临界液体负荷模型及其在深层非常规气藏中的应用综述

Feng He, Xusen Huang, Yadong Yang, Chengzhong Bu, Hongchuan Xing, Lingang Pu, Senlin Zhang
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摘要

深层非常规天然气资源储量巨大,加之世界常规天然气资源严重枯竭,其开发利用的重要性逐渐凸显。包括页岩气、致密气和煤层气在内的深层非常规气藏在天然气资源总量中所占的比例不容小觑。由于渗透率和孔隙度较低,水力压裂技术仍是开发深层非常规天然气资源的重要手段。然而,压裂液的存在和井筒底部的积水会大大降低天然气产量。装液模型可用于确定气井何时开始装液。本文对不同类型的载液模型进行了分类,并分析了不同模型的适用性。目前,现有的临界载液模型可分为机理模型和半经验模型。Turner 建立的模型是典型的机理模型。垂直井和水平井在临界载液模型的应用上存在很大差异。本文提供并讨论了液体负荷模型在不同气田的现场案例。介绍并分析了近年来液体加载模型的机理。对其中的物理模拟和实验工作进行了描述和讨论,以阐明建模机制的可行性。本文还介绍了改进液体加载模型的局限性和未来工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Review on critical liquid loading models and their application in deep unconventional gas reservoirs
The exploitation of deep unconventional gas resources has gradually become more significant attributing to their huge reserves and the severe depletion of convention gas resources in the world. The proportion of deep unconventional gas reservoirs in the total gas resources cannot be underestimated, including shale gas, tight gas, and gas of coal seam. Due to the low permeability and porosity, hydraulic fracturing technology is still an important means to develop deep unconventional gas resources. However, the presence of fracturing fluids and water accumulation at the bottom of the wellbore significantly reduce gas production. The liquid loading model can be used to determine when the gas well begins to load the liquid. In this work, different types of liquid loading models are classified, and the applicability of different models is analyzed. At present, the existing critical liquid carrying models can be divided into mechanism models and semi-empirical models. The model established by Turner is a typical mechanism model. There are great differences in the application of a critical liquid loading model between vertical and horizontal wells. The field cases of a liquid loading model in different gas fields are provided and discussed. The mechanism of liquid loading models in recent years is introduced and analyzed. The physical simulations and experimental work therein are described and discussed to clarify the feasibility of the modeling mechanism. This article also presents the limitation and future work for improving the liquid loading models.
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