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Industrial wastewater treatment

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Nitin Yadav
Nitin Yadav

Industrial wastewater treatment

Engineering
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INDUSTRIAL WASTEWATER TREATMENT Department of Environmental Engineering SCHOOL OF ENGINEERING
The principal objective of industrial wastewater treatment is generally to allow industrial effluents to be disposed of without danger to human health or unacceptable damage to the natural environment. To manage water discharged from homes, businesses, and industries to reduce the threat of water pollution. OBJECTIVE 2
3
Sources of Wastewater 4
Preliminary treatment Primary treatment Secondary treatment Tertiary treatment  Disposal 5 Wastewater Treatment Processes
6
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• The purpose of preliminary treatment is to protect the operation of the wastewater treatment plant. This is achieved by removing from the wastewater any constituents which can clog or damage pumps, or interfere with subsequent treatment processes. • They are designed to: 1) Remove or to reduce in size the large, entrained, suspended or floating solids. 2) Remove heavy inorganic solids such as sand and gravel as well as metal or glass. 3) Remove excessive amounts of oils or greases. 8 Preliminary Treatment Processes
Preliminary treatment process consists of following process- • Screening • Grit chamber • Floatation units • Skimming tanks 9
• These consist of bars usually spaced three-quarter inches to six inches. Those most commonly used provide clear openings of one to two inches. • They are usually set at an angle of 45 to 60 degrees with the vertical. • The racks or screens may be cleaned either manually or by means of automatically operated rakes. 10 Screening
• Wastewater usually contains a relatively large amount of inorganic solids such as sand, cinders and gravel which are collectively called grit • Grit chambers are usually located ahead of pumps or comminuting devices, and if mechanically cleaned, should be preceded by coarse bar rack screens. The detention period is usually between 20 seconds to 1.0 minute. 11 Grit Chamber
• A skimming tank is a chamber so arranged that the floating matter like oil, fat, grease etc., rise and remain on the surface of the waste water. • The chamber is a long trough shaped structure divided up into two or three lateral compartments by vertical baffle walls. • A theoretical detention period of 3 minutes is enough. The floating matter can be either hand or mechanically removed. 12 Skimming Tanks
• The objective of primary treatment is the removal of settle-able organic and inorganic solids. • Approximately 25 to 50% of the incoming biochemical oxygen demand (BOD5), 50 to 70% of the total suspended solids (SS). • It may be considered sufficient treatment if the wastewater is used to irrigate crops that are not consumed by humans or to irrigate orchards, vineyards, and some processed food crops. • Primary sedimentation tanks or clarifiers may be round or rectangular basins, typically 3 to 5 m deep, with hydraulic retention time between 2 and 3 hours. 13 Primary Treatment
• Primary treatment process consists of – a. Sedimentation tank-primary settling tank 14
b. Coagulation-secondary settling tank 15
c. Flocculation 16
Working of Primary Process o Sludge from the primary sedimentation tanks is pumped to the sludge thickener. More settling occurs to concentrate the sludge prior to disposal. o Primary treatment reduces the suspended solids and the B.O.D. of the wastewater. o Measurement and sampling at the inlet structure - a flow meter continuously records the volume of water entering the treatment plant - water samples are taken for determination of suspended solids and B.O.D. o From the primary treatment tanks water is pumped to the trickling filter for secondary treatment. 17
Important Concepts in Primary Treatment • Suspended Solids – the quantity of solid materials floating in the water column • B.O.D. (Biochemical Oxygen Demand) - a measure of the amount of oxygen required to aerobically decompose organic matter in the water • C.O.D (Chemical Oxygen Demand) - value indicates the amount of oxygen which is needed for the oxidation of all organic substances in water. 18
• The objective of secondary treatment is the further treatment of the effluent from primary treatment to remove the residual organics and suspended solids. • secondary treatment follows primary treatment and involves the removal of biodegradable dissolved and colloidal organic matter using aerobic biological treatment processes. • High-rate biological processes are characterized by relatively small reactor volumes and high concentrations of microorganisms compared with low rate processes. • The biological solids removed during secondary sedimentation, called secondary or biological sludge, are normally combined with primary sludge for sludge processing. 19 Secondary Treatment
Common high-rate processes includes - • Trickling filters or bio filters • Rotating biological contactors (RBC). 20
Trickling Filters • A trickling filter or bio filter consists of a basin or tower filled with support media such as stones, plastic shapes, or wooden slats. • Wastewater is applied intermittently, or sometimes continuously, over the media. Microorganisms become attached to the media and form a biological layer or fixed film. • Wastewater is applied intermittently, or sometimes continuously, over the media. Microorganisms become attached to the media and form a biological layer or fixed film. • Forced air can also be supplied by blowers but this is rarely necessary. The thickness of the biofilm increases as new organisms grow. Periodically, portions of the film 'slough off the media. • The sloughed material is separated from the liquid in a secondary clarifier and discharged to sludge processing. 21
22
