Screening of water-soluble polymer producing microorganisms for MEOR
In order to obtain highly talented microorganisms to be applied to Fuyu oilfield, PetroChina Company Limited Jilin Oilfield Company, where fractures and sedimentary anisotropy dominate the permeability of the reservoir, microorganisms which produce water-soluble polymer were searched for Microbial F...
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| Published in | Journal of the Japanese Association for Petroleum Technology Vol. 67; no. 3; pp. 277 - 286 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | Japanese |
| Published |
Tokyo
The Japanese Association for Petroleum Technology
2002
Sekiyu Gijutsu Kyokai |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0370-9868 1881-4131 |
| DOI | 10.3720/japt.67.277 |
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| Abstract | In order to obtain highly talented microorganisms to be applied to Fuyu oilfield, PetroChina Company Limited Jilin Oilfield Company, where fractures and sedimentary anisotropy dominate the permeability of the reservoir, microorganisms which produce water-soluble polymer were searched for Microbial FOR by means of permeability modification. Enterobacter sp. TU-7A and TRC-322 were found among talented microorganisms which had already been obtained as gas producers, and Clostridium sp. TU-15A was newly obtained. All of these three microorganisms showed the viscosity of their cultivated solution equivalent to or higher than that shown by SP018 reported by Oklahoma University. Particularly, TU-15A showed an outstanding increase of viscosity, ca. 70cP at a shear rate of 40s-1. For simulative application of strain TU-15A to Jilin oilfield, its optimal cultivation condition and dominant growth under competitive reservoir conditions were discussed. Results may be summarized as follows. 1) The viscosity of cultivated solution for TU-15A proportionally increases with the initial molasses concentration, which makes possible an estimation of economically efficient concentration of molasses for injection, and moreover, which may make possible the use of fluid of so high viscosity that its injection is impossible through a well. 2) The optimum pH range of TU-15A for polymer production is 7.0-9.0. Automatic adjustment of pH to the optimum range may be done in the reservoir of Fuyu oilfield by natural dilution with brine, the pH of which is 7.7. 3) Initial cell concentration of TU-15A in the culture solution for injection must be equal to or higher than 1.0×106 cells/ml for its dominant growth in the reservoir. |
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| AbstractList | In order to obtain highly talented microorganisms to be applied to Fuyu oilfield, PetroChina Company Limited Jilin Oilfield Company, where fractures and sedimentary anisotropy dominate the permeability of the reservoir, microorganisms which produce water-soluble polymer were searched for Microbial FOR by means of permeability modification. Enterobacter sp. TU-7A and TRC-322 were found among talented microorganisms which had already been obtained as gas producers, and Clostridium sp. TU-15A was newly obtained. All of these three microorganisms showed the viscosity of their cultivated solution equivalent to or higher than that shown by SP018 reported by Oklahoma University. Particularly, TU-15A showed an outstanding increase of viscosity, ca. 70cP at a shear rate of 40s-1. For simulative application of strain TU-15A to Jilin oilfield, its optimal cultivation condition and dominant growth under competitive reservoir conditions were discussed. Results may be summarized as follows. 