Bioemulsification and Microbial Community Reconstruction in Thermally Processed Crude Oil
Utilization of low-cost, environmental-friendly microbial enhanced oil recovery (MEOR) techniques in thermal recovery-processed oil reservoirs is potentially feasible. However, how exogenous microbes facilitate crude oil recovery in this deep biosphere, especially under mesophilic conditions, is sca...
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Published in | Microorganisms (Basel) Vol. 9; no. 10; p. 2054 |
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Main Authors | , , , , , , |
Format | Journal Article |
Language | English |
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29.09.2021
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Abstract | Utilization of low-cost, environmental-friendly microbial enhanced oil recovery (MEOR) techniques in thermal recovery-processed oil reservoirs is potentially feasible. However, how exogenous microbes facilitate crude oil recovery in this deep biosphere, especially under mesophilic conditions, is scarcely investigated. In this study, a thermal treatment and a thermal recurrence were processed on crude oil collected from Daqing Oilfield, and then a 30-day incubation of the pretreated crude oil at 37 °C was operated with the addition of two locally isolated hydrocarbon-degrading bacteria, Amycolicicoccus subflavus DQS3-9A1T and Dietzia sp. DQ12-45-1b, respectively. The pH, surface tension, hydrocarbon profiles, culture-dependent cell densities and taxonomies, and whole and active microbial community compositions were determined. It was found that both A. subflavus DQS3-9A1T and Dietzia sp. DQ12-45-1b successfully induced culture acidification, crude oil bioemulsification, and residual oil sub-fraction alteration, no matter whether the crude oil was thermally pretreated or not. Endogenous bacteria which could proliferate on double heated crude oil were very few. Compared with A. subflavus, Dietzia sp. was substantially more effective at inducing the proliferation of varied species in one-time heated crude oil. Meanwhile, the effects of Dietzia sp. on crude oil bioemulsification and hydrocarbon profile alteration were not significantly influenced by the ploidy increasing of NaCl contents (from 5 g/L to 50 g/L), but the reconstructed bacterial communities became very simple, in which the Dietzia genus was predominant. Our study provides useful information to understand MEOR trials on thermally processed oil reservoirs, and proves that this strategy could be operated by using the locally available hydrocarbon-degrading microbes in mesophilic conditions with different salinity degrees. |
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AbstractList | Utilization of low-cost, environmental-friendly microbial enhanced oil recovery (MEOR) techniques in thermal recovery-processed oil reservoirs is potentially feasible. However, how exogenous microbes facilitate crude oil recovery in this deep biosphere, especially under mesophilic conditions, is scarcely investigated. In this study, a thermal treatment and a thermal recurrence were processed on crude oil collected from Daqing Oilfield, and then a 30-day incubation of the pretreated crude oil at 37 °C was operated with the addition of two locally isolated hydrocarbon-degrading bacteria, Amycolicicoccus subflavus DQS3-9A1T and Dietzia sp. DQ12-45-1b, respectively. The pH, surface tension, hydrocarbon profiles, culture-dependent cell densities and taxonomies, and whole and active microbial community compositions were determined. It was found that both A. subflavus DQS3-9A1T and Dietzia sp. DQ12-45-1b successfully induced culture acidification, crude oil bioemulsification, and residual oil sub-fraction alteration, no matter whether the crude oil was thermally pretreated or not. Endogenous bacteria which could proliferate on double heated crude oil were very few. Compared with A. subflavus, Dietzia sp. was substantially more effective at inducing the proliferation of varied species in one-time heated crude oil. Meanwhile, the effects of Dietzia sp. on crude oil bioemulsification and hydrocarbon profile alteration were not significantly influenced by the ploidy increasing of NaCl contents (from 5 g/L to 50 g/L), but the reconstructed bacterial communities became very simple, in which the Dietzia genus was predominant. Our study provides useful information to understand MEOR trials on thermally processed oil reservoirs, and proves that this strategy could be operated by using the locally available hydrocarbon-degrading microbes in mesophilic conditions with different salinity degrees. Utilization of low-cost, environmental-friendly microbial enhanced oil recovery (MEOR) techniques in thermal recovery-processed oil reservoirs is potentially feasible. However, how exogenous microbes facilitate crude oil