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体积压裂过程中岩性界面对套管应力影响研究 被引量:10
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作者 席岩 李军 +3 位作者 梅博文 张华礼 连威 黄纪勇 《石油机械》 北大核心 2018年第5期115-121,共7页
页岩气井压裂过程中套管变形问题显著,岩性界面是导致套管变形的重要影响因素。基于页岩气井压裂工程实际,建立了套管-水泥环-地层有限元模型,采用解析法和数值法结合的方式,计算了页岩储层各向异性、瞬态温度-压力耦合作用以及岩性界... 页岩气井压裂过程中套管变形问题显著,岩性界面是导致套管变形的重要影响因素。基于页岩气井压裂工程实际,建立了套管-水泥环-地层有限元模型,采用解析法和数值法结合的方式,计算了页岩储层各向异性、瞬态温度-压力耦合作用以及岩性界面对套管应力的影响。研究结果表明:相比各向同性储层,页岩储层各向异性提高了套管应力,弹性模量各向异性相比泊松比各向异性更为敏感;瞬态温度-压力耦合作用下套管应力先增大后减小,压裂液排量越大,套管应力越高;岩性界面大幅提高了套管应力,是导致套管产生变形的重要原因。研究结果可为页岩气井压裂过程中套管完整性设计和控制提供参考。 展开更多
关键词 套管变形 岩性界面 瞬态温度-压力耦合 套管应力 体积压裂
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B, Sr, O and H Isotopic Compositions of Formation Waters from the Bachu Bulge in the Tarim Basin 被引量:7
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作者 CAI Chunfang PENG Licai +1 位作者 mei bowen XIAO Yingkai 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2006年第4期550-556,共7页
In order to elucidate the origin and migration of basinal brines in the Bachu Bulge, Tarim Basin, we have carried out analyses on chemical composition, and boron, hydrogen and oxygen isotopes of formation waters toget... In order to elucidate the origin and migration of basinal brines in the Bachu Bulge, Tarim Basin, we have carried out analyses on chemical composition, and boron, hydrogen and oxygen isotopes of formation waters together with the XRD of clay minerals from the Paleozoic strata. The waters show Ca, B, Li and Sr enrichment and SO4 depletion in the Carboniferous and Ordovician and K enrichment in part of the Ordovician relative to seawater. The relationship between δD and δ^18O shows that all the data of the waters decline towards the Global Meteoric Water Line with the intersection of them close to the present-day local meteoric water, suggesting that modern meteoric water has mixed with evaporated seawater. The ^87Sr/^86Sr ratios range from 0.7090 to 0.7011, significantly higher than those of the contemporary seawater. The δ^11B values range from +19.7 to +32.3‰, showing a decrease with the depth and B concentrations. The results suggest that isotopically distinct B and Sr were derived from external sources. However, since the percentages of illite are shown to increase with depth among clay minerals in the study area, i.e., illite is due to precipitation rather than leaching during deeper burial, it is unlikely for illite to have contributed a significant amount of B to the waters. Thus, B with low δ^11B values is interpreted to have been added mainly from thermal degradation of kerogen or the basalts in the Cambrian and Lower Ordovician. 展开更多
关键词 δ^11B formation water water-rock interaction Tarim Basin
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