The water resources minor broadens the learning experiences and professional opportunities of students in technical disciplines who have an interest in courses related to water treatment, wastewater treatment, hydrology, the environment and society.
Notes about this minor:
The minor is closed to students majoring in civil engineering technology.
Posting of the minor on the student’s academic transcript requires a minimum GPA of 2.0 in the minor.
A study of the principle physical properties of liquids, hydrostatic pressure and forces, buoyancy and flotation, Bernoulli's Law, Conservation of Energy and Mass, and the concept of momentum. These fundamentals are applied in the analysis and design of closed conduit systems, open channel flow, pumps and pump selection and storage facilities. Rainfall runoff relationships and applications to stormwater management are also introduced.
Experimental study of principle physical properties of liquids and major laws of fluid mechanics. Students will conduct several experiments that illustrate the theory and design principles taught in lecture.
Principles of Water and Wastewater Treatment
An introduction to water and wastewater treatment, interpretation of analyzed physical, chemical, and biological aqueous characteristics associated with the design and operation of treatment processes. Fundamental principles and applications of physical, chemical, and biological processes employed in the treatment of drinking water and sanitary wastewater will be covered. Fundamental components and design procedures for gravity sewer systems will be introduced.
Choose one course from group A and one from Group B. A third course may be chosen from either group.
Design of Water & Wastewater Treatment Facilities
Hydraulic, biological, and chemical principles of water and wastewater treatment processes are applied to the design of municipal treatment works. Process, plant design, and construction elements are stressed.
Groundwater movement analysis and engineering design applications. Topics include construction dewatering, groundwater remediation, flow-net analysis, flow analysis to wells and trenches, design of groundwater collection systems, pump selection, and groundwater's interaction with engineered structures. Application of groundwater computer software.
This course focuses on the fundamental design concepts of surface water hydrology and how these concepts are applied to the management of stormwater for municipal and development projects. Topics include rainfall/runoff relationships, groundwater hydrology, hydrographs, soil erosion and sediment control, storm sewer design, and green infrastructure. Practical engineering procedures, using desktop and state-of-the-practice hydraulic and hydrologic software, are introduced to analyze existing conditions and design new solutions.
GIS for CETEMS
This course examines the fundamentals of geographic information systems and their application in the fields of civil engineering and environmental management. It emphasizes the application of GIS technology to problems such as, but not limited to, water resource management, asset management, environmental impact assessments, urban planning, and transportation. This course is restricted to 4th year CETEMS student or department permission.
This course introduces students to federal, state, and local environmental policies and the various policy paths leading to their establishment. Students will understand how societal values inform the content of environmental policies and the impacts, in turn, of these policies on society. In addition, the class will explore how environmental economics informs the new tools of environmental policy. The course covers a range of environmental policies at the U.S. and international levels addressing problems such as air and water pollution, climate change, energy use, and community sustainability.