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Ding Anna, Lian Liwen, Zhang Hui, Zhang Zhongning, Hui Rongyao. Studies on the Enriched Cultivation of Methanogen and the Fermentation Experiment by Using 1854 to 2608m Gas Source Rocks[J]. Acta Sedimentologica Sinica, 1995, 13(3): 117-125.
Citation: Ding Anna, Lian Liwen, Zhang Hui, Zhang Zhongning, Hui Rongyao. Studies on the Enriched Cultivation of Methanogen and the Fermentation Experiment by Using 1854 to 2608m Gas Source Rocks[J]. Acta Sedimentologica Sinica, 1995, 13(3): 117-125.

Studies on the Enriched Cultivation of Methanogen and the Fermentation Experiment by Using 1854 to 2608m Gas Source Rocks

  • Received Date: 1994-11-10
  • Publish Date: 1995-09-10
  • A10 samples were collected from the Jurassic system of the Mazhuang gas reservoir in the Junggar Basin. Formed in a swamp- shallow shore depositional environment, they consist of rich TypeⅡ B and Ⅲ organic matter with R0 values less than 0.74% at the low evolutionary stage. This paper mainly discusses questions on the amount of anerobic fermenting bacteria, the type and distribution of methanogen, and the methane yield of per gram organic carbon in the process of the simulahng fermentation experiment and so on. The numbers of permenting bacteria are from 5×102/g rock to 2.3×104/g rock. At 35℃-65℃,Methanococcus is found in all samples, at 55℃, Methanobocterium is found in No. 7 sample. Simulating experiment results show: (1 )methane accumulation yields are the most at 35℃, from 29.48ml to 39.41 ml, over 80% in the total gas-producing yield. (2)in the gas product, methane is the major, secondly carbon dioxide, and only a trace of ethane and profane is present. (3)from the methane-producing yield of per gram organic carbon, it can be seen that most of samples produce 50ml/g org. to 200ml/g org. gas, and the highest reaches to 568ml/g org. gas. (4)the methaneproducing ability is different at different temperature, 35 ℃ 65 ℃ 55 ℃. (5 )under the condition of the same sample and temprature, with the increase of the methane yield the carbon dioxide yield is also increasing. (6)the δ13C values of methane are - 40.12‰, to - 43.98‰, at 35℃, - 56.82‰ to - 60.10‰, at 55℃, -58.06‰ to - 65.11‰, at 65℃, and the median value of the carbon isotopic ratio of methane at 35℃ to 55 ℃ is nearly similar to the δ13C value of methane from the Mazhuang natural gas reservoir.This poper provides some evidence for that methanogen and other anaerobic microbes still have activity beneath over 2000m sediments and also it gives many significant scientific information to the study on geomicrobiology and some of of natural gas-forming mechnism.
  • [1] 1.邹立言、顾信章、盛志伟、范成龙、童簌言、程克明,1986,生油岩热解快速定量评价.科学出版社.1-19。

    2.刘幸太,1990.沼气发酵微生物及厌氧技术.科学出版社.112-119。

    3.惠荣摧.丁安娜、连莉文、张辉、张中宁.1994.产甲烷菌等微生物群体在中浅层天然气藏形成中的作用,天然气工业,14(增刊):56-61。

    4.丁安娜、惠荣耀.1991一种值得重视的天然气类型,天然气工业.(1):1-5。

    5.丁安娜、惠荣摺.1991,产甲烷菌生物地球化学作用的研究,地球科学进展.(3):62-69。
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  • Received:  1994-11-10
  • Published:  1995-09-10

Studies on the Enriched Cultivation of Methanogen and the Fermentation Experiment by Using 1854 to 2608m Gas Source Rocks

Abstract: A10 samples were collected from the Jurassic system of the Mazhuang gas reservoir in the Junggar Basin. Formed in a swamp- shallow shore depositional environment, they consist of rich TypeⅡ B and Ⅲ organic matter with R0 values less than 0.74% at the low evolutionary stage. This paper mainly discusses questions on the amount of anerobic fermenting bacteria, the type and distribution of methanogen, and the methane yield of per gram organic carbon in the process of the simulahng fermentation experiment and so on. The numbers of permenting bacteria are from 5×102/g rock to 2.3×104/g rock. At 35℃-65℃,Methanococcus is found in all samples, at 55℃, Methanobocterium is found in No. 7 sample. Simulating experiment results show: (1 )methane accumulation yields are the most at 35℃, from 29.48ml to 39.41 ml, over 80% in the total gas-producing yield. (2)in the gas product, methane is the major, secondly carbon dioxide, and only a trace of ethane and profane is present. (3)from the methane-producing yield of per gram organic carbon, it can be seen that most of samples produce 50ml/g org. to 200ml/g org. gas, and the highest reaches to 568ml/g org. gas. (4)the methaneproducing ability is different at different temperature, 35 ℃ 65 ℃ 55 ℃. (5 )under the condition of the same sample and temprature, with the increase of the methane yield the carbon dioxide yield is also increasing. (6)the δ13C values of methane are - 40.12‰, to - 43.98‰, at 35℃, - 56.82‰ to - 60.10‰, at 55℃, -58.06‰ to - 65.11‰, at 65℃, and the median value of the carbon isotopic ratio of methane at 35℃ to 55 ℃ is nearly similar to the δ13C value of methane from the Mazhuang natural gas reservoir.This poper provides some evidence for that methanogen and other anaerobic microbes still have activity beneath over 2000m sediments and also it gives many significant scientific information to the study on geomicrobiology and some of of natural gas-forming mechnism.

Ding Anna, Lian Liwen, Zhang Hui, Zhang Zhongning, Hui Rongyao. Studies on the Enriched Cultivation of Methanogen and the Fermentation Experiment by Using 1854 to 2608m Gas Source Rocks[J]. Acta Sedimentologica Sinica, 1995, 13(3): 117-125.
Citation: Ding Anna, Lian Liwen, Zhang Hui, Zhang Zhongning, Hui Rongyao. Studies on the Enriched Cultivation of Methanogen and the Fermentation Experiment by Using 1854 to 2608m Gas Source Rocks[J]. Acta Sedimentologica Sinica, 1995, 13(3): 117-125.
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