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Environmental Microbiology: Treatment of Water, Waste and Polluted Habitats

Environmental Microbiology: Treatment of Water, Waste and Polluted Habitats. Chapter 31. Microbiology of Sewage Treatment. Wastewater or sewage composed of all materials of household plumbing system Municipal wastewater includes industrial waste Most obvious reason for sewage treatment

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Environmental Microbiology: Treatment of Water, Waste and Polluted Habitats

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  1. Environmental Microbiology:Treatment of Water, Waste and Polluted Habitats Chapter 31

  2. Microbiology of Sewage Treatment • Wastewater or sewage composed of all materials of household plumbing system • Municipal wastewater includes industrial waste • Most obvious reason for sewage treatment • Eliminate potential pathogens in sewage • Less obvious problem • Impact of high nutrient content in sewage • Nutrients quickly utilized by aquatic organism • Effective treatment decreases level of organic compounds and eliminates pathogens and toxic materials

  3. Microbiology of Sewage Treatment • Biochemical oxygen demand (BOD) is amount of oxygen required for microbial decomposition of organic matter in sample • BOD is roughly proportional to amount of degradable organic material • BOD of raw sewage is approximately 300 to 400 mg/liter of sewage

  4. Microbiology of Sewage Treatment • Large scale wastewater treatment plants in U.S. use a two series process • Primary treatment • Secondary treatment • Once treated liquid portion termed effluent is discharged in body of water • Solid portion termed sludge is further treated in anaerobic digester

  5. Microbiology of Sewage Treatment

  6. Microbiology of Sewage Treatment • Primary treatment • Physical process designed to remove materials that settle out of liquid • Treatment removes nearly 50% of solids and 25% of BOD • Sewage passes through series of screens to remove large objects • Skimmers remove scum and floating debris • Sewage allowed to settle in sedimentation tank • Facilitates removal of solids • Sludge is removed after settling is complete • Primary sewage that remains is sent for secondary treatment

  7. Microbiology of Sewage Treatment • Secondary treatment • Chiefly biological process • Designed to convert suspended solids to inorganic compounds and cell mass for removal • Eliminates nearly 95% of remaining BOD • Microbial growth encouraged during secondary treatment • Aerobic organisms degrade organic material to carbon dioxide and water

  8. Microbiology of Sewage Treatment • Secondary treatment • Methods used in secondary treatment include • Activated sludge • Trickling filter • Lagoons • Artificial wetlands

  9. Microbiology of Sewage Treatment • Activated sludge • System employs mixed aerobic microbes • Organisms grow in biofilms called flocs • Large number of organisms inoculated into sewage via addition of small amount of leftover sludge • Oxygen is supplied and organic matter converted to biomass or waste product • Sewage is sent to sedimentation • Flocs settle out and resulting sludge is removed • Portion of sludge is used for next “batch” • Complication of activated sludge is bulking • Interference of filamentous bacteria in sedimentation process

  10. Microbiology of Sewage Treatment • Trickling filters • Frequently used in smaller treatment plants • Rotating arm sprays sewage over bed of course gravel and rocks • Rocks and gravel become coated with biofilms • Consists of heterogeneous mix of bacteria, fungi, algae, protozoa and nematodes • Organisms aerobically degrade organic material

  11. Microbiology of Sewage Treatment • Lagoons • Sewage channeled into shallow ponds or lagoons • Remains there for period of time • Algae and cyanobacteria grow on surface to provide oxygen • Enable aerobic organisms to degrade sewage

  12. Microbiology of Sewage Treatment • Artificial wetlands • Employ same principles as lagoons • More advanced design • Offers means to treat wastewater • Also provides habitat for birds and other wildlife

  13. Microbiology of Sewage Treatment • Advanced treatment • Encompasses any purification process beyond secondary treatment • Includes tertiary treatment • May involve physical, chemical or biological processes • Tends to be expensive • Not common practice in the past • Designed to remove ammonia, nitrates and phosphates • Ammonia is removed through ammonia stripping • Liberates gaseous ammonia from water • Nitrates removed using denitrifying bacteria • Reduces nitrates to nitrogen gas • Phosphates removed through chemical precipitation

  14. Microbiology of Sewage Treatment • Disinfection • Before discharge effluent is disinfected with one or a combination of the following • Chlorine • Ozone • Ultra violet light • These treatments decrease numbers of microorganisms and viruses

  15. Microbiology of Sewage Treatment • Anaerobic digestion • Within anaerobic digester organisms act on solids removed through sedimentation • Varied populations act sequentially • Convert organism matter to methane • Organic matter  organic acids, CO2, H2 • organic acids  acetate, CO2, H2 • acetate, CO2, H2  methane • Many treatment plants use generated methane to power equipment • Remaining sludge dehydrated to form stabilized sludge • Nutrient rich product • Can be incinerated, placed in landfill or used to improve soil

