Master of Science in Energy and Environmental Engineering

Overview:

The Department of Chemical Engineering at COMSATS University offers a Master of Science (MS) in Energy and Environmental Engineering program that is uniquely designed to provide students with advanced education in the field of energy and environmental engineering. The program is specifically tailored to provide students with the knowledge and skills necessary to design, develop, and optimize sustainable energy systems, as well as to understand and solve complex engineering problems related to the environment.

Curriculum:

The MS Energy and Environmental Engineering program covers a wide range of advanced topics in energy and environmental engineering, including energy systems, renewable energy systems, environmental science, air and water pollution control, and sustainable engineering. The program is designed to provide students with a solid foundation in the principles of energy and environmental engineering, as well as the latest developments in the field. The coursework is designed to provide students with an in-depth understanding of the fundamental principles of energy and environmental engineering and to prepare them for advanced careers in the industry.

The program is divided into two main components, coursework and research. The coursework component includes core and elective courses that provide students with a comprehensive understanding of the field of energy and environmental engineering. The core courses include topics such as: energy systems and technologies, renewable energy systems, environmental science, air and water pollution control, and sustainable engineering. The elective courses are designed to provide students with the opportunity to specialize in a specific area of interest. These areas of specialization may include: advanced energy storage systems, smart grids, energy economics, environmental biotechnology, and life cycle assessment.

Research Opportunities:

The MS Energy and Environmental Engineering program includes a thesis component, which allows students to conduct original research under the guidance of a faculty advisor. This provides students with the opportunity to work on research projects that are aligned with the current industry and academic trends, such as the integration of renewable energy sources into the grid, energy efficiency in buildings, and carbon capture and storage. Students also get the chance to work on sponsored research projects by industries and government agencies to have a more practical approach to their research.

The research component of the program provides students with an opportunity to gain hands-on experience in conducting research and to develop the skills necessary to complete an original research project. Students will be required to design, conduct and analyze experiments, use analytical tools, and write reports and presentations. The research component will culminate in the submission of a thesis that demonstrates the student's ability to conduct original research and make a contribution to the field of energy and environmental engineering.

Faculty & Resources:

The MS Energy and Environmental Engineering program is taught by a team of highly qualified and experienced faculty members who are experts in their respective fields. Our faculty members hold advanced degrees in energy and environmental engineering and have a wealth of experience in both academia and industry. They are dedicated to providing students with the highest quality education and are committed to helping students achieve their professional goals.

Our department also provides students with access to state-of-the-art research facilities and equipment, including:

Advanced simulation software for energy systems and environmental modeling
Laboratory equipment water and wastewater quality analysis and treatment
Renewable energy systems such as biofuels
Advanced instrumentation for energy and environmental measurement and analysis.

Career Prospects:

The MS Energy and Environmental Engineering program prepares graduates for a wide range of careers in the energy and environmental engineering field. Graduates of this program may find employment in the following fields:

Energy and environmental consulting
Energy and environmental engineering design and analysis
Government agencies and research organizations
Energy and environmental management in industry
Advanced research in academia

The Energy and Environmental Engineering program at COMSATS University is designed to provide students with the knowledge and skills necessary to meet the demands of the rapidly changing energy and environmental engineering field. Our emphasis on hands-on experience, cutting-edge research, and a solid foundation in the fundamental principles of energy and environmental engineering, ensures that our graduates are well-prepared to make a positive impact on the industry and the world.

Admission Criteria:

The admissions in the graduate program are very competitive based on merit. The merit will be determined on the basis of the academic record, test and interview.

Admission Pre-Requisites:

A 16-years degree preferably in Chemical Engineering, Mechanical Engineering, Metallurgy Engineering, Materials Engineering, Civil Engineering, Power Engineering, Environmental Engineering, Physics, Chemistry, Environmental Sciences, Chemical Technology, Polymer Technology, or in the relevant field from an accredited educational institution, with First Division (annual system) or minimum CGPA 2.5/4.0 (semester system) and no third division (annual system) or ‘D’ grade (semester system) throughout the academic career.
NTS GAT (General) with minimum 50 score (must be valid on the date of admission)..
All other terms and conditions regarding Graduate programs approved by the Competent Authority from time to time shall be applicable.

Research Groups

The Department of Chemical Engineering at COMSATS University Lahore Campus is home to several research groups that are actively engaged in cutting-edge research in various areas of chemical engineering. These research groups provide a platform for faculty members, graduate students and undergraduates to collaborate and conduct research in their areas of interest. Some of the research groups and their areas of focus are as follows:

Biomass Conversion Research Group (BCRG) This group conducts research on the conversion of biomass into value-added products such as biofuels, chemicals, and materials. The group focuses on the development of new technologies for the conversion of lignocellulosic biomass into biofuels and bioproducts.
Catalysis & Reaction Engineering Research Group (CRERG): This group conducts research on the development of new catalysts and reactor systems for various chemical reactions. They focus on the design, synthesis, characterization and application of catalysts in different fields such as petrochemical, fine chemical and pharmaceutical industry.
Nano-Green Research Group This group focuses on the development of sustainable, green and environmentally friendly technologies for the production of materials and chemicals. This group conducts research on the development of new nanomaterials and their application in various fields, such as energy storage, water treatment, and environmental protection.
PRESTIGE-Process & Energy Systems Engineering Center This center focuses on the development of new process systems and technologies for the efficient use of energy and natural resources. This center conducts research on the design, optimization, and control of process systems, with a focus on energy efficiency, process intensification, and sustainable production.
Polymer and Composite Materials Group: This group conducts research on the development of new polymer and composite materials, as well as their characterization, processing, and applications. They focus on the design, synthesis, characterization and application of polymer and composite materials in various fields such as aerospace, biomedical, energy and transportation.
Membrane Systems Research Group: This group focuses on the design, fabrication, and characterization of advanced membrane systems for water treatment, desalination, and separation processes. The research team is working on developing new membrane materials, including polymeric, and composite materials, as well as developing new fabrication techniques and modeling tools to optimize the performance of membrane systems.
Microfluidics Research Group (MRG): This group conducts research on the behavior of fluids at the microscale and the design of microfluidic devices for various applications. The group is working on developing new microfabrication techniques and modeling tools to design and optimize microfluidic devices. They also work on developing new materials and methods for controlling and manipulating fluids at the microscale.