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Disposal, Characteristics and Impact of Thermal Power Plant Effluent along the Coast of Jaigad, Ratnagiri, Maharashtra
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The effluent discharge conspicuously affected the temperature, DO, salinity, pH of the bay water. It showed comparatively lower dissolved oxygen content and high nutrient content in effluent samples. Significant difference (P<0.05) was observed between the stations in the dissolved oxygen content and temperature. Samples were collected from three different sampling points at Jaigad coastal waters to study the physico-chemical characteristics. The physical and chemical parameters viz., temperature, pH, salinity, alkalinity, DO, total suspended soilds, total dissolved solids, nitrate, phosphate, silicate and sulphate were studied using various standard analytical techniques. The study reveals that the physical and chemical composition of all the samples collected from the sites mainly depends on seasonal variations and discharge from the power plant.
Keywords
Effluent, Temperature, Salinity, pH, Dissolved Oxygen, Nutrients, Jaigad.
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- APHA (2012). Standard methods for the examination of water and waste water. 21st Ed. American Public Health Association, American Water Works Association Environmental Federation, Washington DC, USA. 2605p.
- Easterson, D.C.V., Asha, P.S. and Selvaraj, M. (2000). Effect of thermal power plant effluent on the hydrological condition of phytoplankton in the waters of tuticorin bay. J. Mar. Boil. Ass. India, 42 (1&2): 135-138.
- Garg, S.K., Bhatnagar, A., Kalla, A. and Johal, M.S. (2002). Experimental ichthyology, CBS Publishers and Distributors, New Delhi, India, 171pp.
- Guthrie, R.K., Davis, E.M., Cherry, D.S. and Walton, J.R. (1982). Impact of coal ash from electric power production on changes in water quality.Water Resour. Bull., 18 ( 1) : 135-138.
- Jeng Chang (2000). Precision of different methods used for estimating the abundance of the nitrogen-fixing marine cyanobacterium, Trichodesmium Ehrenberg. J. Exp. Mar. Biol. Ecol., 245 (2) : 215-224.
- Kailasam, M. and Sivakami (1996). The effect of thermal effluent discharge on benthic fauna of Tuticorin bay. Indian J. Mar. Sci., 25: 371-372.
- Kailasam, M. and Sivakami, S. (2004). Effect of thermal effluent discharge on benthic fauna of Tuticorin Bay, South East coast of India. Indian J. Marine Sci.,33 (2) : 194-201.
- Kumar, Sameer, Dhruv, K. and Sehgal, D. (2013). Environment impact assessment of thermal power plantfor sustainable development. Internat. J. Environ. Engg. & Mgmt., 4 (6): 567-572.
- Manimaran, B., Srinivasan, A. and Selvin, P.J. (2007). Ecological problems associated with the disposal of coolant water and ash pond effluent in the coastal waters of Tuticorin. Abstracts - Phmfrm’07, pp. 96.
- Odum, E.P. (1971). Fundamentals of ecology. W.B. Saunders Co. 3rd Ed., Philadelphia.
- Poornima, E.H., Rajadurai, M., Rao, T.S., Anupkumar, B., Rajamohan, R., Narasimhan, S.V., Rao, V.N.R. and Venugopalan, V.P. (2005). Impact of thermal discharge from a tropical coastal power plant on phytoplankton. J. Thermal Biol., 30 : 307–316.
- Poornima, E.H., Rajaduraia, M., Rao, V.N.R., Narasimhan, S.V. and Venugopalan, V.P. (2006). Use of coastal waters as condenser coolant in electric power plants: Impaction on phytoplankton and primary productivity. J. Thermal Biol., 31(7) : 556–564.
- Selvin, J. Pitchaikani, Ananthan, G. and Sudhakar, M. (2010). Studies on the effect of coolant water effluent of tuticorin thermal power station on hydro biological characteristics of tuticorin coastal waters, South East Coast of India. J. Biological Sci., 2(2):118-123.
- Shelar, P.S. (2012). Effect of thermal power plant effluent on the water and sediment quality characteristics of Thoothukudi coastal water. M.F.Sc. Thesis, Fisheries College and Research Institute, Tamil Nadu Veterinary and Animal Science University Thoothukudi.pp. 128.
- Straughan, D. (1980). Impact of Southern California Edison’s operations on Intertidal Harbor, Southern California Development Series, 80-RD-95.
- Strickland, J.D.H. and Parsons, T.R. (1972). A practical Handbook of seawater analysis. Fish. Res. Bd. Can. Bull., 167 : 311.
- Subramanian, B., Prabu, S.K. and Mahadevan, A. (1990). Influence of thermal power station effluents on hydrobiology of seawater. Water, Air, Soil & Pollut., 53: 131-137.
- Suresh, K., Ahamed, M .S., Durairaj, G. and Nair, K.V.K. (1993). Impact of power plant heated effluent on the abundance of sedimentary organisms, off Kalpakkam, East Coast India. Hydrobiol., 268 : 109-114.
- Swami, B.S. and Udhayakumar, M. (2007). Observation on seasonal variations in hydrographical characteristics recorded at Mumbai harbour. Eco. Env. & Cons., 13(2) : 383 – 394.
- Theis, T.L. (1975). The potential trace metal contamination of water resources through the disposal of fly ash. Proceedings of the 2nd National Conference on Complete Water Reuse, Chicago Illinois, pp. 219-224.
- Thorhaug, A. (1978). The effect of heated effluent from power plants on sea grass (Thalassia) communities quantitatively comparing estuaries in the subtropics to the tropics. Mar. Pollut. Bull., 9: 181-187.
- Yadav, R., Sharma, S., Saini, S. and Kalla, S. (2010). Environmental assessment of underground water quality near Suratgarh Super Thermal Power Plant in Sriganganagar district, Rajasthan. Internat. J. Environ. Sci.,4 (4) : 347-349.
- Zar, J.H. (2004). Biostatistical analysis. 4th Ed. Tan prints (I) Pvt. Ltd., Delhi, India, pp.663.
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