Indian Streams Research Journal

Volume : V, Issue : VII, August - 2015

EVALUATION OF PHENOLIC COMPOUNDS IN GROUND WATER OF AURANGABAD CITY

Z. J. Musa, N .N. Bandela and Aditi Bhattacharya

DOI : 10.9780/22307850, By : Laxmi Book Publication

Abstract :

Aurangabad city is a prominent Industrial hub with five Industrial areas in its periferry. Eight wells in two area were selected for estimation of Phenolic compounds in ground water. As per EPA guidelines (US Environmental Protection Agency) the release of untreated Phenolic compounds treated is harmful for public health. GC-MS technique used was used to observe the content of Phenolic compounds from two areas i,e. School and Bus stand areas respectively. Out of eight wells sampled, one of the well recorded the highest values of Phenolic compounds i.e. 82 ng /L , 55 ng/ L for 4,6- Dinitro-2-methylphenol, 17 ng/L for 2,4-Dinitrophenol , 16 ng / L for 2-Methylphenol , 12 ng /L for both 2- Clorophenol and 2,4,6-Trichlorophenol, 11 ng /L for 2-Nitrophenol and 2,4Dichlorophenol , 7 ng/ L for Pentachlorophenol ,4 ng / L for 4-Nitropheno and 3 ng /L for 4-Chloro-3-methylphenol. respectively .

Keywords :

• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compoundsdium
• 2,4-Dinitrophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compoundsdium
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compoundsdium
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol
• GC-MS technique
• 2,4,6-Trichloropheno
• Pentachlorophenol
• Survey
• Phenolic compounds
• 2,4-Dinitrophenol

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References :

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44. Mahamuni, N. N., & Pandit, A. B., (2005). Effect of additives on ultrasonic degradation of phenol. Ultrason. Sonochem, 13 (2), 165-174.
45. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
46. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
47. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
48. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
49. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
50. Mahamuni, N. N., & Pandit, A. B., (2005). Effect of additives on ultrasonic degradation of phenol. Ultrason. Sonochem, 13 (2), 165-174.
51. Mahamuni, N. N., & Pandit, A. B., (2005). Effect of additives on ultrasonic degradation of phenol. Ultrason. Sonochem, 13 (2), 165-174.
52. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
53. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
54. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
55. Mahamuni, N. N., & Pandit, A. B., (2005). Effect of additives on ultrasonic degradation of phenol. Ultrason. Sonochem, 13 (2), 165-174.
56. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
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74. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
75. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
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99. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
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101. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
102. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
103. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
104. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
105. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
106. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
107. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
108. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
109. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
110. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
111. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
112. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
113. Mahamuni, N. N., & Pandit, A. B., (2005). Effect of additives on ultrasonic degradation of phenol. Ultrason. Sonochem, 13 (2), 165-174.
114. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
115. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
116. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
117. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
118. Mahamuni, N. N., & Pandit, A. B., (2005). Effect of additives on ultrasonic degradation of phenol. Ultrason. Sonochem, 13 (2), 165-174.
119. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
120. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
121. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
122. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
123. Mahamuni, N. N., & Pandit, A. B., (2005). Effect of additives on ultrasonic degradation of phenol. Ultrason. Sonochem, 13 (2), 165-174.
124. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
125. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .
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127. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
128. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
129. Penttinen O.P.,(1995) Chlorophenols in aquatic environments: structure–activity correlations, Ann. Zool. Fennici., 32 , 287–294.
130. Mohamed N. R..(2013), Adsorption Technique for the Removal of Organic Pollutants from Water and Wastewater, Organic Pollutants - Monitoring, Risk and Treatment , Chapter 7.
131. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
132. Niedan, V., Pavasars, J., Oberg, G., (2000). Chloroperoxidase-mediated chlorination of aromatic groups in fulvic acid. Chemosphere 41, 779– 785.
133. Maharashtra Pollution Control Board Aurangabad Regional Office,( 2010 ) .

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