Minimization and optimization of water consumption in an oil refinery using water pinch analysis: A case study in Iran

In the present study, to minimize water consumption and reduce wastewater production in an oil refinery, a technique called water pinch analysis (WPA) was used with two single and double pollutant approaches. Total dissolved solids (TDS) and chemical oxygen demand (COD) were selected as the index po...

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Published inWater resources and industry Vol. 31; p. 100254
Main Authors Hashemi, Hassan, Hashemi, Fallah, Young, Stephanie, Rosti, Firouz
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2024
Elsevier
Subjects
Chemical oxygen demand
Total dissolved solids
Water minimization
Water optimization
Water pinch analysis
Water optimization
Water pinch analysis
Total dissolved solids
Chemical oxygen demand
Water minimization
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Abstract In the present study, to minimize water consumption and reduce wastewater production in an oil refinery, a technique called water pinch analysis (WPA) was used with two single and double pollutant approaches. Total dissolved solids (TDS) and chemical oxygen demand (COD) were selected as the index pollutants. The results showed that the use of WPA has reduced the overall consumption of freshwater in the refinery on average between 79 m3/h (45%) in the single pollutant approach (77 m3/h for COD and 81 m3/h for TDS) and 99 m3/h (56%) in the double pollutant approach. It was also found that the volume of produced oily and sanitary effluents decreased between 31 and 52 m3/h. These findings show that WPA is a useful tool that can help make strategic decisions to minimize water consumption and modify consumption patterns in industries, and by reducing effluent production environmental risks will be reduced. [Display omitted] •The WPA with two single and double pollutant approaches was used to minimize water.•Using the single pollutant approach, freshwater consumption was reduced by 79 m3/h.•Using the double pollutant approach, freshwater consumption was reduced by 99 m3/h.•Effluent decreased by 31 and 52 m3/h in single and double approaches, respectively.
AbstractList In the present study, to minimize water consumption and reduce wastewater production in an oil refinery, a technique called water pinch analysis (WPA) was used with two single and double pollutant approaches. Total dissolved solids (TDS) and chemical oxygen demand (COD) were selected as the index pollutants. The results showed that the use of WPA has reduced the overall consumption of freshwater in the refinery on average between 79 m3/h (45%) in the single pollutant approach (77 m3/h for COD and 81 m3/h for TDS) and 99 m3/h (56%) in the double pollutant approach. It was also found that the volume of produced oily and sanitary effluents decreased between 31 and 52 m3/h. These findings show that WPA is a useful tool that can help make strategic decisions to minimize water consumption and modify consumption patterns in industries, and by reducing effluent production environmental risks will be reduced. [Display omitted] •The WPA with two single and double pollutant approaches was used to minimize water.•Using the single pollutant approach, freshwater consumption was reduced by 79 m3/h.•Using the double pollutant approach, freshwater consumption was reduced by 99 m3/h.•Effluent decreased by 31 and 52 m3/h in single and double approaches, respectively.
In the present study, to minimize water consumption and reduce wastewater production in an oil refinery, a technique called water pinch analysis (WPA) was used with two single and double pollutant approaches. Total dissolved solids (TDS) and chemical oxygen demand (COD) were selected as the index pollutants. The results showed that the use of WPA has reduced the overall consumption of freshwater in the refinery on average between 79 m3/h (45%) in the single pollutant approach (77 m3/h for COD and 81 m3/h for TDS) and 99 m3/h (56%) in the double pollutant approach. It was also found that the volume of produced oily and sanitary effluents decreased between 31 and 52 m3/h. These findings show that WPA is a useful tool that can help make strategic decisions to minimize water consumption and modify consumption patterns in industries, and by reducing effluent production environmental risks will be reduced.
ArticleNumber 100254
Author Hashemi, Hassan
Rosti, Firouz
Young, Stephanie
Hashemi, Fallah
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CitedBy_id crossref_primary_10_1016_j_rser_2024_114684
crossref_primary_10_1016_j_energy_2024_131538
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Keywords Water optimization
Water pinch analysis
Total dissolved solids
Chemical oxygen demand
Water minimization
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Snippet In the present study, to minimize water consumption and reduce wastewater production in an oil refinery, a technique called water pinch analysis (WPA) was used...
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StartPage 100254
SubjectTerms Chemical oxygen demand
Total dissolved solids
Water minimization
Water optimization
Water pinch analysis
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Title Minimization and optimization of water consumption in an oil refinery using water pinch analysis: A case study in Iran
URI https://dx.doi.org/10.1016/j.wri.2024.100254
https://doaj.org/article/bf2d02325f2a4eb98195f079215714fc
Volume 31
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