A model to predict total chlorine residue in the cooling seawater of a power plant using iodine colorimetric method

Jih Terng Wang; Ming Hui Chen; Hung Jen Lee; Wen Been Chang; Chung Chi Chen; Su Cheng Pai; Pei Jie Meng

doi:10.3390/ijms9040542

A model to predict total chlorine residue in the cooling seawater of a power plant using iodine colorimetric method

Jih Terng Wang, Ming Hui Chen, Hung Jen Lee, Wen Been Chang^*, Chung Chi Chen, Su Cheng Pai, Pei Jie Meng

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生命科學系

研究成果: 雜誌貢獻 › 期刊論文 › 同行評審

20 引文斯高帕斯（Scopus）

摘要

A model experiment monitoring the fate of total residue oxidant (TRO) in water at a constant temperature and salinity indicated that it decayed exponentially with time, and with TRO decaying faster in seawater than in distilled water. The reduction of TRO by temperature (°K) was found to fit a curvilinear relationship in distilled water (r ² = 0.997) and a linear relationship in seawater (r ² = 0.996). Based on the decay rate, flow rate, and the length of cooling water flowing through at a given temperature, the TRO level in the cooling water of a power plant could be estimated using the equation developed in this study. This predictive model would provide a benchmark for power plant operators to adjust the addition of chlorine to levels necessary to control bio-fouling of cooling water intake pipelines, but without irritating ambient marine organisms.

原文	英語
頁（從 - 到）	542-553
頁數	12
期刊	International journal of molecular sciences
卷	9
發行號	4
DOIs	https://doi.org/10.3390/ijms9040542
出版狀態	已發佈 - 2008 4月

ASJC Scopus subject areas

催化
分子生物學
光譜
電腦科學應用
物理與理論化學
有機化學
無機化學

UN SDG

此研究成果有助於以下永續發展目標

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10.3390/ijms9040542

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title = "A model to predict total chlorine residue in the cooling seawater of a power plant using iodine colorimetric method",

abstract = "A model experiment monitoring the fate of total residue oxidant (TRO) in water at a constant temperature and salinity indicated that it decayed exponentially with time, and with TRO decaying faster in seawater than in distilled water. The reduction of TRO by temperature (°K) was found to fit a curvilinear relationship in distilled water (r 2 = 0.997) and a linear relationship in seawater (r 2 = 0.996). Based on the decay rate, flow rate, and the length of cooling water flowing through at a given temperature, the TRO level in the cooling water of a power plant could be estimated using the equation developed in this study. This predictive model would provide a benchmark for power plant operators to adjust the addition of chlorine to levels necessary to control bio-fouling of cooling water intake pipelines, but without irritating ambient marine organisms.",

keywords = "Anti-fouling agent, Cooling water, Power plant, Total residual oxidant",

author = "Wang, {Jih Terng} and Chen, {Ming Hui} and Lee, {Hung Jen} and Chang, {Wen Been} and Chen, {Chung Chi} and Pai, {Su Cheng} and Meng, {Pei Jie}",

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AU - Wang, Jih Terng

AU - Chen, Ming Hui

AU - Lee, Hung Jen

AU - Chang, Wen Been

AU - Chen, Chung Chi

AU - Pai, Su Cheng

AU - Meng, Pei Jie

PY - 2008/4

Y1 - 2008/4

N2 - A model experiment monitoring the fate of total residue oxidant (TRO) in water at a constant temperature and salinity indicated that it decayed exponentially with time, and with TRO decaying faster in seawater than in distilled water. The reduction of TRO by temperature (°K) was found to fit a curvilinear relationship in distilled water (r 2 = 0.997) and a linear relationship in seawater (r 2 = 0.996). Based on the decay rate, flow rate, and the length of cooling water flowing through at a given temperature, the TRO level in the cooling water of a power plant could be estimated using the equation developed in this study. This predictive model would provide a benchmark for power plant operators to adjust the addition of chlorine to levels necessary to control bio-fouling of cooling water intake pipelines, but without irritating ambient marine organisms.

AB - A model experiment monitoring the fate of total residue oxidant (TRO) in water at a constant temperature and salinity indicated that it decayed exponentially with time, and with TRO decaying faster in seawater than in distilled water. The reduction of TRO by temperature (°K) was found to fit a curvilinear relationship in distilled water (r 2 = 0.997) and a linear relationship in seawater (r 2 = 0.996). Based on the decay rate, flow rate, and the length of cooling water flowing through at a given temperature, the TRO level in the cooling water of a power plant could be estimated using the equation developed in this study. This predictive model would provide a benchmark for power plant operators to adjust the addition of chlorine to levels necessary to control bio-fouling of cooling water intake pipelines, but without irritating ambient marine organisms.

KW - Anti-fouling agent

KW - Cooling water

KW - Power plant

KW - Total residual oxidant

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A model to predict total chlorine residue in the cooling seawater of a power plant using iodine colorimetric method

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UN SDG

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