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Wastewater Treatment

Wastewater Treatment. CE 326 Principles of Environmental Engineering Prof. Tim Ellis Spring 2008. Wastewater generation. Collection Systems. Separate sewers Combined sewers. Combined sewer overflows.

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Wastewater Treatment

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  1. Wastewater Treatment CE 326 Principles of Environmental Engineering Prof. Tim Ellis Spring 2008

  2. Wastewater generation

  3. Collection Systems • Separate sewers • Combined sewers Combined sewer overflows Photo courtesy of Water Environment Federation Collection Systems Committee –cMOM Subcommittee

  4. Regulations Federal Water Pollution Control Legislation, US Federal Water Pollution Control Act Amendments of 1972(Clean Water Act) Federal Water Pollution Control Act of 1956 Clean Water Act of 1977 Water Quality Act of 1965 Ocean Dumping Ban Act of 1988 Refuse Act of 1899 Clean Water Restoration Act of 1966 Water Quality Act of 1987 Water Pollution Control Act of 1948 Amendments to the FWPCA of 1961 Municipal Wastewater Treatment Construction Grant Amendments of 1981

  5. Wastewater TreatmentProcess steps • Primary sedimentation • Biological Process: Conversion to settleable solids • Secondary sedimentation • Preliminary Treatment Influent Receiving water • Sludge solids to further treatment and disposal • Sludge solids to further treatment and disposal

  6. Four levels of wastewater treatment • P_______________ • Screens • Grit removal • P_______________ • Solids settling • S_______________ • Biological treatment • Settling of biological solids • T______________ • Filtration

  7. Wastewater TreatmentPreliminary Treatment • Screens: • sticks, rocks, logs, shoes, dead animals, etc. • Grit Removal: • grit causes undue wear downstream unit processes

  8. Preliminary Treatment:Screens • Bar Screens • Bar Racks

  9. Preliminary Treatment: grit removal

  10. Secondary Treatment • Biological treatment • Classification of microorganisms by their c______ and e______ source.

  11. Secondary Treatment • H________________ • Utilize organic matter to supply their carbon and energy needs. • These are the predominant organisms in biological wastewater treatment plants, responsible for converting organic pollutants to • carbon dioxide, • water, and • additional heterotrophic biomass.

  12. Secondary Treatment • A________________ • get their energy from an inorganic source and • their carbon from carbon dioxide. • An example of autotrophs in wastewater treatment is nitrifying bacteria. • Nitrifiers use ammonia for energy and carbon dioxide for a carbon source. • End products of nitrification are • nitrate, • water, and • hydrogen ions • additional nitrifying (autotrophic) biomass.

  13. Biological Treatment • Classification of microorganisms by their t__________ e__________ a__________

  14. Terminal electron acceptor • A___________: • microorganisms transfer electrons from the energy source to oxygen, O2. • In the process oxygen and organic matter is converted to carbon dioxide, CO2, and water, H2O. • Oxygen is termed the terminal electron acceptor or TEA.

  15. Terminal electron acceptor • A___________: • microorganisms utilize some other oxidized compound to accept electrons. • In the case of denitrifying microorganisms, nitrate, NO3-, serves as the TEA, as nitrate is converted to nitrogen gas, N2

  16. Terminal electron acceptor • A___________: • utilize CO2 and organic compounds as terminal electron acceptors. • In this process, organic compounds are converted to fermentation products and carbon dioxide. • In anaerobic digestion of wastewater solids, the fermentation products are converted to • methane, • CH4, • and carbon dioxide

  17. Terminal Electron Acceptor (TEA) Examples:

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