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Performance evaluation of Effluent Treatment Plant of Dairy Industry

IJERA Editor
IJERA Editor

Dairy industry is among the most polluting of the food industries in regard to its large water consumption. Dairy is one of the major industries causing water pollution. Considering the increased milk demand, the dairy industry in India is expected to grow rapidly and have the waste generation and related environmental problems are also assumed increased importance. Poorly treated wastewater with high level of pollutants caused by poor design, operation or treatment systems creates major environmental problems when discharged to the surface land or water. Various operations in a dairy industry may include pasteurization, cream, cheese, milk powder etc. Considering the above stated implications an attempt has been made in the present project to evaluate one of the Effluent Treatment Plant for dairy waste. Samples are collected from three points; Collection tank (CT), primary clarifier (PC) and Secondary clarifier (SC) to evaluate the performance of Effluent Treatment Plant. Parameters analyzed for evaluation of performance of Effluent Treatment Plant are pH, TDS, TSS, COD, and BOD at 200C The pH, TDS, TSS, COD and BOD removal efficiency of Effluent Treatment Plant were 26.14 %, 33.30 %, 93.85 %, 94.19 % and 98.19 % respectively.

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Pratiksinh Chavda Int. Journal of Engineering Research and Applications www.ijera.com ISSN : 2248-9622, Vol. 4, Issue 9( Version 3), September 2014, pp.37-40 www.ijera.com 37|P a g e Performance evaluation of Effluent Treatment Plant of Dairy Industry Pratiksinh Chavda*, Apurva Rana** *(Department of Environmental Engineering, College of Renewable Energy & Environmental Engineering, Sardarkrushinagar Dantiwada Agricultural University, Sardarkrushinagar-385506) ** (Department of Biological and Environmental Science, N.V. Patel College of Pure and Applied Sciences, Sardar Patel University, Vallabhvidyanagar - 388120) ABSTRACT Dairy industry is among the most polluting of the food industries in regard to its large water consumption. Dairy is one of the major industries causing water pollution. Considering the increased milk demand, the dairy industry in India is expected to grow rapidly and have the waste generation and related environmental problems are also assumed increased importance. Poorly treated wastewater with high level of pollutants caused by poor design, operation or treatment systems creates major environmental problems when discharged to the surface land or water. Various operations in a dairy industry may include pasteurization, cream, cheese, milk powder etc. Considering the above stated implications an attempt has been made in the present project to evaluate one of the Effluent Treatment Plant for dairy waste. Samples are collected from three points; Collection tank (CT), primary clarifier (PC) and Secondary clarifier (SC) to evaluate the performance of Effluent Treatment Plant. Parameters analyzed for evaluation of performance of Effluent Treatment Plant are pH, TDS, TSS, COD, and BOD at 200C The pH, TDS, TSS, COD and BOD removal efficiency of Effluent Treatment Plant were 26.14 %, 33.30 %, 93.85 %, 94.19 % and 98.19 % respectively. Keywords–Dairy industry, Effluent treatment, Performance evaluation, Removal efficiency, Wastewater characteristics. I. Introduction Waste water generated in a dairy contains highly putrescible organic constituents. This necessitates prompt and adequate treatment of the waste water before its disposal to the environment. Almost all the organic constituents of dairy waste are easily biodegradable. Hence the wastewater is amenable to biological treatment-either aerobic oranaerobic1.Rapid growth of industries has enhanced the productivity but also resulted in the production and release of toxic substances into the environment, creating health hazards and affected the natural ecosystem making it unbalance. These wastes are potential pollutants when they produce harmful effects on the environment and generally released in the form of solids, liquid effluents and slurries containing a spectrum of organic and inorganic chemicals2.Effluent treatment in industries to meet the discharge standards mentioned by GPCB has always been a great problem for the industrialists. Every industry effluent treatment plant needs to treat the effluent for this purpose in their own industry via effluent treatment plants. Before discharging the treated effluent on to the land or any surface water body the industries should meet the effluent discharge standardnorms3. In order to have proper processes in the ETP, Characterization of waste water, treatability studies and planning of proper units and processes for effluent treatment is very much necessary. In the present study an effort has been