Rotating biological contactors (RBC) • Rotating biological contactors (RBCs) are fixed-film reactors similar to bio filters in that organisms are attached to support media. • In the case of the RBC, the support media are slowly rotating discs that are partially submerged in flowing wastewater in the reactor. Oxygen is supplied to the attached biofilm from the air when the film is out of the water. • Sloughed pieces of biofilm are removed in the same manner described for bio filters. 23
• Tertiary and/or advanced wastewater treatment is employed when specific wastewater constituents which cannot be removed by secondary treatment must be removed. • Individual treatment processes are necessary to remove nitrogen, phosphorus, additional suspended solids, refractory organics, heavy metals and dissolved solids. • Tertiary Treatment Process are- - De-chlorination and disinfection - Reverse Osmosis - Ion Exchange 24 Tertiary Treatment (Optional)
 Disposal of wastewater and storm-water should preferably be considered only when reuse options are not feasible. Ultimate disposal of wastewater is either onto land or water (river, lake, ocean).  The general problem areas that are of concern in final disposal are pathogenic microorganisms (viruses, etc.), heavy metals and the presence of biologically resistant organic compounds, such as pesticides or insecticides which can find their way into water supplies.  There are three methods by which final disposal of wastewater - Surface Disposal, Subsurface Disposal, Disposal by Dilution 25 Sewage Disposal
Surface Disposal • Generally this is disposal by irrigation. This involves spreading the wastewater over the surface of the ground, generally by irrigation ditches. • This method is largely restricted to small volumes of wastewater from a relatively small population where land area is available and where nuisance problems will not be created. • It has its best use in arid or semi-arid areas where the moisture added to the soil is of special value. 26
Subsurface Disposal • By this method wastewater is introduced into the ground below its surface through pits or tile fields. • It is commonly used for disposal of settled wastewater from residences or institutions where there is only a limited volume of wastewater. • Little application for large scale use in municipalities. 27
Disposal by Dilution • Disposal by dilution is the simple method of discharging wastewater into a surface water such as a river, lake, ocean, estuaries or wetlands. • The degree of pollution depends on the dilution, volume and composition of the wastewater as compared to the volume and quality of the water with which it is mixed. • However, in spite of the continued aerobic status of the receiving water, microbial pollution remains a health menace and floating solids in the wastewater, if not previously removed, are visible evidence of the pollution. • The presence of excessive amounts of nutrients can stimulate plant and algae growth in the receiving waters. This is of special concern in inland, enclosed waters such as lakes and ponds 28
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Industrial wastewater treatment

  • 1. INDUSTRIAL WASTEWATER TREATMENT Department of Environmental Engineering SCHOOL OF ENGINEERING
  • 2. The principal objective of industrial wastewater treatment is generally to allow industrial effluents to be disposed of without danger to human health or unacceptable damage to the natural environment. To manage water discharged from homes, businesses, and industries to reduce the threat of water pollution. OBJECTIVE 2
  • 3. 3
  • 5. Preliminary treatment Primary treatment Secondary treatment Tertiary treatment  Disposal 5 Wastewater Treatment Processes
  • 6. 6
  • 7. 7
  • 8. • The purpose of preliminary treatment is to protect the operation of the wastewater treatment plant. This is achieved by removing from the wastewater any constituents which can clog or damage pumps, or interfere with subsequent treatment processes. • They are designed to: 1) Remove or to reduce in size the large, entrained, suspended or floating solids. 2) Remove heavy inorganic solids such as sand and gravel as well as metal or glass. 3) Remove excessive amounts of oils or greases. 8 Preliminary Treatment Processes
  • 9. Preliminary treatment process consists of following process- • Screening • Grit chamber • Floatation units • Skimming tanks 9
  • 10. • These consist of bars usually spaced three-quarter inches to six inches. Those most commonly used provide clear openings of one to two inches. • They are usually set at an angle of 45 to 60 degrees with the vertical. • The racks or screens may be cleaned either manually or by means of automatically operated rakes. 10 Screening
  • 11. • Wastewater usually contains a relatively large amount of inorganic solids such as sand, cinders and gravel which are collectively called grit • Grit chambers are usually located ahead of pumps or comminuting devices, and if mechanically cleaned, should be preceded by coarse bar rack screens. The detention period is usually between 20 seconds to 1.0 minute. 11 Grit Chamber
  • 12. • A skimming tank is a chamber so arranged that the floating matter like oil, fat, grease etc., rise and remain on the surface of the waste water. • The chamber is a long trough shaped structure divided up into two or three lateral compartments by vertical baffle walls. • A theoretical detention period of 3 minutes is enough. The floating matter can be either hand or mechanically removed. 12 Skimming Tanks
  • 13. • The objective of primary treatment is the removal of settle-able organic and inorganic solids. • Approximately 25 to 50% of the incoming biochemical oxygen demand (BOD5), 50 to 70% of the total suspended solids (SS). • It may be considered sufficient treatment if the wastewater is used to irrigate crops that are not consumed by humans or to irrigate orchards, vineyards, and some processed food crops. • Primary sedimentation tanks or clarifiers may be round or rectangular basins, typically 3 to 5 m deep, with hydraulic retention time between 2 and 3 hours. 13 Primary Treatment
