Alkaline/Surfactant/Polymer Flood: From the Laboratory to the Field

提高采收率 石油工程 肺表面活性物质 碳酸盐 石油 油田 环境科学 沥青 聚合物 工艺工程 工程类 化学工程 化学 材料科学 有机化学 复合材料
作者
W. M. Stoll,H.. al Shureqi,Jose Finol,Said Alharthy,Stella Oyemade,A.. de Kruijf,Johannes van Wunnik,Fred Arkesteijn,R. Bouwmeester,M. J. Faber
出处
期刊:SPE reservoir evaluation & engineering [Society of Petroleum Engineers]
卷期号:14 (06): 702-712 被引量:103
标识
DOI:10.2118/129164-pa
摘要

Summary After two decades of relative calm, chemical enhanced-oil-recovery (EOR) technologies are currently revitalized globally. Techniques such as alkaline/surfactant/polymer (ASP) flooding, originally developed by Shell, have the potential to recover significant fractions of remaining oil at a CO2 footprint that is low compared with, for example, thermal EOR, and they do not depend on a valuable miscible agent such as hydrocarbon gas. On the other hand, chemical EOR technologies typically require large quantities of chemical products such as surfactants and polymers, which must be transported to, and handled safely in, the field. Despite rising industry interest in chemical EOR, until today only polymer flooding has been applied on a significant scale, whereas applications of surfactant/polymer or alkaline ASP flooding were limited to multiwell pilots or to small field scale. Next to the oil-price fluctuations of the past two decades, technical reasons that discouraged the application of chemical EOR are excessive formation of carbonate or silica scale and formation of strong emulsions in the production facilities. Having identified significant target-oil volumes for ASP flooding, Petroleum Development Oman (PDO), supported by Shell Technology Oman, carried out a sequence of single-well pilots in three fields, sandstone and carbonate, to assess the flooding potential of tailor-made chemical formulations under real subsurface conditions, and to quantify the benefits of full-field ASP developments. This paper discusses the extensive design process that was followed. Starting from a description of the optimization of chemical phase behavior in test-tube and coreflood experiments, we elaborate how the key chemical and flow properties of an ASP flood are captured to calibrate a comprehensive reservoir-simulation model. Using this model, we evaluate PDO's single-well pilots and demonstrate how these results are used to design a pattern- flood pilot.
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