made to evaluate one of the ETP provided for the treatment of wastewater generated by dairy industry. The study was limited to the performance evaluation of the ETP Plant of dairy industry. The aim of the present research work was to determine the behavior of various parameters of the dairy industry wastewater. Characterization of wastewater was evaluated in terms of pH, total suspended solids (TSS), total dissolved solids (TDS), Biochemical oxygen demand (BOD) at 200C and Chemical oxygen demand (COD)for the influent & effluent from the selected plants. The performance of the effluent treatment plant was also evaluated & the quality of the reclaimed wastewater was compared with Gujarat Pollution control Board (GPCB) standards to determine its suitability for reuse. II. Materials and Method The source for the collection of wastewater samples throughout the present studies was the Dairy industry. The study was conducted in Banas Dairy, located in Palanpur, Gujarat. The coordinates for the RESEARCH ARTICLE OPEN ACCESS
Pratiksinh Chavda Int. Journal of Engineering Research and Applications www.ijera.com ISSN : 2248-9622, Vol. 4, Issue 9( Version 3), September 2014, pp.37-40 www.ijera.com 38|P a g e project site is 24.10°N and 72.25°E. The duration for this research work was Five months.The methodology involved the collection of samples at the different units of the treatment plant having capacity to treat 400m3/day of waste water. The process in the treatment of industrial effluent may consist of any one or more of the following processes: 1. Equalization 2. Neutralization 3. Physical Treatment 4. Biological Treatment4. The effluent treatment plant consist of Collection tank (CT), Screening chamber, Oil and Grease removal tank,Equalization tank (ET), Neutralization tank (NT), Primary Clarifier (PC), aeration tank (AT) and Secondary clarifier (SC).The systematic flow diagram of ETP is shown in Figure 1. Fig. 1 - flow sheet of ETP of Dairy Industry The wastewater samples were collected using sterile one liter plastic containers. Samples were collected in pre-sterilized bottles from Collection tank (CT), primary clarifier (PC) and Secondary clarifier (SC) for physicochemical analysis (pH, COD, BOD, TSS and TDS). All samples were transported to the laboratory and analyzed within 30 min. All parameters were analyzed in accordance with standard methods of GPCB. III. Results and Discussions Data taken during 5 months of this study are presented (TABLE 1) and discussed. pH:pH of the individual sample was measured immediately after its collection by a pH meter. The pH of the effluent varied from 9.60 to 9.93 before the treatment, whereas the value of pH after physical and biological treatment was found 8.43 and 7.22 respectively. The percentage reduction of 27.25 % was achieved. The finding of the present study are in agreement with GPCB standards (TABLE 2). Total Suspended Solids (TSS): Suspended solid do not mean that they are floating matters and remain on top of water layer. They are under suspension and remain in water sample. Total suspended solids play an important role in water and waste water treatment. Their presence in water sample cause depletion of oxygen level. The TSS content in the effluent varied from 1732 to 1766 mg/l before treatment whereas after physical and biological treatment the values obtained were 1200 and 98 mg/l respectively. The percentage reduction of 94.45% was achieved. Similar result were observed by Chaudhari et al (2010)5. The TSS value in our study was 98 mg/l which were in accordance with the GPCB standards (TABLE 2). TSS is an important parameter for designing wastewater treatment plant and the length of time for which wastewater should be retained for primary treatment Total Dissolved Solids (TDS): The total solid concentration in waste effluent represents the colloidal form and dissolved species. The probable reason for the fluctuation of value of total solid and subsequent the value of dissolved solids due to content collision of these colloidal particles. The rate of collision of aggregated process is also influenced by PH of these effluents. The TDS content in the effluent varied from 1837 to 1858 mg/l before treatment whereas after physical and biological treatment the values obtained were 1459 and 1229 mg/l respectively. The percentage reduction of 33% was achieved.Both the value of TDS was within the limit of GPCB standards(TABLE 2). Chemical Oxygen Demand (COD): : The chemical oxygen demand test (COD) determines, the oxygen required for chemical oxidation of organic matter with the help of strong chemical oxidant. The COD is a test which is used to measure pollution of domestic and industrial waste. The waste is measure in terms of equality of oxygen required for oxidation of organic matter to produce CO2 and water. It is a fact that all organic compounds with a few exceptions can be oxidizing