Relationship between Microbial Community Characteristics and Flooding Efficiency in Microbial Enhanced Oil Recovery

Gangzheng Sun, Jing Hu, Qiong Chen, Zihui Chen, Weidong Wang, Q. Qian, Feng-zhen Han, Ling Li, Yuesheng Li
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Abstract

Microbial enhanced oil recovery (MEOR) is the research focus in the field of energy development as an environmentally friendly and low cost technology. MEOR can bes divided into indigenous microbial oil recovery and exogenous microbial oil recovery. The ultimate goal of indigenous microbial flooding is to enhance oil recovery via stimulation of specific indigenous microorganisms by injecting optimal nutrients. For studying the specific rule to activate the indigenous community during the long-term injection period, a series of indigenous displacement flooding experiments were carried out by using the long-core physical simulation test. The experimental results have shown that the movement of nutrients components (i.e., carbon/nitrogen/phosphorus) differed from the consumption of them. Moreover, there was a positive relationship between the nutrients concentration and bacteria concentration once observed in the produced fluid. And the trend of concentration of acetic acid was consistent with that of methanogens. When adding same activators, the impacts of selective activators to stimulate the indigenous microorganisms became worse along with the injection period, which led to less oil recovery efficiency.
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微生物采油中微生物群落特征与驱油效率的关系
微生物提高采油技术作为一种环保、低成本的技术,已成为能源开发领域的研究热点。MEOR可分为原生微生物采油和外源微生物采油。原生微生物驱油的最终目标是通过注入最佳营养物来刺激特定的原生微生物,从而提高石油采收率。为研究长期注入期激活土著群落的具体规律,采用长岩心物理模拟试验进行了一系列土著驱替驱油实验。实验结果表明,营养成分(即碳/氮/磷)的运动与它们的消耗不同。此外,在产出液中观察到的营养物质浓度与细菌浓度之间存在正相关关系。乙酸浓度变化趋势与产甲烷菌浓度变化趋势一致。在添加相同活化剂的情况下,随着注入时间的延长,选择性活化剂对原生微生物的刺激作用逐渐减弱,导致采收率降低。
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