The Department of Civil and Environmental Engineering specializes in environmental, geotechnical and structural engineering. Environmental engineering is a multidisciplinary field that integrates the principles of physical, chemical, and biological processes with engineering concepts to design solutions to environmental issues. Master of Environmental Engineering is a graduate degree designed for the pursuit of advanced environmental engineering studies in water and wastewater treatment, physical and chemical processes, biological unit operations, hazardous waste treatment, pollution prevention, and other environmental topics. The program is focused on developing future leaders for the engineering profession and academia. It prepares students for careers as consulting engineers, engineers in industry and government, and researchers at universities and industrial laboratories.
The proposed Master of Environmental Engineering has the following objectives:
- Graduates of our program should work as practicing engineers/professionals.
- Graduates of our program should create practical engineering designs and develop sustainable solutions or research projects that are sensitive to economic and social needs and address environmental, public safety, and sustainability concerns.
- Graduates of our program should actively participate and seek leadership positions in professional societies, other worthy organizations, and their workplaces.
Admission to the program requires a bachelor’s degree in engineering or a similar field. The students should have a good knowledge of inorganic chemistry and general biology and should be proficient in physics. Applicants holding non-engineering degrees are considered for admission, but depending on their background, some students may need to fulfill pre-requisites or take engineering or math courses such as fluid dynamics, differential equations, thermodynamics, or mechanics.
The Master of Environmental Engineering, like all the graduate engineering degrees in the College of Engineering and Science, may be completed through either a thesis or a non-thesis option.
Students wishing to continue in a doctoral program should see the description of Doctor of Engineering in Civil/Environmental engineering. For more information on the Doctor of Engineering in Civil and Environmental Engineering, click here.
Traditional Master vs. 5 year Bachelor/Master
Students may enter the Master program one of two ways: Traditional (for new Master students or UDM undergrad students who did not qualify for the 5-year Bachelor/Master program) and 5-year Bachelor/Master (for UDM undergrad students).
Traditional Master Program
New Master students or UDM undergrad students who did not qualify for the 5-year Bachelor/Master program may apply for graduate school either online or by completing a written application. Typical (but not absolute) minimum requirements include an undergraduate GPA of 3.0 and a Bachelor degree in Civil Engineering or closely related discipline. Although the Graduate Record Exam (GRE) and Test of English as a Foreign Language (if applicable) are not required as part of the application, they can be useful in facilitating the admission process.
5-year Bachelor/Master Program
New UDM undergrad students and senior Civil Engineering undergraduate students that are within two to three terms of graduating, with a GPA of 3.25 or better, and who will finish their undergraduate program in four years, may apply for the 5-year Bachelor/Master program. If accepted in the 5-year Bachelor/Master program, students can receive up to nine transfer credits to double-count towards their Bachelor and Master programs.
For more information on the 5-year Bachelor/Master program, click here.
The Master of Environmental Engineering may be completed by a thesis or non-thesis option. The thesis option includes 24 semester-credit hours of course work and 6 semester-credit hours of thesis effort for a total of 30 semester-credit hours. The thesis is a research project conducted under the supervision of a faculty member and is typically spread across two semesters. It represents an original research contribution to the field and includes a presentation (defense) of the work conducted. After a final formal presentation to the College faculty and students, a properly formatted and approved written report must be submitted.
The non-thesis option consists of 30 semester-credit hours of course work chosen according to the course requirements listed below. All courses are 3 credit-hours except when noted otherwise.
|Foundation courses (12 credits)
|CIVE 5500||Water and Waste-Water Engineering||3 cr.|
|CIVE 5780||Physicochemical Unit Operations||3 cr.|
|CIVE 5840||Environmental Chemistry||3 cr.|
|CIVE 5860||Environmental Microbiology||3 cr.|
Environmental Electives (12 credits)
|CIVE 5530||Applied Hydraulics and Hydrology||3 cr.|
|CIVE 5866||Groundwater||3 cr.|
|CIVE 5868||Environmental Engineering Graduate Capstone||3 cr.|
|CIVE 5800||Biological Unit Operations||3 cr.|
|CIVE 5862||Soil Remediation||3 cr.|
|CIVE 5880||Solid Waste||3 cr.|
|CIVE 5820||Hazardous Waste||3 cr.|
|CIVE 5480||Advanced Soil Mechanics||3 cr.|
|CIVE 5630||Environmental Risk Analysis and Design||3 cr.|
|CIVE 5722||Engineering Geology||3 cr.|
|CIVE 5850||Project Management and Costing||3 cr.|
|CIVE 5864||Landfill Design||3 cr.|
|CIVE 5890||Design of Earth Retention||3 cr.|
|CIVE 5910||Geographical Information Systems||3 cr.|
|MENG 5810||Alternative Energy Systems||3 cr.|
|ENT 5000||Interdisciplinary Design Entrepreneurship and Service||3 cr.|
|ENGR 5020||Design of Experiments||3 cr.|
|ENGR 5300||Advanced Engineering Mathematics||3 cr.|
|CIVE 5990||Civil Engineering Master's Thesis||6 cr.|
|CHM 5020||Chemical Information & Safety||1 cr.|
|CHM 5380||Recent Advances in Chemistry||3 cr.|
|CHM 6010||Special Topics in Chemistry||3 cr.|
|Any course in CIVE, ENGR, or EMGT|