agents under the acidic condition. COD test is useful in pinpointing toxic condition and presence of biological resistant substances. For COD determination samples were preserved using H2SO4 and processed for COD determination after the entire sampling operation was complete. The CODof the effluent varied from 2013 to 2049 mg/l before treatment whereas after physical and biological treatment the values obtained were 1331 and 97 mg/l respectively. The percentage reduction of 95.26 % was achieved. Similar result observed by Chaudhari et al (2010). The value of COD after treatment was under GPCB standards(TABLE 2). Biological Oxygen Demand (BOD): For BOD5 samples were immediately processed after Collection for the determination of initial oxygen and incubated at 20 °C for 5 days for the determination of BOD5. The BOD of the effluent varied from 1362 to 1366 mg/l before treatment whereas after treatment the values obtained was 24 mg/l respectively. The percentage reduction of 94 % was achieved. Similar result observed by Chaudhari et al (2010).The value of BOD after treatment was under GPCB standards(TABLE 2). Table 1. Physico-chemical Parameter of Waste water Collection Tank (CT) Screening Chamber Oil and Grease removal tank Equilization Tank (ET) Neutrilization Tank (NT) Primary Clarifier (PC) Aeration Tank (AT) Secondary Clarifier (SC)
Pratiksinh Chavda Int. Journal of Engineering Research and Applications www.ijera.com ISSN : 2248-9622, Vol. 4, Issue 9( Version 3), September 2014, pp.37-40 www.ijera.com 39|P a g e Table 2. Comparison between treated affluent characteristics and GPCB standards. Following figures shows the comparison of treated effluent with GPCB standards. Fig. 2 - pH value of the effluent Fig. 3 – TSS value of the effluent with respect to GPCB Standard Fig. 4 - TDS Value of effluent with respect to GPCB standard Fig. 5 - COD value of effluent with respect to GPCB standard Fig. 6 - BOD value of effluent with respect to GPCB standard Following table shows the overall efficiency of the effluent treatment plant. 0.00 5.00 10.00 15.00 Collection Tank Primary Clarifier Secondary Clarifier Unit operation pH 0 500 1000 1500 2000 Collection Tank Primary Clarifier Secondary Clarifier mg/l Unit operations TSS TSS GPCB Standard 0 500 1000 1500 2000 2500 Collection Tank Primary Clarifier Secondary Clarifier mg/l Unit operations TDS TDS GPCB Standard 0 1000 2000 3000 Collection Tank Primary Clarifier Secondary Clarifier mg/l Unit operations COD COD GPCB Standard 0 500 1000 1500 Collection Tank Secondary Clarifier mg/l Unit Operations BOD BOD GPCB Standard Sr.No. Parameter (CT) (PC) (SC) 1. pH 9.93 8.43 7.22 2. TSS 1766 1200 98 3. TDS 1858 1459 1229 4. COD 2049 1331 97 5. BOD 1366 24 Sr.No. Parameter GPCB standard Treated effluent 1. pH 6.5 to 8.5 7.22 2. TSS 100 98 3. TDS 2100 1229 4. COD 100 97 5. BOD 30 24
Pratiksinh Chavda Int. Journal of Engineering Research and Applications www.ijera.com ISSN : 2248-9622, Vol. 4, Issue 9( Version 3), September 2014, pp.37-40 www.ijera.com 40|P a g e Table 3. Percentage reduction of various parameter Sr.No. Parameter % reduction 1. pH 27.25 2. Total Suspended solids 94.45 3. Total Dissolved Solids 33.86 4. Chemical Oxygen Demand 95.26 5. Biological Oxygen Demand 98.18 IV. Conclusion Present study concerned with the performance evaluation of ETP for dairy industry and as per available 5 month data it can be concluded that, the overall performance of the effluent treatment plant was satisfactory. The individual units are also performing well and their removal efficiencies are satisfactory. The removal efficiency of total suspended solids was 94.45 %, COD removal efficiency was 95.26 % and BOD removal efficiency was 98.18 % this shows the capability of plant to withstand shock load. The treated effluent meet the GPCB standard for discharge in inland surface water hence it can be said that the plant is working efficiently. This treatment plant is high potential for BOD, TSS and COD removal. Thus this treatment Technology can be considered as a potential plant for Dairy wastewater treatment. V. Acknowledgement We would like to thank the management of the dairy industry for their support and cooperation during the study period. Reference [1] Eaton, A. D.Clesceri, L.S. and Greenberg, A. E, Standard method for the examination of water and wastewater(APHA, AWWA and WPCF,1995). [2] Panesar P.S., Rai R., Marwaha S.S. Biological treatment of dairy industry effluents. Asian J. Microbial Biotechnology Env. Sci. 1(1-2): 67- 72 [3] Harper, W.J., Implant control of dairy wastes. Food Tech.28, 50. (1974). [4] V.Yip,S.D.Amsfield and A.W.Hydamaka, J.Dairy Sci.79: 710-716 (1996). [5] Dipali chaudhari, R.M. Dhoble, Performance evaluation of effluent treatment of dairy industry, Current world environment,5(2), 2010, 373-378. [6] Hammer MJ,Water and wastewater technol. (third edition Prentice –hall. Inc, 1996).

