Study on Co-production compatibility evaluation method of multilayer tight gas reservoir

IF 4.9 2区 工程技术 Q2 ENERGY & FUELS
Guanghao Zhong , Song Li , Dazhen Tang , Wenguang Tian , Wenji Lin , Peng Feng
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引用次数: 3

Abstract

Tight sandstone gas reservoir normally has a poor pore connectivity and a low productivity of single layer production, and the multilayer co-production technique has received increasing attention to improve its recovery in recent years. However, the range and impact of geological conditions are still unclear, leading to a challenging comprehensive evaluation of multilayer co-production compatibility. In this study, the impact of a series of factors on multilayer tight gas production is discussed by numerical simulation in detail, and their compatibility thresholds are determined. The variable weight based fuzzy comprehensive evaluation (VW-FCE) method is constructed, and a co-production compatibility index (CCI) is further proposed for multilayer tight gas reservoir co-production evaluation, with an application to Daning-jixian tight gas reservoirs for verification. The results show that thickness, permeability, reservoir pressure, and gas saturation are the key factors affecting the co-production, and the 10-year cumulative gas production contribution of the lower sandstone increases with the increase of each parameter ratio between the lower and the upper sandstones. When the properties of two co-production layers are similar, their compatibility is mainly impacted by the formation pressure and gas saturation variations. Otherwise, their compatibility is controlled by the formation thickness and permeability. The CCI values for multilayer co-production is 0.6–1, and the gas production capacity shows a positive exponential relationship with the evaluation index. The proposed method is verified by comparing with the actual production data from typical wells of tight sandstone gas co-production in the Daning-Jixian area, which indicates that the CCI is appropriate to evaluate the co-production compatibility of multiplayer tight gas reservoir, and provide theoretical supports for tight gas co-production.

多层致密气藏联产相容性评价方法研究
致密砂岩气藏孔隙连通性差,单层开采产能低,为提高其采收率,多层联产技术近年来越来越受到重视。然而,地质条件的范围和影响仍然不清楚,导致多层联合生产兼容性的综合评价具有挑战性。本文通过数值模拟详细讨论了一系列因素对多层致密气生产的影响,并确定了它们的相容阈值。构建了基于变权的模糊综合评价(VW-FCE)方法,并进一步提出了多层致密气藏联产评价的产合相容性指标(CCI),并以大宁-吉县致密气藏为例进行了验证。结果表明,厚度、渗透率、储层压力、含气饱和度是影响联产的关键因素,随着上下砂岩各参数比值的增大,下砂岩10年累计产气量贡献增大。当两产层性质相似时,其配伍性主要受地层压力和含气饱和度变化的影响。此外,它们的相容性受地层厚度和渗透率的控制。多层联产的CCI值为0.6-1,产气量与评价指标呈正指数关系。通过与大宁-蓟县地区致密砂岩气联产典型井的实际生产数据对比,验证了该方法的有效性,表明CCI可用于评价多层致密气藏的联产相容性,为致密气联产提供理论支持。
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来源期刊
Journal of Natural Gas Science and Engineering
Journal of Natural Gas Science and Engineering ENERGY & FUELS-ENGINEERING, CHEMICAL
CiteScore
8.90
自引率
0.00%
发文量
388
审稿时长
3.6 months
期刊介绍: The objective of the Journal of Natural Gas Science & Engineering is to bridge the gap between the engineering and the science of natural gas by publishing explicitly written articles intelligible to scientists and engineers working in any field of natural gas science and engineering from the reservoir to the market. An attempt is made in all issues to balance the subject matter and to appeal to a broad readership. The Journal of Natural Gas Science & Engineering covers the fields of natural gas exploration, production, processing and transmission in its broadest possible sense. Topics include: origin and accumulation of natural gas; natural gas geochemistry; gas-reservoir engineering; well logging, testing and evaluation; mathematical modelling; enhanced gas recovery; thermodynamics and phase behaviour, gas-reservoir modelling and simulation; natural gas production engineering; primary and enhanced production from unconventional gas resources, subsurface issues related to coalbed methane, tight gas, shale gas, and hydrate production, formation evaluation; exploration methods, multiphase flow and flow assurance issues, novel processing (e.g., subsea) techniques, raw gas transmission methods, gas processing/LNG technologies, sales gas transmission and storage. The Journal of Natural Gas Science & Engineering will also focus on economical, environmental, management and safety issues related to natural gas production, processing and transportation.
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