STUDY ON COD-ESTIMATION IN RIVER AND WASTE WATER BY PORTABLE ULTRAVIOLET ABSORBANCE PHOTOMETR
A simple, inexpensive and portable ultraviolet absorbance photometer was developed for COD estimation not only for river water but also for waste water. The performance of this instrument such as Zero-drift, 100%-drift were very good. Moreover good liner response with slope 1 was obtained between st...
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| Published in | Journal of Environmental Conservation Engineering Vol. 32; no. 7; pp. 575 - 581 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Society of Environmental Conservation Engineering
2003
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| Online Access | Get full text |
| ISSN | 0388-9459 1882-8590 |
| DOI | 10.5956/jriet.32.575 |
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| Abstract | A simple, inexpensive and portable ultraviolet absorbance photometer was developed for COD estimation not only for river water but also for waste water. The performance of this instrument such as Zero-drift, 100%-drift were very good. Moreover good liner response with slope 1 was obtained between standard solution (potassium hydrogen phthalete) and absorbance at ultraviolet 254 nm. Using filtered various testing solutions with 0.45μm pore size (river water, leachate, food industry, animal farm and septic tank), we compared the absorbance from this instrument with conventional spectrophotometer. Finally, good linear relationship: UV254 (this instrument) =0.98×UV254 (spectrophotometer) -0.004 (R=0.99) was obtained. For the samples collected in the Japan, COD-Mn was estimated by following equation: COD-Mn (mg/l) =60×UV254+1.3, and for samples collected in Japan, the Philippines and Thailand, COD-Cr (mg/l) =169×UV254. However, poor results were obtained from testing solutions which contained high concentration of SS (>30mg/l ), colored or fluorescent brightening agent. Although, the weak points for these samples were overcome by a simple operation, such as dilution. |
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| AbstractList | A simple, inexpensive and portable ultraviolet absorbance photometer was developed for COD estimation not only for river water but also for waste water. The performance of this instrument such as Zero-drift, 100%-drift were very good. Moreover good liner response with slope 1 was obtained between standard solution (potassium hydrogen phthalete) and absorbance at ultraviolet 254 nm. Using filtered various testing solutions with 0.45μm pore size (river water, leachate, food industry, animal farm and septic tank), we compared the absorbance from this instrument with conventional spectrophotometer. Finally, good linear relationship: UV254 (this instrument) =0.98×UV254 (spectrophotometer) -0.004 (R=0.99) was obtained. For the samples collected in the Japan, COD-Mn was estimated by following equation: COD-Mn (mg/l) =60×UV254+1.3, and for samples collected in Japan, the Philippines and Thailand, COD-Cr (mg/l) =169×UV254. However, poor results were obtained from testing solutions which contained high concentration of SS (>30mg/l ), colored or fluorescent brightening agent. Although, the weak points for these samples were overcome by a simple operation, such as dilution. |
| Author | SATO, Kunihiko KATO, Susumu TAKAHASHI, Masaaki SHIMONO, Masayuki |
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| References | 2) 徳平淳ら: 衛生工学者のための水質学 (II) , 用水と排水, 12, 90 (1970 1) Standard Method (20th edition 3) 日本分析化学会北海道支部: 水の分析, 化学同人, 京都 (1994 4) たとえば松岡利行, 加藤進, 金丸豪, 園部実: 紫外線吸収による水質判定について (第2報) -その有効性と限界-, 三重県環境科学センター研究報告, 3, 36-38 (1982 |
| References_xml | – reference: 3) 日本分析化学会北海道支部: 水の分析, 化学同人, 京都 (1994) – reference: 1) Standard Method (20th edition) – reference: 2) 徳平淳ら: 衛生工学者のための水質学 (II) , 用水と排水, 12, 90 (1970) – reference: 4) たとえば松岡利行, 加藤進, 金丸豪, 園部実: 紫外線吸収による水質判定について (第2報) -その有効性と限界-, 三重県環境科学センター研究報告, 3, 36-38 (1982) |
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| Title | STUDY ON COD-ESTIMATION IN RIVER AND WASTE WATER BY PORTABLE ULTRAVIOLET ABSORBANCE PHOTOMETR |
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