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The Master of Science in Environmental Engineering (M.S. EnvE) program at the University of Nebraska-Lincoln is a multidisciplinary, interdepartmental program jointly administered by the Departments of Civil Engineering and Biological Systems Engineering.
The M.S. EnvE carries the designation of Environmental Engineering on the program name, diploma and transcript. The program resides within UNL Graduate Programs and is located on the college's Lincoln and Omaha campuses.
Environmental Engineers focus on developing innovative solutions to complex problems involving physical, chemical, biological and ecological components. Environmental engineering training offers opportunities to work in any aspect of environmental protection. The types of jobs held by environmental engineers are very diverse. Potential employers of environmental engineers include private consulting engineering firms, universities, private research firms, testing laboratories, government agencies (federal, state and local), or other major corporations and private businesses.
After graduation from UNL, M.S. EnvE graduates begin their careers with consulting firms, regulatory agencies, and industry. About half of UNL M.S. EnvE graduates accept jobs in Nebraska and another half begin employment elsewhere in the U.S.The UNL Environmental Engineering faculty offers a balance of expertise in covering major areas of Environmental Engineering. The fields in which students may focus their studies include:
- Water supply
- Wastewater treatment
- Hazardous waste management
- Non-point source pollution control
- Agricultural waste management
Examples of current and recent Environmental Engineering graduate student projects include:
- Small community treatment systems
- Wastewater treatment
- Hazardous waste remediation sites
- Groundwater management
- Water quality
- Pollution prevention / Sustainability
- Air pollution modeling for animal production facilities,
- Controlling odors from animal waste lagoons.
Undergraduate studies in Environmental Engineering at UNL are embedded in the broader degree programs of Civil Engineering and Biological Systems Engineering. These degree programs offer undergraduates the opportunity to emphasize surface and groundwater quality, municipal and industrial wastewater treatment, environmental risk assessment, solid and hazardous waste management, food and agricultural waste management, and air pollution modeling depending on their interest and major.
Working with their advisers, students are expected to formulate coherent programs of research and study as they work toward a degree under Option I (thesis) or Option II (no thesis). Any student receiving support as a teaching and/or research assistant from the program is expected to enroll under Option I and complete a thesis.
All students are required to complete:
CIVE 828 | (Environmental Engineering Chemistry, 3 cr) |
CIVE 829 | (Biological Treatment Processes, 3 cr) |
CIVE 823 | (Physical Chemical Treatment Processes, 3 cr) |
ENVE 990 | (Seminar in Environmental and Water Resources Engineering, 1 cr) |
Students having equivalent courses from a previous degree program may substitute or waive a core course or courses, with the written approval of the M.S. EnvE Graduate Committee.<
Courses (course descriptions are available in the UNL Graduate Studies Bulletin) | |
ENVE 898 | Special Problems in Environmental Engineering |
ENVE 899 | Masters Thesis |
ENVE 990 | Seminar in Environmental and Water Resources Engineering |
ENVE 998 | Special Topics in Environmental Engineering |
Courses offered in the Department of Biological Systems Engineering |
|
AGEN 853 | Irrigation and Drainage Systems Engineering |
AGEN 953 | Advanced Irrigation and Drainage Systems Engineering |
AGEN 954 | Hydraulic Modeling of Small Watersheds |
AGEN 955 | Solute Movement in Soils (AGRO 955, CIVE 955) |
BSEN 841 | Animal Waste Management |
BSEN 855 | Nonpoint Source Pollution Control Engineering |
BSEN 941 | Agricultural Waste Management |
BSEN 943 | Bioenvironmental Engineering |
Courses offered in the Department of Chemical & Biomolecular Engineering |
|
CHME 832 | Transport Operations |
CHME 835 | Transport Phenomena |
CHME 842 | Chemical Reactor Engineering and Design |
CHME 845 | Advanced Chemical Engineering Kinetics |
CHME 873 | Biochemical Engineering |
CHME 892 | Air Pollution Assessment and Control |
Courses offered in the Department of Civil Engineering |
|
CIVE 819 | Flow Systems Design |
CIVE 821 | Hazardous Waste Management and Treatment |
CIVE 822 | Pollution Prevention: Principles and Practices |
CIVE 823 | Physical/Chemical Treatment Processes |
CIVE 824 | Solid Waste Management Engineering |
CIVE 826 | Design of Water Treatment Facilities |
CIVE 827 | Design of Wastewater Treatment and Disposal Facilities |
CIVE 828 | Quantitative Methods in Environmental Engineering |
CIVE 829 | Biological Waste Treatment |
CIVE 830 | Fundamentals of Water Quality Modeling |
CIVE 831 | Small Treatment Systems |
CIVE 832 | Bioremediation of Hazardous Wastes |
CIVE 852 | Water Resources Development |
CIVE 854 | Hydraulic Engineering |
CIVE 856 | Surface Water Hydrology |
CIVE 858 | Groundwater Engineering |
CIVE 875 | Water Quality Strategy (AGRO 875) |
CIVE 915 | Water Resources Engineering |
CIVE 916 | Interdisciplinary Seminar in Engineering Economics and Legal Aspects of Water Resources Systems |
CIVE 921 | Advanced Topics in Hazardous Waste Treatment and Remediation |
CIVE 926 | Advanced Topics in Water Treatment |
CIVE 927 | Advanced Topics in Water Treatment |
CIVE 952 | Water Resources Planning |
CIVE 954 | Advanced Hydraulics |
CIVE 955 | Solute Movement in Soils (AGEN 955, AGRO 955) |
CIVE 958 | Groundwater Mechanics |
CIVE 959 | Groundwater Modeling |
- To begin candidacy for an M.S. EnvE, a student must have completed an ABET accredited undergraduate degree in engineering, or have a B.S. in a physical or biological science and have completed specified core course requirements at the undergraduate level.
- The M.S. EnvE Program admits, with a provisional status, students without an engineering background that have exceptional grade point averages, references, and/or professional experience. In addition to the normal requirements for the M.S. degree, such students must take (or have taken elsewhere) several undergraduate level background courses, as detailed below. A non-engineer should expect to devote a longer time to the M.S. degree program than a graduate student with an engineering degree.
- International applicants who have not graduated from an ABET or CAB accredited undergraduate engineering program in the United States or Canada must take the TOEFL and the verbal and quantitative sections of the Graduate Record Exam (GRE). Those international applicants must achieve a TOEFL score of 550 (paper) or 80 (internet) and a minimum equivalent ranking of 75 percent on the quantitative portion of the GRE examination.
- GRE
- Three letters of recommendation (Ph.D. and M.S.)
- Resume or curriculum vitae (Ph.D. and M.S.)
- Statement of purpose (Ph.D. and M.S.)
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- Flexible study schedule
- Experienced teachers
- Certificate upon completion
📘 Recommended for students with an IELTS level of 6.0 or below.
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