1. Environmental Science: Toward a Sustainable Future �Richard T. Wright Water Pollution and Its Prevention
PPT by Clark E. Adams
2. Water Pollution and Its Prevention Water pollution
Eutrophication
Sewage management and treatment
Public policy
3. Pollution Pollution: “the presence of a substance in the environment that because of its chemical composition or quantity prevents the functioning of natural processes and produces undesirable environmental and health effects.”
4. Water Pollution Pollution essentials
Water pollution: sources, types, criteria
6. Pollution Categories Air
Particulates
Acid-forming compounds
Photochemical smog
CO2
CFCs
7. Pollution Categories Water and land
Nutrient oversupply
Solid wastes
Toxic chemicals
Pesticides/herbicides
Nuclear waste
8. Water Pollution Source �
9. Water Pollution Types Pathogens
Organic Wastes
Chemical
Sediments
Nutrients
10. Pathogens Carried by Sewage Disease-causing agents (Table 17.1)
Safety measures
Purification of public water supply
Sanitary collection/treatment of sewage
Sanitary practices when processing food
12. Organic Wastes Dissolved oxygen (DO) in the water is depleted during decomposition of organic wastes.
Water quality test
Biochemical oxygen demand (BOD): measure of the amount of organic material.
13. Testing Water for Sewage
14. Chemical Pollutants Inorganic chemicals
Heavy metals, acids, road salts
Organic chemicals
Petroleum, pesticides, detergents
15. Effect of Sediments on Stream Ecology Loss of hiding/resting places for small fish
Attached aquatic organisms scoured from the rocks and sand
Poor light penetration
17. Eutrophication Different kinds of aquatic plants
The impact of nutrient enrichment
Combating eutrophication
18. Different Kinds of Aquatic Plants Benthic plants
Emergent vegetation
Submerged aquatic vegetation (SAV)
19. Different Kinds of Aquatic Plants Phytoplankton
Green filamentous and single cell
Blue-green single cell
Diatoms single cell
21. The Impacts of Nutrient Enrichment Oligotrophic: nutrient-poor water
Eutrophic: nutrient-rich water
23. Eutrophication As nutrients are added from pollution, an oligotrophic condition rapidly becomes eutrophic.
24. Eutrophic or Oligotrophic? High dissolved O2
Deep light penetration
High phytoplankton
25. Eutrophic or Oligotrophic? Turbid waters
High species diversity
Good recreational qualities
High detritus decomposition
26. Eutrophic or Oligotrophic? Low bacteria decomposition
Benthic plants
Warm water
High nutrient concentration
BOD
High sediments
27. Natural and Cultural Eutrophication Natural eutrophication
aquatic succession
occurs over several hundreds of years
Cultural eutrophication
driven by human activities
occurs rapidly
28. Combating Eutrophication Attack the symptoms
Chemical treatment
Aeration
Harvesting aquatic weeds
Drawing water down
29. Combating Eutrophication Getting at root cause
Controlling point sources
Controlling nonpoint sources
30. Controlling Point Sources Ban phosphate detergents
Sewage-treatment improvements
31. Controlling Nonpoint Sources Difficult to address runoff pollutants
Urban
Agricultural fields
Deforested woodlands
Overgrazed pastures
32. Controlling Nonpoint Sources Best Management Practices (BMP): Table 17-2
Agriculture
Construction
Urban
33. Collecting Pond for Dairy-Barn Washings
34. Sewage Management and Treatment Development of sewage collection and treatment systems
The pollutants in raw sewage
Removing the pollutants from sewage
Treatment of sludge
Alternative treatment systems
35. Development of Sewage Collection and Treatment Systems Storm drains for collecting runoff from precipitation
Sanitary sewers to receive all the wastewater from sinks, tubs, and toilets
36. Development of Sewage Collection and Treatment Systems Through the 1970s sewage was discharged directly into waterways
Clean Water Act of 1972
37. Pollutants in Raw Sewage 99.9% water to 0.1% waste
Pollutants in sewage are:
Debris and grit
Particulate organic material
Colloidal and dissolved organic material
Dissolved inorganic material
39. Removing Pollutants from Sewage: Match Technology with Function
40. Trickling Filters for Secondary Treatment
41. Trickling Filters for Secondary Treatment
42. Biological Nutrient Removal Activated sludge: 3 zones
Conversion of NH4 to NO3
NO3 converted to N gas and released
PO4 taken up by bacteria and released with excess sludge
44. Sludge Treatment Anaerobic digestion
Composting
Pasteurization
46. Alternative Treatment Systems Individual septic systems
Wastewater effluent irrigation
Reconstructed wetland systems
Beaumont, TX
The waterless toilet
47. Dewatering Treated Sludge
48. Aerobic digestion of solids in septic tank
Flow of liquids into drain field for evaporation, infiltration, or irrigation Septic Tank Treatment
49. Public Policy What was the legislative milestone in protecting natural waters and water supplies for each of the acts listed in Table 17-3?
50. End of Chapter 17
