliminary studies on the gas engineering related topics but also to do research planning that will be implemented in the following semester. At the end of this course, students should be able to prepare a complete research proposal and subsequently present their proposal. In addition, students will have opportunity to gain important generic skills such as communication, life-long learning, problem-solving and creative and critical thinking.
Postgraduate Guide Book 2014/2015
60
Graduate Project II (MKPM 1426) This course is continuation of the Graduate Project I (MKPM 1414). The second part of Graduate Project requires students to implement the research proposal that has been prepared in the previous semester. This might involve practical activities such as laboratory works, data collection from industry and computer programming / simulation. At the end of the course, students should be able to prepare a full report compiling the first and second part of the Graduate Project and subsequently present their research findings. Finally, students must submit a bound thesis according to the UTM thesis-writing format. In addition, students will have opportunity to gain important generic skills such as communication, team working, problem-solving and creative and critical thinking.
Postgraduate Guide Book 2014/2015
61
RESEARCH FACILITIES
The faculty is equipped with various facilities in order to provide excellent learning and
living experiences for students. Currently, FPREE has 11 laboratories, a workshop, a library
known as ExxonMobil Resource Centre as well as IT-supported classrooms. The laboratories
are equipped with state of the art equipment to support teaching and research
requirement. In addition, technical services to the industries are also provided through
certified analytical facilities. Software such as ESCLIPSE, HYSIS, MATLAB, FLUENT, GINA and
Design II are also available to use.
Faculty/ Department Laboratory
Gas Engineering
Gas Combustion
Gas Utilization
Gas Calibration
Gas Flow System
Membrane Research Unit
Petroleum Engineering Reservoir
Geoscience
Postgraduate Guide Book 2014/2015
62
Drilling
Heavy Duty
General Laboratory
Workshop
Computer Laboratory
Petroleum Product Testing
• Gas Combustion Laboratory is equipped with a complete range of domestic and
industrial equipment that are used in research and academic purposes such as fuel
combustion system, flame characteristics test rig, industrial combustion simulation software,
recuperative and regenerative burner system and various types of industrial burners for
combustion efficiency and exhaust emission studies. This lab is also equipped with emission
analyzer.
Gas Utilization Laboratory provides services for experiments on the quality and
characteristics of gas and liquid fuel such as density, dew point and calorific value. Thermal
energy research work is actively studied for hydrogen gas product in auto-thermal reaction
(ATR) system in fuel cell utilization, environment study using catalytic combustion system for
high and low temperatures, energy saving by combined heat and power (CHP) and design
system using the art of simulation modeling (CFD).
• Calibration Laboratory provides services and facilities for calibrations and experiments
on pressure and temperature system as well as fluid flow studies which include low to
medium flow calibration facilities and metering research.
• Gas Flow System Laboratory provides facilities for experiments related to gas control
system and gas transmission which includes metering methods and pressure regulating. It
also includes facilities for pipe installation systems using material such as PE, Carbon Steel
and Copper pipe. This laboratory is also equipped with installations for LPG Storage System
and Compressed Air Supply.
• Membrane Research Laboratory is dedicated to carrying out an advanced study of
membrane-based research for various domestic and industrial applications.
• Geology Laboratory is equipped with major equipment such as optical microscope,
stereo microscope, geophysics apparatus, sample preparation apparatus, thin section
apparatus, field sampling apparatus, field work apparatus and analysis apparatus, such as
liquid and plastic limit set, Anderason pipet, Image Analyzer and Point counter.
• Reservoir Laboratory has several equipment such core cleaner, core trimmer,
porosimeter, permeameter, resistivity meter, Kg/Ko relative permeameter, Hg injection
capillary pressure, ultra-centrifuge for capillary pressure, air-liquid capillary apparatus,
displacement study apparatus, kinematic viscometer, tensiometer, analine point apparatus
and surface tension apparatus.
Postgraduate Guide Book 2014/2015
63
• Drilling Laboratory provides major equipment in the mud section (mud mixture, mud
balance, rheometer, marsh funnel, filtration testing apparatus, sand filtration set, retort, pH
meter, resistivity meter and methyl blue test set).
• Other facilities include Heavy Duty Laboratory and Petroleum Testing Laboratory
Postgraduate Guide Book 2014/2015
64
CENTRE OF EXCELLENCE
The Faculty of Petroleum and Renewable Engineering (FPREE) promotes the educational,
consultancy service and research goal of the faculty and university by providing services to
the community and offers technical expertise to local industries in the form of professional
courses, laboratory testing as well as other forms of consultancy services. Over the years,
many companies have benefited from the variety of services provided by the following
centre of excellence:
1) Advanced Membrane Technology Research Centre (AMTEC)
2) UTM-MPRC Institute for Oil and Gas
Postgraduate Guide Book 2014/2015
65
Advanced Membrane Technology Research Centre (AMTEC)
Advanced Membrane Technology Research Centre (AMTEC) formerly known as Membrane
Research Unit (MRU) is a research center for advanced membrane technology and new
membrane applications. The mission and vision of AMTEC is to be a leader in membrane
technology and applications especially in the Asia Pacific region and globally through
innovation and creative technologies.
The center produces postgraduate students as well as provides training for engineers,
scientists and technicians from Malaysia and abroad in the area of membrane technology to
enhance the nation human capital and productivity. AMTEC incorporate a business venture
laboratory that is involved in the design, fabrication and commercialization of customized
membrane module and membrane system for local and overseas applications.