recovery in this deep biosphere, especially under mesophilic conditions, is scarcely investigated. In this study, a thermal treatment and a thermal recurrence were processed on crude oil collected from Daqing Oilfield, and then a 30-day incubation of the pretreated crude oil at 37 °C was operated with the addition of two locally isolated hydrocarbon-degrading bacteria, Amycolicicoccus subflavus DQS3-9A1 T and Dietzia sp. DQ12-45-1b, respectively. The pH, surface tension, hydrocarbon profiles, culture-dependent cell densities and taxonomies, and whole and active microbial community compositions were determined. It was found that both A. subflavus DQS3-9A1 T and Dietzia sp. DQ12-45-1b successfully induced culture acidification, crude oil bioemulsification, and residual oil sub-fraction alteration, no matter whether the crude oil was thermally pretreated or not. Endogenous bacteria which could proliferate on double heated crude oil were very few. Compared with A. subflavus , Dietzia sp. was substantially more effective at inducing the proliferation of varied species in one-time heated crude oil. Meanwhile, the effects of Dietzia sp. on crude oil bioemulsification and hydrocarbon profile alteration were not significantly influenced by the ploidy increasing of NaCl contents (from 5 g/L to 50 g/L), but the reconstructed bacterial communities became very simple, in which the Dietzia genus was predominant. Our study provides useful information to understand MEOR trials on thermally processed oil reservoirs, and proves that this strategy could be operated by using the locally available hydrocarbon-degrading microbes in mesophilic conditions with different salinity degrees. |
Author | Nie, Yong Hu, Bing Qin, Xiao-Yu Zhao, Jie-Yu Wu, Xiao-Lei Zhang, Kai-Duan Xing, Jian-Min |
AuthorAffiliation | 3 College of Engineering, Peking University, Beijing 100871, China; zjyjnzx@163.com (J.-Y.Z.); qinxiaoyu@pku.edu.cn (X.-Y.Q.); zhangkaiduan@pku.edu.cn (K.-D.Z.) 2 Key Laboratory of Medical Molecule Science and Pharmaceutics Engineering, Ministry of Industry and Information Technology of China, Beijing 102401, China 1 Group of Biochemical Engineering, Department of Chemical Engineering, College of Chemistry and Chemical Engineering, Beijing Institute of Technology, Beijing 102401, China; binghu319@bit.edu.cn 5 State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China 4 CAS Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China; jmxing@ipe.ac.cn 6 Institute of Ecology, Peking University, Beijing 100871, China |
AuthorAffiliation_xml | – name: 1 Group of Biochemical Engineering, Department of Chemical Engineering, College of Chemistry and Chemical Engineering, Beijing Institute of Technology, Beijing 102401, China; binghu319@bit.edu.cn – name: 3 College of Engineering, Peking University, Beijing 100871, China; zjyjnzx@163.com (J.-Y.Z.); qinxiaoyu@pku.edu.cn (X.-Y.Q.); zhangkaiduan@pku.edu.cn (K.-D.Z.) – name: 4 CAS Key Laboratory of Green Process and Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China; jmxing@ipe.ac.cn – name: 5 State Key Laboratory of Biochemical Engineering, Institute of Process Engineering, Chinese Academy of Sciences, Beijing 100190, China – name: 2 Key Laboratory of Medical Molecule Science and Pharmaceutics Engineering, Ministry of Industry and Information Technology of China, Beijing 102401, China – name: 6 Institute of Ecology, Peking University, Beijing 100871, China |
Author_xml | – sequence: 1 givenname: Bing orcidid: 0000-0002-9313-9428 surname: Hu fullname: Hu, Bing – sequence: 2 givenname: Jie-Yu surname: Zhao fullname: Zhao, Jie-Yu – sequence: 3 givenname: Yong orcidid: 0000-0002-5940-1218 surname: Nie fullname: Nie, Yong – sequence: 4 givenname: Xiao-Yu orcidid: 0000-0003-0206-8669 surname: Qin fullname: Qin, Xiao-Yu – sequence: 5 givenname: Kai-Duan orcidid: 0000-0003-1362-5010 surname: Zhang fullname: Zhang, Kai-Duan – sequence: 6 givenname: Jian-Min surname: Xing fullname: Xing, Jian-Min – sequence: 7 givenname: Xiao-Lei orcidid: 0000-0002-9897-6903 surname: Wu fullname: Wu, Xiao-Lei |
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SubjectTerms | Acidification Bacteria bioemulsification Biosphere By products Cell culture Consortia Crude oil Dietzia Enhanced oil recovery Heat heat perturbation Heat treatment Hydrocarbon-degrading bacteria Hydrocarbons hypersalinity microbial community reconstruction microbial enhanced oil recovery (MEOR) Microbiomes Microorganisms Oil Oil and gas fields Oil field equipment Oil fields Oil recovery Oil reservoirs Petroleum production Ploidy Reservoirs Salinity Seeds Sodium chloride Surface tension Surfactants Taxonomy Viscosity |
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Title | Bioemulsification and Microbial Community Reconstruction in Thermally Processed Crude Oil |
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