  16. Microbiology of Sewage Treatment • Individual wastewater treatment systems • Rural areas rely on septic tanks for sewage disposal • Wastewater collected in large tank • Solid material settles to bottom • Degraded by organisms • Fluid overflow has high BOD • Must be passed through drainage field • Field designed for oxidation of organic matter

  17. Drinking Water Treatment and Testing • Large cities generally obtain drinking water from surface waters • Lakes or rivers • Surface waters may act as receiving waters for sewage effluent of cities upstream • Smaller communities often use groundwater as drinking water source • Occurs in aquifers contained in layers of rock, sand and gravel • Often protected from contamination due to depth

  18. Drinking Water Treatment and Testing • Water treatment process • Treatment of metropolitan water supplies designed to provide safe water • Treatment process • Water flows into reservoir for period • Allows particulate to settle • Water transferred to tank and mixed with flocculent chemical • Causes suspended material to coagulate and sink • Water filtered to remove microorganisms • Organic chemicals can be removed by additional filtration • Through activated charcoal which absorbs dissolved chemicals • Water treated with chlorine or other disinfectant as final step

  19. Water Treatment Process

  20. Drinking Water Treatment and Testing • Water testing • Primary concern regarding safety of drinking water is possibility of gastrointestinal pathogens • Not feasible to test for all gastrointestinal pathogens • Test for indicator organisms • Routinely found in feces • Total coliforms most common group as indicator organism in U.S. • Fecal coliform is subset of total coliforms • More likely to be of intestinal origin • Most common fecal coliform is E. coli

  21. Drinking Water Treatment and Testing • Water testing • ONPG/MUG • Water sample added to medium containing OPNG and MUG • Coliforms hydrolyze OPNG and turns media yellow • E. coli hydrolyzes MUG generating fluorescent compound

  22. Drinking Water Treatment and Testing • Water testing • Presence/absence test • Water added to lactose medium with vial as gas trap • If gas produced sample is tested for presence of fecal coliforms • Most probable numbers method • Statistical assay • Employs successive dilution of water sample • Put in broth similar to presence/absence test • Positive MPN test tested to confirm coliforms

  23. Drinking Water Treatment and Testing • Water testing • Sample is passed through membrane filter that retains bacteria • Concentrates bacteria in known volume of water • Bacteria then plated on lactose-containing media • Filter removed and placed on agar surface

  24. Microbiology of Solid Waste Treatment • Sanitary landfills • Widely used to dispose of non-hazardous solid waste • Manner that minimizes damage to human health and environment • Must be located away from sensitive areas • Site is excavated, lined with plastic or membrane over clay • Minimize leaching • Waste is compacted and covered with layer of soil • This occurs daily • Landfills no longer in use covered with soil and plants • Can be used for recreation and construction • Methane and other gases are vented • Methane is burned or recovered for use

  25. Microbiology of Solid Waste Treatment • Commercial and backyard composting • Alternative to landfills • Backyard composting involves mixing debris • Waste is reduced by 2/3 in matter of months • Black organic material can be used in garden beds • Compost pile usually starts with supply of organic material • Often some soil and water are added • Inside of pile heats to 55° to 60° C • Pathogens killed, thermophilic organisms unaffected • Aeration of pile via stirring when pile cools • Composting on large scale way to reduce garbage going to landfill • Special machinery used for large scale composting

  26. Industrial and Backyard Composting

  27. Microbiology of Bioremediation • Bioremediation is use of biological agents to degrade pollutants in given environment • Most organic compounds of natural origin can be degraded by one or more species of organism • Synthetic compounds are more likely to be degraded if they are similar to naturally occurring substances • Xenobiotics often persist for long periods of time

  28. Microbiology of Bioremediation • Relatively slight change in chemical composition of pollutants markedly alter biodegradability • 2,4-D and 2,4,5-T • Only difference is additional chlorine atom on 2,4,5-T • 2,4-D disappears within weeks while 2,4,5-T present in environment more than a year • Most herbicides and insecticides are not only toxic but accumulate in wildlife • DDT in fatty tissues of birds as well as interfering with reproductive process • Fragile eggs

  29. Microbiology of Bioremediation • Means of bioremediation • Many factors influence degradation rate of pollutants • Two general strategies • Biostimulation • Enhances growth of indigenous microbes in contaminated site by addition of nutrients • Fertilization of petroleum-degrading organisms • Bioaugmentation • Relies on activities of microorganisms added to contaminated materials • Complement resident flora

  30. Microbiology of Bioremediation • Successful bioremediation may also involve controlling metabolic processes by manipulating availability of oxygen and growth substrates • Some pollutants only degraded when specific substrates are available • Called co-metabolism • Enzyme produced by organism for metabolism also degrades pollutant • Bioremediation may be done in place or off-site • In place generally relies on bioremediation • Off-site process may be performed in bioreactor designed to accelerate microbial process

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