CEE 451 Water and Waste Water Treatment
CEE 451: Water and Waste Water Treatment (Required for a BSEnvE degree)

Discussion of water quality constituents and introduction to the design and operation of water and wastewater treatment facilities. Lecture 3 hours; 3 credits.
CEE 330 (Hydromechanics)
CEE 350 (Environmental Pollution and Control) WATER SUPPLY and POLLUTION CONTROL (6th edition), by Warren Viessman, Jr. and Mark J. Hammer, Addison Wesley Longman, Inc., 1998

Handouts: Are provided, on occasion, as supplemental reading material. Students successfully completing this course will be able to apply basic understandings of physical, chemical, and biological phenomena to the successful design of the normal unit operations and processes found in water and wastewater treatment plants (as generally listed in the "topics covered" section below).
  1. Class Objectives, Organization, Introduction (2 hours)
  2. Systems for Treating Wastewater and Water (2 hours)
  3. Physical Processes: Flow, Screens, Reactors (2 hours)
  4. Mixing and Flocculation (4 hours)
  5. Sedimentation (4 hours)
  6. Filtration including membrane (5 hours)
  7. Chemical Processes: Coagulation (2 hours)
  8. Softening (2 hours)
  9. Iron and Manganese Removal (2 hours)
  10. Disinfection (3 hours)
  11. Biological Processes:Microorganisms and Growth (2 hours)
  12. Attached Growth Processes (3 hours)
  13. Suspended Growth Processes (5 hours)
  14. On-Site/Small Systems (2 hours)
  15. Sludge Processing/Disposal: Physical (2 hours)
  16. Biological (3 hours)
Two 75-minute lecture sessions per week. Spreadsheets and math packages as students find appropriate. None College-level mathematics and basic sciences: 0 credits Engineering topics: 3 credits General education: 0 credits This course will enhance the student's

  1. ability to apply knowledge in mathematics, physics, chemistry, biology, fluid mechanics and engineering science to areas of the environmental/civil engineering design problems,
  2. ability to design and conduct experiments and to critically analyze and interpret data,
  3. ability to develop design criteria to meet desired needs and to design an environmental engineering system, component, or a process satisfying these criteria,
  4. ability to identify and formulate an engineering problem, to collect and analyze relevant data, and to develop a solution,
  5. ability to understand the impact of engineering solutions in a societal and global context,
  6. knowledge of current issues and awareness of emerging technologies,
  7. ability to use modern engineering techniques, skills, and tools including computer-based tools for environmental/civil engineering analysis and design,
  8. knowledge of fundamentals of environmental system modeling and environmental chemistry,
  9. proficiency in water supply and resources and wastewater management,
  10. understanding of fundamental concepts of waste minimization and pollution prevention,
  11. understanding of the roles of public institutions and private organizations in environmental management,
  12. ability to apply environmental systems and process modeling techniques.
William A. Drewry <wdrewry@odu.edu> May 30, 2003