特稠油油藏水平井地层损害特征及补救方法

Zhang-cong Liu, Chang-chun Chen, Xue Lv, Zhao-peng Yang, Y. Shen, Yanyan Luo, Xingmin Li
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摘要

水平井初次采油在委内瑞拉奥里诺科重油带特稠油油藏成功应用。在钻井过程中,由于钻井液侵入造成的地层破坏降低了井周有效渗透率,导致压降升高,对这类失压油藏的产能产生不利影响。在本研究中,进行了钻井液侵入的室内实验,以确定损伤机制。试验中使用的油样取自Orinoco带J区块,并在实验室中恢复地层温度,模拟水平井钻井中钻井液与原油混合的过程。将原油与钻井液按不同比例混合,形成稳定的乳化液。此外,通过试井解释对损伤程度进行量化。采用基于三次累积的反褶积法估算表皮系数、井筒储层及其他地层参数。最后采用酸洗和井底电加热两种补救方法在油田进行了应用。实验结果表明,水平井的低产能是由于钻井液中存在大量碳酸钙稳定的高粘性乳状液体系。乳化液系统限制了储层流体从地层流向有缝尾管。在J区块,受操作问题的限制,有效关井时间普遍较短。常规试井方法很难给出可靠的结果。与常规方法相比,反褶积方法可以解决数据的局限性,最大限度地减少井筒存储引起的初始畸变,得到更可靠的结果。酸洗后可暂时提高产量,但产量迅速下降。电加热可以明显改善油液在井筒附近的流动性,保持稳定的生产。本文结合实验室研究和试井解释来描述地层损害,为补救作业提供指导,以提高油井产能。
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Formation Damage Characterization of Horizontal Well in Extra-Heavy Oil Reservoir and Methods of Remedy
Primary production using horizontal wells has been successfully applied in extra-heavy oil reservoirs, heavy oil belt, Orinoco, Venezuela. During drilling period, formation damage due to drilling fluid invasion lowers the effective permeability around the well, leads to higher pressure drop and has detrimental impact on well productivity in such pressure depleted reservoirs. In this study, laboratory experiments of drilling fluid invasion are conducted to identify damage mechanism. The oil sample used in the test is taken from Block J, Orinoco Belt and the formation temperature is restored in the lab to mimic the process of drilling fluid mixing with crude oil in horizontal drilling. The stable emulsion is formed by mixing the crude oil with drilling fluid in different proportions. Furthermore, damage level is quantified by well test interpretation. Skin factor, wellbore storage and other formation parameters are estimated by deconvolution method based on three build-ups. Finally, acid washing and well bottomhole electric heating, two methods of remedy are applied in oilfield. Experiment results show that low productivity of the horizontal wells is due to the presence of highly viscous emulsion system stabilized by large amount of calcium carbonate in drilling fluid. The emulsion system restricts reservoir fluid flowing from the formation to the slotted liner. In Block J, constrained by the operational problems, the effective shut-in time is commonly short. Conventional well test method can hardly give the reliable results. Compared with the conventional method, deconvolution method can solve the data limitation, minimize the initial distortion caused by wellbore storage and get more reliable results. The production can be improved temporarily after the acid washing while declines rapidly. Electric heating can obviously improve the oil mobility near wellbore and maintain stable production. This paper combines both lab studies and well test interpretation to characterize the formation damage, provides guidance for the remedial operations to improve well productivity.
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