- Master of Science in Chemical Engineering
Department of Chemical Engineering offers master of science program in different research area including process design, process simulation and control, environmental engineering, gas processing and transportation, polymer, energy, process separation, kinetics and catalyst. The Master of Science program in Department of Chemical Engineering is based on the fundamental principles of chemical engineering, as well as an intensive research experience. The BS degree in chemical engineering is required for admission to the MS program. The outcomes of or graduates are:
- An ability to identify, formulate and develop new tools for engineering and research problems and solve them with consideration of public health, safety, and welfare, as well as global.
- An ability to effectively communicate, collaborate, and flexibly in team working.
- Ability to clearly and persuasively communicate the motivation for a research project.
- An ability to develop and conduct appropriate experimentation, analyze and interpret data, and use engineering judgment to detail conclude.
- An ability to acquire and apply new knowledge as needed, using appropriate learning strategies.
- Doctor of Philosophy in Chemical Engineering
The Doctor of Philosophy program is designed to focus students on original, productive, and creative research topics in chemical engineering and to cultivate students to play prominent roles in scientific and research centers in the future. The Doctor of Philosophy program in the Department of Chemical Engineering is based on the fundamental principles of chemical engineering, as well as extensive and deep research experience. The BS and MS degrees in chemical engineering are required for admission to the PhD program.
Graduate Course listing of Chemical Engineering
| Title | Code | Title | Code |
| Heat and Power Integration | 240142771 | Advanced Heat Transfer | 240143061 |
| Exergy Analysis | 240142281 | Advanced Thermodynamics | 240143071 |
| Thesis | 240140002 | Advanced Mass Transfer | 240143101 |
| Advanced Heat Transfer II | 240144031 | Advanced Fluid Mechanics | 240143111 |
| Advanced Thermodynamics II | 240174041 | Advanced Kinetics and Reactor Design | 240143041 |
| Advanced Mass Transfer II | 240174051 | Advanced Engineering Mathematics | 240143141 |
| Advanced Fluid Mechanics II | 240174021 | Transport Phenomena | 240143271 |
| Advanced Kinetics and Reactor Design II | 240174131 | Engineering Research Methodology | 240142741 |
| Advanced Mathematics II | 240174061 | Advanced numerical methods | 240143421 |
| Advanced Reservoir Engineering | 240174121 | Advanced Water and Wastewater Treatment | 240143021 |
| Ph.D Thesis | 240174991 | Kinetics and Polymer Reactor Design | 240142681 |
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| Phase Behavior of Reservoir Fluids | 240143351 |
- Master of Science in Petroleum Engineering
This program provides the graduate students with necessary scientific/technical knowledge and helps them understand different aspects of reservoir engineering in-depth. The proposed M.Sc. program has the following objectives:
- Deliver high-quality lectures given by our expert faculty members in the related fields.
- Introduce state-of-the-art research methodology in fields, which are of high local and global interest.
- Solve industrial research challenges of the related industries.
- Create a superior perspective of reservoir engineering challenges by exposing graduate students to interdisciplinary fields such as chemical engineering, nanotechnology, and surface science.
- Assure that graduate students can be part of any academic or technical organization and that can identify issues of interest with confidence.
- Assure that graduates can present technical material orally and in writing.
- Prepare graduates for admission to top graduate programs in the world.
- Motivate graduates to be engaged in continuous professional development and leadership, through individual effort and advanced professional education.
By completing our M.Sc. program, graduates are able to:
- Understand the physics of related problems and to identify new academic/industrial challenges.
- Propose methodology to systematically tackle challenging problems and to present the outcome professionally.
- Present themselves with confidence to academic/technical professionals.
- Demonstrate a solid background of related to public relations, covering the fundamentals of communication, economics, politics, and online experience.
- Lead, with an understanding of the broader ethical and societal impact of public relations, and the importance of diversity in the workforce.
- Function within multidisciplinary teams to accomplish goals that are of interest to the group collectively
- Show awareness of global, societal, humanitarian, and contemporary issues in their broader sense, including professional and ethical responsibilities.
- Doctor of Philosophy in Petroleum Engineering
The graduate degree program provides the students with necessary scientific/technical knowledge and helps them understand different aspects of petroleum engineering. It aims to introduce state-of-the-art applied research methodology, solve industrial research challenges, create a superior perspective of reservoir engineering challenges by exposing graduate students to interdisciplinary fields such as chemical engineering, nanotechnology, and surface science. Upon completing the master and PhD degree programs in reservoir and production engineering, graduates will be able to understand the physics of related problems and to identify new academic/industrial challenges, propose methodology to systematically tackle challenging problems and to professionally present the outcome.
They will demonstrate a solid background of related to public relations, covering the fundamentals of communication, economics, politics, and online experience. Our master degree and PhD graduates will have the opportunity to function within multidisciplinary teams to accomplish goals that are of interest to the group collectively. At the end of the day, it is expected to see graduates ready for admission in top global research programs.
Graduate Course listing of Petroleum Engineering
| Code | Title | Code | Title |
| 240271111 | Advanced Phase Behavior of Reservoir | 240271121 | Advanced Enhanced Oil Recovery |
| 240271101 | Advanced Fluid Flow in Porous Media | 240271131 | Advanced Geostatistics & Reservoir Modeling |
| 240271151 | Transfer in Wells Advanced Multiphase Flow and Heat | 240271141 | Advanced Reservoir Modeling and Simulation |
| 240271221
| Advanced Multiphase Flow in Wells | 240271301 | Advanced Interfacial Phenomena |
| 240271291 | Special Topics in Petroleum Engineering | 240274991 | Thesis |
