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渤海油田浓变凝胶防砂控水技术研究与应用 被引量:4
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作者 白健华 吴华晓 +3 位作者 赵顺超 尚宝兵 于法浩 周玉刚 《石油化工高等学校学报》 CAS 2022年第1期68-74,共7页
针对渤海油田高含水易出砂油井防砂、控水技术需求及目前机械防砂控水一体化技术的局限性,提出应用浓变凝胶实现防砂控水一体化的技术路线。通过开展浓变凝胶控砂性能与控水性能测试,验证选择性控水与防砂一体化技术实施可行性,基于浓... 针对渤海油田高含水易出砂油井防砂、控水技术需求及目前机械防砂控水一体化技术的局限性,提出应用浓变凝胶实现防砂控水一体化的技术路线。通过开展浓变凝胶控砂性能与控水性能测试,验证选择性控水与防砂一体化技术实施可行性,基于浓变凝胶对储层条件与生产条件适应性评价明确浓变凝胶防砂控水的适应范围,最终形成浓变凝胶防砂控水一体化技术。结果表明,浓变凝胶控砂可将储层渗透率损害和出砂率分别控制在13%和0.03%以内,且能够实现油层与水层的选择性封堵;适应性评价结果表明,浓变凝胶耐温超过80℃,耐矿化度45 000 mg/L,可承受最大采液强度257.6 m^(3)/(d·m)。渤海Z油田应用浓变凝胶防砂控水一体化技术后,防砂有效期达到13~16个月,且持续有效,含水较措施前下降3%~5%,日产油量平均提高88.48%,提液幅度达到50%以上。浓变凝胶防砂控水一体化技术为海上油田高含水出砂井提液增油提供了思路。 展开更多
关键词 浓变凝胶 防砂 选择性封堵 高含水
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Soil Microbiological Activity and Carbon Dynamics in the Current Climate Change Scenarios:A Review 被引量:14
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作者 Javid A.SOFI Aabid H.LONE +5 位作者 Mumtaz A.GANIE Naseer A.DAR Sajad A.BHAT Malik MUKHTAR Mohd Ashraf DAR Shazia RAMZAN 《Pedosphere》 SCIE CAS CSCD 2016年第5期577-591,共15页
Microbial activities are affected by a myriad of factors with end points involved in nutrient cycling and carbon sequestration issues.Because of their prominent role in the global carbon balance and their possible rol... Microbial activities are affected by a myriad of factors with end points involved in nutrient cycling and carbon sequestration issues.Because of their prominent role in the global carbon balance and their possible role in carbon sequestration, soil microbes are very important organisms in relation to global climate changes. This review focuses mainly on the responses of soil microbes to climate changes and subsequent effects on soil carbon dynamics. An overview table regarding extracellular enzyme activities(EAA) with all relevant literature data summarizes the effects of different ecosystems under various experimental treatments on EAA. Increasing temperature, altered soil moisture regimes, and elevated carbon dioxide significantly affect directly or indirectly soil microbial activities.High temperature regimes can increase the microbial activities which can provide positive feedback to climate change, whereas lower moisture condition in pedosystem can negate the increase, although the interactive effects still remain unanswered. Shifts in soil microbial community in response to climate change have been determined by gene probing, phospholipid fatty acid analysis(PLFA),terminal restriction length polymorphism(TRFLP), and denaturing gradient gel electrophoresis(DGGE), but in a recent investigations,omic technological interventions have enabled determination of the shift in soil microbe community at a taxa level, which can provide very important inputs for modeling C sequestration process. The intricacy and diversity of the soil microbial population and how it responds to climate change are big challenges, but new molecular and stable isotope probing tools are being developed for linking fluctuations in microbial diversity to ecosystem function. 展开更多
关键词 carbon cycling carbon dioxide carbon exchange carbon sequestration microbe community soil enzymes soil moisture soil temperature
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