1. Chapter 11: Drinking Water and Wastewater Treatment
Historical Perspective
Federal Protection of Drinking Water
Treatment Process
Wastewater

2. Drinking Water: Historical Perspective
The Greeks and Romans recognized that poor water quality caused disease and death
Bathing once or twice a year was “healthy”
During Middle Ages conditions deteriorated
Sand filters became common in 1700s in France
Chlorination was introduced in 1909 in NJ.

3. Potable Water Water used for drinking, cooking, and washing
Requires filtering, disinfection, desalinization
Groundwater has natural filtration, may need disinfection
New York City does not filter suface water because it is from forested areas.
Reverse osmosis is needed to remove salts.

4. Calcutta, India, during rainy season

5. London Water Works (Thames River)

6. China

7. Water Quality Concerns
Pathogens
Bacteria (E. coli, fecal strep, cholera)
Viruses (polio, hepatitus)
Protozoa (Giardia)
Dysentary (Amoeba and Shigella)
Emerging Contaminants
Endocrine disruptors (contraceptives)
Antibiotic resistant pathogens, pharmaceuticals
Metals (lead, arsenic), Organics (gasoline, herbicides)

8. Federal Protection
1914: U.S. Treasury established a limit of 2 coliforms per 100 mL for drinking water
1942: U.S. Public Health Service standardized drinking water standards
1948: Federal Pollution Control Act
1974: Safe Drinking Water Act
1986: Wellhead Protection Program
1996: Source Water Assessment and Protection

9. Figure This intake structure for the Mount Werner Water Filtration Plant is located near the mouth of Fish Creek Canyon above Steamboat Springs, Colorado.

10. Drinking Water Standards, 2004
Copper (liver and kidney damage) 1.3 mg/L
Fluoride (bone disease) 4.0 mg/L
Nitrate (Blue Baby syndrome) 10 mg/L
Nitrite (same) 1 mg/L
Dioxin (cancer) No detectible
Xylenes (nervous system damage) 10 mg/L
Atrazine (Cardiovascular damage) mg/L

11. Figure Raw water from the Mississippi River is pumped to the Carrollton Water Purification Plant, one of two such plants that serve the city of New Orleans.

12. Drinking Water Treatment
Watershed and wellhead protection: prevents contamination
Diversion, storage, and intake
Flocculation/coagulation => settling
Filtration
Fluoridation
Disinfection: Cl2, O3, UV, chloramines
Distribution: storage and pressure

14. Figure The water tower at Clarkson, Nebraska, is located on a hill in the farming community of 700 residents in eastern Nebraska.

15. Figure 11.5 Water intake clogged with Zebra Mussels.

16. Flouride and Tooth Decay
Flouride is added to strengthen teeth and bones
Many communities add F to improve teeth
Dentists can tell whether you grew up on city water or not
Adding too much causes brittle bones

17. Lead in Drinking Water Sources: lead solder and pipes
Problem: behavior problems and learning disabilities

18. Drinking Water from Wells
City wells are routinely tested
Private water wells are seldom tested
Sources of contamination include wastewater, landfills, junkyards

19. Leaking Underground Storage Tanks

20. NAPL: Non-Aqueous Phase Liquids
DNAPL: Dense NAPL (dry cleaners, industrial)
LNAPL: Light NAPL (gasoline, diesel)

21. Wellhead Protection

22. Arsenic Poisoning

23. Chicago Sanitary and Ship Canal

28. New York Sand Hogs

29. Wastewater: Historical Perspective
A major problem since the earliest cities
Most went down roads to the nearest stream
1370: First underground sewers
1867: First wastewater treatment (London)
1928: First U.S. operation (Fessenden, ND)
1964: First Athens treatment plant

30. Figure The Fessenden, North Dakota, sewage lagoon is famous in the realm of wastewater treatment around the world.

31. Wastewater Treatment Process
Primary Treatment: Remove large debris (sand, stones, garbage)
Secondary Treatment: Break down organic matter by adding oxygen to promote decay
Tricking filter: Water cascades down over coarse materials (stones, balls)
Activated sludge: Large motors churn air into the water
Tertiary Treatment: Nutrient Removal

33. Figure The wastewater treatment process at larger facilities includes numerous steps such as bar screen, grit removal, primary and secondary settling tanks, aeration, flocculation and coagulation, sand filters, and chlorination.

34. Septic Tanks and Leach Fields
Septic tank collects biosolids and breaks them down. Aerobic decay requires oxygen, anaeorobic decay does not. Facultative decay is when both are present.
Leach field takes water that has gone through the septic tank, and is allowed to percolate through the soil

36. Wetlands and Water Treatment
Similar to the original Fessenden plan.
Natural biodegradation and nutrient removal.
Good environment (mixed aerobic and anaerobic) for facultative bacteria.
Provides habitat, increases water storage and prevents overflows during wet weather.

38. CSOs Combined Sewer Overflows
Used to carry sewage to treatment plant during dry weather
Also collects stormwater during wet weather
System is overloaded during big storms, and is routed directly to the river

40. NPDES Permit National Pollution Discharge Elimination System
Used to regulate wastewater discharges
Requires a minimum treatment standard
Dissolved Oxygen, pH, BOD, ammonia, toxicity
These permits get more strict over time as more users need to add to the river

41. Chapter 11: Quiz
1. Describe how large particles are removed during drinking water treatment.
2. Adding ____________ to drinking water helps to prevent cavities.
3. Name one process for disinfection:
4. Name and describe the three steps in wastewater treatment: a. b. c.