  • 14. • Primary treatment process consists of – a. Sedimentation tank-primary settling tank 14
  • 17. Working of Primary Process o Sludge from the primary sedimentation tanks is pumped to the sludge thickener. More settling occurs to concentrate the sludge prior to disposal. o Primary treatment reduces the suspended solids and the B.O.D. of the wastewater. o Measurement and sampling at the inlet structure - a flow meter continuously records the volume of water entering the treatment plant - water samples are taken for determination of suspended solids and B.O.D. o From the primary treatment tanks water is pumped to the trickling filter for secondary treatment. 17
  • 18. Important Concepts in Primary Treatment • Suspended Solids – the quantity of solid materials floating in the water column • B.O.D. (Biochemical Oxygen Demand) - a measure of the amount of oxygen required to aerobically decompose organic matter in the water • C.O.D (Chemical Oxygen Demand) - value indicates the amount of oxygen which is needed for the oxidation of all organic substances in water. 18
  • 19. • The objective of secondary treatment is the further treatment of the effluent from primary treatment to remove the residual organics and suspended solids. • secondary treatment follows primary treatment and involves the removal of biodegradable dissolved and colloidal organic matter using aerobic biological treatment processes. • High-rate biological processes are characterized by relatively small reactor volumes and high concentrations of microorganisms compared with low rate processes. • The biological solids removed during secondary sedimentation, called secondary or biological sludge, are normally combined with primary sludge for sludge processing. 19 Secondary Treatment
  • 20. Common high-rate processes includes - • Trickling filters or bio filters • Rotating biological contactors (RBC). 20
  • 21. Trickling Filters • A trickling filter or bio filter consists of a basin or tower filled with support media such as stones, plastic shapes, or wooden slats. • Wastewater is applied intermittently, or sometimes continuously, over the media. Microorganisms become attached to the media and form a biological layer or fixed film. • Wastewater is applied intermittently, or sometimes continuously, over the media. Microorganisms become attached to the media and form a biological layer or fixed film. • Forced air can also be supplied by blowers but this is rarely necessary. The thickness of the biofilm increases as new organisms grow. Periodically, portions of the film 'slough off the media. • The sloughed material is separated from the liquid in a secondary clarifier and discharged to sludge processing. 21
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  • 23. Rotating biological contactors (RBC) • Rotating biological contactors (RBCs) are fixed-film reactors similar to bio filters in that organisms are attached to support media. • In the case of the RBC, the support media are slowly rotating discs that are partially submerged in flowing wastewater in the reactor. Oxygen is supplied to the attached biofilm from the air when the film is out of the water. • Sloughed pieces of biofilm are removed in the same manner described for bio filters. 23
  • 24. • Tertiary and/or advanced wastewater treatment is employed when specific wastewater constituents which cannot be removed by secondary treatment must be removed. • Individual treatment processes are necessary to remove nitrogen, phosphorus, additional suspended solids, refractory organics, heavy metals and dissolved solids. • Tertiary Treatment Process are- - De-chlorination and disinfection - Reverse Osmosis - Ion Exchange 24 Tertiary Treatment (Optional)
  • 25.  Disposal of wastewater and storm-water should preferably be considered only when reuse options are not feasible. Ultimate disposal of wastewater is either onto land or water (river, lake, ocean).  The general problem areas that are of concern in final disposal are pathogenic microorganisms (viruses, etc.), heavy metals and the presence of biologically resistant organic compounds, such as pesticides or insecticides which can find their way into water supplies.  There are three methods by which final disposal of wastewater - Surface Disposal, Subsurface Disposal, Disposal by Dilution 25 Sewage Disposal
  • 26. Surface Disposal • Generally this is disposal by irrigation. This involves spreading the wastewater over the surface of the ground, generally by irrigation ditches. • This method is largely restricted to small volumes of wastewater from a relatively small population where land area is available and where nuisance problems will not be created. • It has its best use in arid or semi-arid areas where the moisture added to the soil is of special value. 26
  • 27. Subsurface Disposal • By this method wastewater is introduced into the ground below its surface through pits or tile fields. • It is commonly used for disposal of settled wastewater from residences or institutions where there is only a limited volume of wastewater. • Little application for large scale use in municipalities. 27
  • 28. Disposal by Dilution • Disposal by dilution is the simple method of discharging wastewater into a surface water such as a river, lake, ocean, estuaries or wetlands. • The degree of pollution depends on the dilution, volume and composition of the wastewater as compared to the volume and quality of the water with which it is mixed. • However, in spite of the continued aerobic status of the receiving water, microbial pollution remains a health menace and floating solids in the wastewater, if not previously removed, are visible evidence of the pollution. • The presence of excessive amounts of nutrients can stimulate plant and algae growth in the receiving waters. This is of special concern in inland, enclosed waters such as lakes and ponds 28
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