1) The viscosity of cultivated solution for TU-15A proportionally increases with the initial molasses concentration, which makes possible an estimation of economically efficient concentration of molasses for injection, and moreover, which may make possible the use of fluid of so high viscosity that its injection is impossible through a well. 2) The optimum pH range of TU-15A for polymer production is 7.0-9.0. Automatic adjustment of pH to the optimum range may be done in the reservoir of Fuyu oilfield by natural dilution with brine, the pH of which is 7.7. 3) Initial cell concentration of TU-15A in the culture solution for injection must be equal to or higher than 1.0×106 cells/ml for its dominant growth in the reservoir. |
| Author | Sugai, Yuichi Ikeda, Shuichiro Hong, Chengxie Chida, Tadashi Yazawa, Nintoku Enomoto, Heiji |
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| References | 2) Yonebayashi, H., Ono, K., Enomoto, H., Chida, T., Hong, C. X., Fujiwara, K., 1997: Microbial Enhan-ced Oil Recovery Field Pilot in a Waterflooded Reservoir, Society of Petroleum Engineers, 38070. 16) Sugai, Y., Kishita, A., Hong, C. X., Enomoto, H., Chida, T., Zhou. S. C., 1999: Laboratory Investiga-tion of Polymer Producer TU-15A for MEOR Field Tests, Society of Petroleum Engineers, 54381. 12) Pfiffner, S. M., Mclnerney, M. J., Jenneman, G. E., Knapp, R. M., 1986: Isolation of halotolerant, the-J. JAPANESE ASSOC. PETROL. TECHNOL. Vol. 67, No. 3 (2002)motolerant, facultative polymer-producing bacte-ria and characterization of the exopolymer, Ap-plied Environment Microbiology, 51 (2), 1224-1229 13) Ohno, K., Maezumi, S., Sarma, H. K., Enomoto, H., Hong, C. X., Zhao, S. C., 1999: Implementation and Performance of a Microbial Enhanced Oil Recovery Field Pilot in Fuyu Oilfield, China, Soci-ety of Petroleum Engineers, 54328. 7) 米林英治•洪承隻•木下睦•榎本兵治•千田佶,1996:嫌気性菌の油層内培養による石油の増進回収法に関する基礎的研究一菌の採取と集積培養菌のスクリーニングー.石技誌, 61 (4), 311-318. 6) 木下睦•榎本兵治•千田佶,1994:石油の増回収を目的とした炭化水素利用菌の集積培養に関する研究(第4報)-2F-NW8901菌種の利用に関する研究-.石技誌, 59 (2), 180-186. 3) 木下睦•榎本兵治•鴻巣彬•千田佶, 1992:石油の増回収を目的とした炭化水素利用菌の集積培養に関する研究(第1報)-炭化水素利用菌の探索と代謝機能によるスクリーニングー.石技誌, 57 (2), 125-132. 4) 木下睦•榎本兵治•鴻巣彬•千田佶, 1992:石油の増回収を目的とした炭化水素利用菌の集積培養に関する研究(第2報)-単離菌に対する金属イオンの影響-.石技誌, 57 (2), 133-141. 5) 木下睦•榎本兵治•千田佶,1994:石油の増回収を目的とした炭化水素利用菌の集積培養に関する研究(第3報)-酵母エキス添加の影響-.石技誌, 59 (2), 174-179. 9) 米林英治•洪承燮•木下睦•榎本兵治•千田佶,1997:嫌気性菌の油層内培養による石油の増進回収法に関する基礎的研究-サンドパックを用いたMEORの評価実驗-.石技誌, 62 (3), 195-202. 1) 米林英治•田口充•藤原和弘•吉田信一郎•榎本兵治,1996:微生物攻法に関する研究の現状とフィールドテストへの展望.石枝誌, 61 (6), 487-493. 11) Yonebayashi, H., Yoshida, S., Ono, K., Enomoto, H., 2000: Screening of Microorganisms for Micro-ial Enhanced Oil Recovery Processes, "Sekiyu Gakkaishi", 43 (1), 59-69. 14) 藤原和弘•田中信治•大塚牧子•中谷一記•前角繁之•矢澤仁徳•洪承隻•千田佶•榎本兵冶,2000:微生物攻法(MEOR)フィールドテストのための油層内細菌活動に関する調査.石油学会誌, 43 (4), 274-284. 10) 米林英治•洪承燮•木下睦•榎本兵治•千田佶,1997:嫌気性菌の油層内培養による石油の増進回収法に関する基礎的研究-9A菌を用いた油増進回収実驗における排油挙動の検討-.石技誌, 62 (4), 304-310. 8) 米林英治•洪承燮•木下睦•榎本兵治•千田佶,1996:嫌気性菌の油層内培養による石油の増進回収法に関する基礎的研究-単離菌の機能性評価-.石技誌, 61 (5), 443-451. 15) Fujiwara, K., Tanaka, S., Ohtuka, M., Ichimura, N., Yonebayashi, H., Hong, C. X., Enomoto, H., 1999:Evaluation of the Use of Amplified 16 SrRNA Gene-Restriction Fragment Length Polymor-phism Analysis to Detect Enterobacter cloacae and Bacillus licheniformis for Microbial Enhanced Oil Recovery Field Pilot, "Sekiyu Gakkaishi", 42 (5), 342-351. |