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Performance evaluation of Effluent Treatment Plant of Dairy Industry

  • 1. Pratiksinh Chavda Int. Journal of Engineering Research and Applications www.ijera.com ISSN : 2248-9622, Vol. 4, Issue 9( Version 3), September 2014, pp.37-40 www.ijera.com 37|P a g e Performance evaluation of Effluent Treatment Plant of Dairy Industry Pratiksinh Chavda*, Apurva Rana** *(Department of Environmental Engineering, College of Renewable Energy & Environmental Engineering, Sardarkrushinagar Dantiwada Agricultural University, Sardarkrushinagar-385506) ** (Department of Biological and Environmental Science, N.V. Patel College of Pure and Applied Sciences, Sardar Patel University, Vallabhvidyanagar - 388120) ABSTRACT Dairy industry is among the most polluting of the food industries in regard to its large water consumption. Dairy is one of the major industries causing water pollution. Considering the increased milk demand, the dairy industry in India is expected to grow rapidly and have the waste generation and related environmental problems are also assumed increased importance. Poorly treated wastewater with high level of pollutants caused by poor design, operation or treatment systems creates major environmental problems when discharged to the surface land or water. Various operations in a dairy industry may include pasteurization, cream, cheese, milk powder etc. Considering the above stated implications an attempt has been made in the present project to evaluate one of the Effluent Treatment Plant for dairy waste. Samples are collected from three points; Collection tank (CT), primary clarifier (PC) and Secondary clarifier (SC) to evaluate the performance of Effluent Treatment Plant. Parameters analyzed for evaluation of performance of Effluent Treatment Plant are pH, TDS, TSS, COD, and BOD at 200C The pH, TDS, TSS, COD and BOD removal efficiency of Effluent Treatment Plant were 26.14 %, 33.30 %, 93.85 %, 94.19 % and 98.19 % respectively. Keywords–Dairy industry, Effluent treatment, Performance evaluation, Removal efficiency, Wastewater characteristics. I. Introduction Waste water generated in a dairy contains highly putrescible organic constituents. This necessitates prompt and adequate treatment of the waste water before its disposal to the environment. Almost all the organic constituents of dairy waste are easily biodegradable. Hence the wastewater is amenable to biological treatment-either aerobic oranaerobic1.Rapid growth of industries has enhanced the productivity but also resulted in the production and release of toxic substances into the environment, creating health hazards and affected the natural ecosystem making it unbalance. These wastes are potential pollutants when they produce harmful effects on the environment and generally released in the form of solids, liquid effluents and slurries containing a spectrum of organic and inorganic chemicals2.Effluent treatment in industries to meet the discharge standards mentioned by GPCB has always been a great problem for the industrialists. Every industry effluent treatment plant needs to treat the effluent for this purpose in their own industry via effluent treatment plants. Before discharging the treated effluent on to the land or any surface water body the industries should meet the effluent discharge standardnorms3. In order to have proper processes in the ETP, Characterization of waste water, treatability studies and planning of proper units and processes for effluent treatment is very much necessary. In the present study an effort has been made to evaluate one of the ETP provided for the treatment of wastewater generated by dairy industry. The study was limited to the performance evaluation of the ETP Plant of dairy industry. The aim of the present research work was to determine the behavior of various parameters of the dairy industry wastewater. Characterization of wastewater was evaluated in terms of pH, total suspended solids (TSS), total dissolved solids (TDS), Biochemical oxygen demand (BOD) at 200C and Chemical oxygen demand (COD)for the influent & effluent from the selected plants. The performance of the effluent treatment plant was also evaluated & the quality of the reclaimed wastewater was compared with Gujarat Pollution control Board (GPCB) standards to determine its suitability for reuse. II. Materials and Method The source for the collection of wastewater samples throughout the present studies was the Dairy industry. The study was conducted in Banas Dairy, located in Palanpur, Gujarat. The coordinates for the RESEARCH ARTICLE OPEN ACCESS