Postgraduate Guide Book 2014/2015
66
UTM-MPRC Institute for Oil and Gas
UTM-MPRC (formerly known as Gas Technology Centre or GASTEG) is a centre of excellence
to promote training, research and services activities. It is one of the first centre of its kind
being established in South East Asia. With its excellent geographical position in the centre of
oil and gas platform and home of related activities, MPRC is targeted to become a prime
reference for the regional gas industry before expanding to international recognition. It is
attached to the Faculty of Petroleum and Renewable Energy Engineering and located at the
Universiti Teknologi Malaysia main campus in Skudai, Johor.
Today's complex challenges demand new ideas and partnerships. To date; there is limited
number of institution which focus in training, research and services to support the gas
industry. Thus, there is a need for more bodies to be responsible in organizing and
implementing the technical organization of the industry. Based on the aforementioned
statement, UTM has taken the lead to form the UTM-MPRC. It is the intention of UTM-MPRC
to become the coordination centre for activity undertaken by local and international gas
industry.
Postgraduate Guide Book 2014/2015
67
POSTGRADUATE STUDENT SOCIETY
POSTGRADUATE STUDENT SOCEITY OF FPREE (PGSS-FPREE)
FACULTY OF PETROLEUM AND RENEWABLE ENERGY ENGINEERING
SESSION 2014/2015
President Wan Mohd Shaharizuan b. Mat Latif
Vice-President Sairoz Norazlan b. Sharbini
Secretary Nadiah bt. Ibrahim
Vice-President Assistant Nur Atikah bt. Aminordin
Secretary Assistant Rabiatul Adawiyah bt. Sharom
Head of Academic Advisor Council Muhammad Hadyan Hakim b. Rohimi
Head of Protocol Coordinator Tengku Mohd Nurul Naim b. Tengku Jaapar
Head of Trilateral Council Norhafizuddin b. Husein @ Yusof
Head of Financial Support Council Nabilla Afzan bt. Haji Abdul Aziz
Information Distribution
Representative
Ahmad Amirhilmi b. A Razak
Academic Advisor Rep. 1 Nik Khairul Izzat b. Nik Abd Aziz
Academic Advisor Rep. 2 Dinie
Protocol Coordinator Rep. 1 Siti Fauziana bt. Zullkefeli
Protocol Coordinator Rep. 2 Mohamad Muzakkir b. Mohammad Lazim
Trilateral Council Rep. 1 Nur Izzatee bt. Zainuddin
Trilateral Council Rep. 2 Nur Hazieqah bt. Kahil
Bursary Rep. 1 Natalie Vanessa Boyou
Faculty of Petroleum and Renewable Energy (FPREE) is the home for more than 100
postgraduate students of various nationalities. The enrolment consists of research and
taught course students, inclusive of both full-time and part-time candidates. Together, they
organize activities through the postgraduate student society of FPREE. All postgraduate
students under Faculty of Petroleum and Renewable Energy Engineering, Universiti
Teknologi Malaysia are automatically eligible for membership of the association.
Postgraduate Guide Book 2014/2015
68
PGSS-FPREE ORGANIZATIONAL CHART (SESSION 2014/2015)
PRESIDENT
(Wan Mohd Shaharizuan b.
Mat Latif)
HEAD OF ACADEMIC ADVISOR COUNCIL
(Muhammad Hadyan Hakim b. Rohimi)
ACADEMIC ADVISOR REP. 1
(Nik Khairul Izzat b. Nik Abd Aziz)
ACADEMIC ADVISOR REP. 2
(Dinie)
HEAD OF PROTOCOL COORDINATOR
(Tengku Mohd Nurul Naim b. Tengku
Jaapar)
PROTOCOL COORDINATOR REP. 1
(Siti Fauziana bt. Zullkefeli)
PROTOCOL COORDINATOR REP. 2
(Mohamad Muzakkir b. Mohammad Lazim)
INFORMATION DISTRIBUTION
REPRESENTATIVE
(Ahmad Amirhilmi b. A Razak)
HEAD OF TRILATERAL COUNCIL
(Norhafizuddin b. Husein @ Yusof )
TRILATERAL COUNCIL REP. 1
(Nur Izzatee bt. Zainuddin)
TRILATERAL COUNCIL REP. 2
(Nur Hazieqah bt. Kahil)
HEAD OF FINANCIAL SUPPORT COUNCIL
(Nabilla Afzan bt. Haji Abdul Aziz)
BURSARY REP. 1
(Natalie Vanessa Boyou )
VICE PRESIDENT
(Sairoz Norazlan b. Sharbini)
VICE PRESIDENT ASSISTANT
(Nur Atikah bt. Aminordin)
SECRETARY
(Nadiah bt. Ibrahim)
SECRETARY ASSISTANT
(Rabiatul Adawiyah bt. Sharom)
Postgraduate Guide Book 2014/2015
69
The aim of postgraduate society is to make research and learning experience memorable
and conducive. Among others, activities include series of talks by visiting researchers and
expertise, industrial visits, field trips, social function and leisure trips were organised.
Postgraduate Guide Book 2014/2015
iii
Further enquiry:
Faculty of Petroleum & Renewable Energy Engineering
Universiti Teknologi Malaysia
81310 UTM Skudai, Johor Bahru,
MALAYSIA
Tel: +607 5535739, +607 553 5512, +607 553 5508
Fax: +607 5581463