| References_xml | – reference: 7) 米林英治•洪承隻•木下睦•榎本兵治•千田佶,1996:嫌気性菌の油層内培養による石油の増進回収法に関する基礎的研究一菌の採取と集積培養菌のスクリーニングー.石技誌, 61 (4), 311-318. – reference: 4) 木下睦•榎本兵治•鴻巣彬•千田佶, 1992:石油の増回収を目的とした炭化水素利用菌の集積培養に関する研究(第2報)-単離菌に対する金属イオンの影響-.石技誌, 57 (2), 133-141. – reference: 3) 木下睦•榎本兵治•鴻巣彬•千田佶, 1992:石油の増回収を目的とした炭化水素利用菌の集積培養に関する研究(第1報)-炭化水素利用菌の探索と代謝機能によるスクリーニングー.石技誌, 57 (2), 125-132. – reference: 5) 木下睦•榎本兵治•千田佶,1994:石油の増回収を目的とした炭化水素利用菌の集積培養に関する研究(第3報)-酵母エキス添加の影響-.石技誌, 59 (2), 174-179. – reference: 1) 米林英治•田口充•藤原和弘•吉田信一郎•榎本兵治,1996:微生物攻法に関する研究の現状とフィールドテストへの展望.石枝誌, 61 (6), 487-493. – reference: 10) 米林英治•洪承燮•木下睦•榎本兵治•千田佶,1997:嫌気性菌の油層内培養による石油の増進回収法に関する基礎的研究-9A菌を用いた油増進回収実驗における排油挙動の検討-.石技誌, 62 (4), 304-310. – reference: 14) 藤原和弘•田中信治•大塚牧子•中谷一記•前角繁之•矢澤仁徳•洪承隻•千田佶•榎本兵冶,2000:微生物攻法(MEOR)フィールドテストのための油層内細菌活動に関する調査.石油学会誌, 43 (4), 274-284. – reference: 12) Pfiffner, S. M., Mclnerney, M. J., Jenneman, G. E., Knapp, R. M., 1986: Isolation of halotolerant, the-J. JAPANESE ASSOC. PETROL. TECHNOL. Vol. 67, No. 3 (2002)motolerant, facultative polymer-producing bacte-ria and characterization of the exopolymer, Ap-plied Environment Microbiology, 51 (2), 1224-1229 13) Ohno, K., Maezumi, S., Sarma, H. K., Enomoto, H., Hong, C. X., Zhao, S. C., 1999: Implementation and Performance of a Microbial Enhanced Oil Recovery Field Pilot in Fuyu Oilfield, China, Soci-ety of Petroleum Engineers, 54328. – reference: 15) Fujiwara, K., Tanaka, S., Ohtuka, M., Ichimura, N., Yonebayashi, H., Hong, C. X., Enomoto, H., 1999:Evaluation of the Use of Amplified 16 SrRNA Gene-Restriction Fragment Length Polymor-phism Analysis to Detect Enterobacter cloacae and Bacillus licheniformis for Microbial Enhanced Oil Recovery Field Pilot, "Sekiyu Gakkaishi", 42 (5), 342-351. – reference: 16) Sugai, Y., Kishita, A., Hong, C. X., Enomoto, H., Chida, T., Zhou. S. C., 1999: Laboratory Investiga-tion of Polymer Producer TU-15A for MEOR Field Tests, Society of Petroleum Engineers, 54381. – reference: 2) Yonebayashi, H., Ono, K., Enomoto, H., Chida, T., Hong, C. X., Fujiwara, K., 1997: Microbial Enhan-ced Oil Recovery Field Pilot in a Waterflooded Reservoir, Society of Petroleum Engineers, 38070. – reference: 8) 米林英治•洪承燮•木下睦•榎本兵治•千田佶,1996:嫌気性菌の油層内培養による石油の増進回収法に関する基礎的研究-単離菌の機能性評価-.石技誌, 61 (5), 443-451. – reference: 9) 米林英治•洪承燮•木下睦•榎本兵治•千田佶,1997:嫌気性菌の油層内培養による石油の増進回収法に関する基礎的研究-サンドパックを用いたMEORの評価実驗-.石技誌, 62 (3), 195-202. – reference: 6) 木下睦•榎本兵治•千田佶,1994:石油の増回収を目的とした炭化水素利用菌の集積培養に関する研究(第4報)-2F-NW8901菌種の利用に関する研究-.石技誌, 59 (2), 180-186. – reference: 11) Yonebayashi, H., Yoshida, S., Ono, K., Enomoto, H., 2000: Screening of Microorganisms for Micro-ial Enhanced Oil Recovery Processes, "Sekiyu Gakkaishi", 43 (1), 59-69. |
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| Title | Screening of water-soluble polymer producing microorganisms for MEOR |
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