  • 2. Pratiksinh Chavda Int. Journal of Engineering Research and Applications www.ijera.com ISSN : 2248-9622, Vol. 4, Issue 9( Version 3), September 2014, pp.37-40 www.ijera.com 38|P a g e project site is 24.10°N and 72.25°E. The duration for this research work was Five months.The methodology involved the collection of samples at the different units of the treatment plant having capacity to treat 400m3/day of waste water. The process in the treatment of industrial effluent may consist of any one or more of the following processes: 1. Equalization 2. Neutralization 3. Physical Treatment 4. Biological Treatment4. The effluent treatment plant consist of Collection tank (CT), Screening chamber, Oil and Grease removal tank,Equalization tank (ET), Neutralization tank (NT), Primary Clarifier (PC), aeration tank (AT) and Secondary clarifier (SC).The systematic flow diagram of ETP is shown in Figure 1. Fig. 1 - flow sheet of ETP of Dairy Industry The wastewater samples were collected using sterile one liter plastic containers. Samples were collected in pre-sterilized bottles from Collection tank (CT), primary clarifier (PC) and Secondary clarifier (SC) for physicochemical analysis (pH, COD, BOD, TSS and TDS). All samples were transported to the laboratory and analyzed within 30 min. All parameters were analyzed in accordance with standard methods of GPCB. III. Results and Discussions Data taken during 5 months of this study are presented (TABLE 1) and discussed. pH:pH of the individual sample was measured immediately after its collection by a pH meter. The pH of the effluent varied from 9.60 to 9.93 before the treatment, whereas the value of pH after physical and biological treatment was found 8.43 and 7.22 respectively. The percentage reduction of 27.25 % was achieved. The finding of the present study are in agreement with GPCB standards (TABLE 2). Total Suspended Solids (TSS): Suspended solid do not mean that they are floating matters and remain on top of water layer. They are under suspension and remain in water sample. Total suspended solids play an important role in water and waste water treatment. Their presence in water sample cause depletion of oxygen level. The TSS content in the effluent varied from 1732 to 1766 mg/l before treatment whereas after physical and biological treatment the values obtained were 1200 and 98 mg/l respectively. The percentage reduction of 94.45% was achieved. Similar result were observed by Chaudhari et al (2010)5. The TSS value in our study was 98 mg/l which were in accordance with the GPCB standards (TABLE 2). TSS is an important parameter for designing wastewater treatment plant and the length of time for which wastewater should be retained for primary treatment Total Dissolved Solids (TDS): The total solid concentration in waste effluent represents the colloidal form and dissolved species. The probable reason for the fluctuation of value of total solid and subsequent the value of dissolved solids due to content collision of these colloidal particles. The rate of collision of aggregated process is also influenced by PH of these effluents. The TDS content in the effluent varied from 1837 to 1858 mg/l before treatment whereas after physical and biological treatment the values obtained were 1459 and 1229 mg/l respectively. The percentage reduction of 33% was achieved.Both the value of TDS was within the limit of GPCB standards(TABLE 2). Chemical Oxygen Demand (COD): : The chemical oxygen demand test (COD) determines, the oxygen required for chemical oxidation of organic matter with the help of strong chemical oxidant. The COD is a test which is used to measure pollution of domestic and industrial waste. The waste is measure in terms of equality of oxygen required for oxidation of organic matter to produce CO2 and water. It is a fact that all organic compounds with a few exceptions can be oxidizing agents under the acidic condition. COD test is useful in pinpointing toxic condition and presence of biological resistant substances. For COD determination samples were preserved using H2SO4 and processed for COD determination after the entire sampling operation was complete. The CODof the effluent varied from 2013 to 2049 mg/l before treatment whereas after physical and biological treatment the values obtained were 1331 and 97 mg/l