Department of Biological Sciences, University of Calgary, 2500 University Drive NW, Calgary, Alberta, T2N 1N4, Canada.
Department of Biological Sciences, University of Calgary, 2500 University Drive NW, Calgary, Alberta, T2N 1N4, Canada.
J Hazard Mater. 2017 Jul 15;334:68-75. doi: 10.1016/j.jhazmat.2017.03.061. Epub 2017 Mar 30.
Amendment of reservoir fluid with injected substrates can enhance the growth and activity of microbes. The present study used isopropyl alcohol (IPA) or acetone to enhance the indigenous anaerobic nitrate-reducing bacterium Thauera sp. TK001. The strain was able to grow on IPA or acetone and nitrate. To monitor effects of strain TK001 on oil recovery, sand-packed columns containing heavy oil were flooded with minimal medium at atmospheric or high (400psi) pressure. Bioreactors were then inoculated with 0.5 pore volume (PV) of minimal medium containing Thauera sp. TK001 with 25mM of acetone or 22.2mM of IPA with or without 80mM nitrate. Incubation without flow for two weeks and subsequent injection with minimal medium gave an additional 17.0±6.7% of residual oil in place (ROIP) from low-pressure bioreactors and an additional 18.3% of ROIP from the high-pressure bioreactors. These results indicate that acetone or IPA, which are commonly used organic solvents, are good substrates for nitrate-mediated microbial enhanced oil recovery (MEOR), comparable to glucose, acetate or molasses, tested previously. This technology may be used for coupling biodegradation of IPA and/or acetone in waste streams to MEOR where these waste streams are generated in close proximity to an oil field.
通过向储层流体中注入基质进行改良可以增强微生物的生长和活性。本研究使用异丙醇(IPA)或丙酮来增强土著厌氧硝酸盐还原菌 Thauera sp. TK001。该菌株能够在 IPA 或丙酮和硝酸盐上生长。为了监测菌株 TK001 对采油的影响,用贫化培养基在大气或高压(400psi)下填充含重油的砂柱。然后,生物反应器用含有 Thauera sp. TK001 的贫化培养基接种 0.5 孔隙体积(PV),其中含有 25mM 丙酮或 22.2mM IPA,或含有或不含有 80mM 硝酸盐。在没有流动的情况下孵育两周,然后用贫化培养基进行后续注入,从低压生物反应器中获得了额外的 17.0±6.7%的剩余油在地(ROIP),从高压生物反应器中获得了额外的 18.3%的 ROIP。这些结果表明,丙酮或 IPA 等常用有机溶剂是硝酸盐介导的微生物强化采油(MEOR)的良好基质,与之前测试的葡萄糖、乙酸或糖蜜相当。这项技术可用于将 IPA 和/或丙酮在废物流中的生物降解与 MEOR 相结合,因为这些废物流是在靠近油田的地方产生的。
