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Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water

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Zeitschriftentitel: Processes
Personen und Körperschaften: Huang, Bin, Wang, Jie, Zhang, Wei, Fu, Cheng, Wang, Ying, Liu, Xiangbin
In: Processes, 7, 2019, 4, S. 239
Format: E-Article
Sprache: Englisch
veröffentlicht:
MDPI AG
Schlagwörter:
Process Chemistry and Technology
Chemical Engineering (miscellaneous)
Bioengineering
author_facet Huang, Bin
Wang, Jie
Zhang, Wei
Fu, Cheng
Wang, Ying
Liu, Xiangbin
Huang, Bin
Wang, Jie
Zhang, Wei
Fu, Cheng
Wang, Ying
Liu, Xiangbin
author Huang, Bin
Wang, Jie
Zhang, Wei
Fu, Cheng
Wang, Ying
Liu, Xiangbin
spellingShingle Huang, Bin
Wang, Jie
Zhang, Wei
Fu, Cheng
Wang, Ying
Liu, Xiangbin
Processes
Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
Process Chemistry and Technology
Chemical Engineering (miscellaneous)
Bioengineering
author_sort huang, bin
spelling Huang, Bin Wang, Jie Zhang, Wei Fu, Cheng Wang, Ying Liu, Xiangbin 2227-9717 MDPI AG Process Chemistry and Technology Chemical Engineering (miscellaneous) Bioengineering http://dx.doi.org/10.3390/pr7040239 <jats:p>The water produced by alkaline–surfactant–polymer (ASP) flooding is difficult to treat due to the presence of residual chemicals. Therefore, research and development of efficient and low-cost methods for the treatment of ASP flooding produced water is necessary. Chemical destabilization is the most common and effective way to treat the produced water. This paper describes an optimization method for demulsification and flocculation. Some demulsifiers and flocculants commonly used in oilfields were screened, compounded, and optimized. Since the effect of treatment using only demulsifier or flocculant to treat the produced water is often not enough to meet the reinjection standard, an orthogonal experiment was carried out to study the demulsification–flocculation method to treat produced water. Five main influencing factors of the oil concentration were investigated. Based on the results of the range analysis and the relationship between the five factors and oil concentration, the order of significant factors was found to be demulsifier dosage &gt; flocculant dosage &gt; settling time &gt; stirring time &gt; stirring intensity, and the optimal demulsification–flocculation treatment conditions were successfully optimized.</jats:p> Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water Processes
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title Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_unstemmed Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_full Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_fullStr Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_full_unstemmed Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_short Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_sort screening and optimization of demulsifiers and flocculants based on asp flooding-produced water
topic Process Chemistry and Technology
Chemical Engineering (miscellaneous)
Bioengineering
url http://dx.doi.org/10.3390/pr7040239
publishDate 2019
physical 239
description <jats:p>The water produced by alkaline–surfactant–polymer (ASP) flooding is difficult to treat due to the presence of residual chemicals. Therefore, research and development of efficient and low-cost methods for the treatment of ASP flooding produced water is necessary. Chemical destabilization is the most common and effective way to treat the produced water. This paper describes an optimization method for demulsification and flocculation. Some demulsifiers and flocculants commonly used in oilfields were screened, compounded, and optimized. Since the effect of treatment using only demulsifier or flocculant to treat the produced water is often not enough to meet the reinjection standard, an orthogonal experiment was carried out to study the demulsification–flocculation method to treat produced water. Five main influencing factors of the oil concentration were investigated. Based on the results of the range analysis and the relationship between the five factors and oil concentration, the order of significant factors was found to be demulsifier dosage &gt; flocculant dosage &gt; settling time &gt; stirring time &gt; stirring intensity, and the optimal demulsification–flocculation treatment conditions were successfully optimized.</jats:p>
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author Huang, Bin, Wang, Jie, Zhang, Wei, Fu, Cheng, Wang, Ying, Liu, Xiangbin
author_facet Huang, Bin, Wang, Jie, Zhang, Wei, Fu, Cheng, Wang, Ying, Liu, Xiangbin, Huang, Bin, Wang, Jie, Zhang, Wei, Fu, Cheng, Wang, Ying, Liu, Xiangbin
author_sort huang, bin
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container_title Processes
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description <jats:p>The water produced by alkaline–surfactant–polymer (ASP) flooding is difficult to treat due to the presence of residual chemicals. Therefore, research and development of efficient and low-cost methods for the treatment of ASP flooding produced water is necessary. Chemical destabilization is the most common and effective way to treat the produced water. This paper describes an optimization method for demulsification and flocculation. Some demulsifiers and flocculants commonly used in oilfields were screened, compounded, and optimized. Since the effect of treatment using only demulsifier or flocculant to treat the produced water is often not enough to meet the reinjection standard, an orthogonal experiment was carried out to study the demulsification–flocculation method to treat produced water. Five main influencing factors of the oil concentration were investigated. Based on the results of the range analysis and the relationship between the five factors and oil concentration, the order of significant factors was found to be demulsifier dosage &gt; flocculant dosage &gt; settling time &gt; stirring time &gt; stirring intensity, and the optimal demulsification–flocculation treatment conditions were successfully optimized.</jats:p>
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spelling Huang, Bin Wang, Jie Zhang, Wei Fu, Cheng Wang, Ying Liu, Xiangbin 2227-9717 MDPI AG Process Chemistry and Technology Chemical Engineering (miscellaneous) Bioengineering http://dx.doi.org/10.3390/pr7040239 <jats:p>The water produced by alkaline–surfactant–polymer (ASP) flooding is difficult to treat due to the presence of residual chemicals. Therefore, research and development of efficient and low-cost methods for the treatment of ASP flooding produced water is necessary. Chemical destabilization is the most common and effective way to treat the produced water. This paper describes an optimization method for demulsification and flocculation. Some demulsifiers and flocculants commonly used in oilfields were screened, compounded, and optimized. Since the effect of treatment using only demulsifier or flocculant to treat the produced water is often not enough to meet the reinjection standard, an orthogonal experiment was carried out to study the demulsification–flocculation method to treat produced water. Five main influencing factors of the oil concentration were investigated. Based on the results of the range analysis and the relationship between the five factors and oil concentration, the order of significant factors was found to be demulsifier dosage &gt; flocculant dosage &gt; settling time &gt; stirring time &gt; stirring intensity, and the optimal demulsification–flocculation treatment conditions were successfully optimized.</jats:p> Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water Processes
spellingShingle Huang, Bin, Wang, Jie, Zhang, Wei, Fu, Cheng, Wang, Ying, Liu, Xiangbin, Processes, Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water, Process Chemistry and Technology, Chemical Engineering (miscellaneous), Bioengineering
title Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_full Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_fullStr Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_full_unstemmed Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_short Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
title_sort screening and optimization of demulsifiers and flocculants based on asp flooding-produced water
title_unstemmed Screening and Optimization of Demulsifiers and Flocculants Based on ASP Flooding-Produced Water
topic Process Chemistry and Technology, Chemical Engineering (miscellaneous), Bioengineering
url http://dx.doi.org/10.3390/pr7040239