respectively. The percentage reduction of 95.26 % was achieved. Similar result observed by Chaudhari et al (2010). The value of COD after treatment was under GPCB standards(TABLE 2). Biological Oxygen Demand (BOD): For BOD5 samples were immediately processed after Collection for the determination of initial oxygen and incubated at 20 °C for 5 days for the determination of BOD5. The BOD of the effluent varied from 1362 to 1366 mg/l before treatment whereas after treatment the values obtained was 24 mg/l respectively. The percentage reduction of 94 % was achieved. Similar result observed by Chaudhari et al (2010).The value of BOD after treatment was under GPCB standards(TABLE 2). Table 1. Physico-chemical Parameter of Waste water Collection Tank (CT) Screening Chamber Oil and Grease removal tank Equilization Tank (ET) Neutrilization Tank (NT) Primary Clarifier (PC) Aeration Tank (AT) Secondary Clarifier (SC)
  • 3. Pratiksinh Chavda Int. Journal of Engineering Research and Applications www.ijera.com ISSN : 2248-9622, Vol. 4, Issue 9( Version 3), September 2014, pp.37-40 www.ijera.com 39|P a g e Table 2. Comparison between treated affluent characteristics and GPCB standards. Following figures shows the comparison of treated effluent with GPCB standards. Fig. 2 - pH value of the effluent Fig. 3 – TSS value of the effluent with respect to GPCB Standard Fig. 4 - TDS Value of effluent with respect to GPCB standard Fig. 5 - COD value of effluent with respect to GPCB standard Fig. 6 - BOD value of effluent with respect to GPCB standard Following table shows the overall efficiency of the effluent treatment plant. 0.00 5.00 10.00 15.00 Collection Tank Primary Clarifier Secondary Clarifier Unit operation pH 0 500 1000 1500 2000 Collection Tank Primary Clarifier Secondary Clarifier mg/l Unit operations TSS TSS GPCB Standard 0 500 1000 1500 2000 2500 Collection Tank Primary Clarifier Secondary Clarifier mg/l Unit operations TDS TDS GPCB Standard 0 1000 2000 3000 Collection Tank Primary Clarifier Secondary Clarifier mg/l Unit operations COD COD GPCB Standard 0 500 1000 1500 Collection Tank Secondary Clarifier mg/l Unit Operations BOD BOD GPCB Standard Sr.No. Parameter (CT) (PC) (SC) 1. pH 9.93 8.43 7.22 2. TSS 1766 1200 98 3. TDS 1858 1459 1229 4. COD 2049 1331 97 5. BOD 1366 24 Sr.No. Parameter GPCB standard Treated effluent 1. pH 6.5 to 8.5 7.22 2. TSS 100 98 3. TDS 2100 1229 4. COD 100 97 5. BOD 30 24
  • 4. Pratiksinh Chavda Int. Journal of Engineering Research and Applications www.ijera.com ISSN : 2248-9622, Vol. 4, Issue 9( Version 3), September 2014, pp.37-40 www.ijera.com 40|P a g e Table 3. Percentage reduction of various parameter Sr.No. Parameter % reduction 1. pH 27.25 2. Total Suspended solids 94.45 3. Total Dissolved Solids 33.86 4. Chemical Oxygen Demand 95.26 5. Biological Oxygen Demand 98.18 IV. Conclusion Present study concerned with the performance evaluation of ETP for dairy industry and as per available 5 month data it can be concluded that, the overall performance of the effluent treatment plant was satisfactory. The individual units are also performing well and their removal efficiencies are satisfactory. The removal efficiency of total suspended solids was 94.45 %, COD removal efficiency was 95.26 % and BOD removal efficiency was 98.18 % this shows the capability of plant to withstand shock load. The treated effluent meet the GPCB standard for discharge in inland surface water hence it can be said that the plant is working efficiently. This treatment plant is high potential for BOD, TSS and COD removal. Thus this treatment Technology can be considered as a potential plant for Dairy wastewater treatment. V. Acknowledgement We would like to thank the management of the dairy industry for their support and cooperation during the study period. Reference [1] Eaton, A. D.Clesceri, L.S. and Greenberg, A. E, Standard method for the examination of water and wastewater(APHA, AWWA and WPCF,1995). [2] Panesar P.S., Rai R., Marwaha S.S. Biological treatment of dairy industry effluents. Asian J. Microbial Biotechnology Env. Sci. 1(1-2): 67- 72 [3] Harper, W.J., Implant control of dairy wastes. Food Tech.28, 50. (1974). [4] V.Yip,S.D.Amsfield and A.W.Hydamaka, J.Dairy Sci.79: 710-716 (1996). [5] Dipali chaudhari, R.M. Dhoble, Performance evaluation of effluent treatment of dairy industry, Current world environment,5(2), 2010, 373-378. [6] Hammer MJ,Water and wastewater technol. (third edition Prentice –hall. Inc, 1996).