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储层含水条件下致密砂岩/页岩无机质纳米孔隙气相渗透率模型
引用本文:李靖,李相方,李莹莹,石军太,吴克柳,白艳改,徐敏,冯东. 储层含水条件下致密砂岩/页岩无机质纳米孔隙气相渗透率模型[J]. 力学学报, 2015, 47(6): 932-944. DOI: 10.6052/0459-1879-15-185
作者姓名:李靖  李相方  李莹莹  石军太  吴克柳  白艳改  徐敏  冯东
作者单位:1.中国石油大学(北京)石油工程教育部重点实验室, 北京 102249
基金项目:国家自然科学基金(51490654)和中国石油大学(北京)科研基金(YJRC-2013-37)资助项目.
摘    要:页岩及致密砂岩储层富含纳米级孔隙,且储层条件下页岩孔隙(尤其无机质孔隙)及致密砂岩孔隙普遍含水,因此含水条件下纳米孔隙气体的流动能力的评价对这两类气藏的产能分析及生产预测具有重要意义.本文首先基于纳米孔隙内液态水及汽态水热力学平衡理论,量化了储层孔隙含水饱和度分布特征;进一步在纳米孔隙单相气体传质理论的基础上,考虑了孔隙含水饱和度对气体流动的影响;最终建立了含水饱和度与气相渗透率的关系曲线. 基于本文岩心孔隙分布特征,计算结果表明:储层含水饱和度对气体流动能力的影响不容忽视,在储层含水饱和度20%的情况下,气相流动能力与干燥情况相比将降低约10%;在含水饱和度40% 的情况下,气相流动能力将降低约20%. 

关 键 词:超低含水饱和度   纳米孔隙   页岩   致密砂岩   气相渗透率
收稿时间:2015-05-23
修稿时间:2015-08-31

MODEL FOR GAS TRANSPORT IN NANOPORES OF SHALE AND TIGHT FORMATION UNDER RESERVOIR CONDITION
Li Jing,Li Xiangfang,Li Yingying,Shi Juntai,Wu Keliu,Bai Yangai,Xu Min,Feng Dong. MODEL FOR GAS TRANSPORT IN NANOPORES OF SHALE AND TIGHT FORMATION UNDER RESERVOIR CONDITION[J]. chinese journal of theoretical and applied mechanics, 2015, 47(6): 932-944. DOI: 10.6052/0459-1879-15-185
Authors:Li Jing  Li Xiangfang  Li Yingying  Shi Juntai  Wu Keliu  Bai Yangai  Xu Min  Feng Dong
Affiliation:1.Key Laboratory for Petroleum Engineering of the Ministry of Education, China University of Petroleum, Beijing 102249, China2. CNOOC Research Institute, Beijing 100028, China3. University of Calgary, Chemical and Petroleum Engineering, Calgary, Alberta T2N1N4, Canada
Abstract:The formations of shale gas and tight gas are abundant in the nanopores of shale and tight sandstone, and the pores are partially saturated with water under reservoir conditions, so the evaluation of gas flow capacity by considering water saturation is important to gas production forecast. Based on the thermodynamic equilibrium theory between liquid and vapor in formation nanopores, we quantify the distribution of reservoir pores water under ultra-low water saturation condition, and establish the relation between water saturation and gas phase permeability. Results show that the impacts of water saturation on the gas flow can be divided in two forms: (1)bound water film in large pores will reduce the e ective pore diameter for gas flow; (2)capillary water in small pore will block the entire gas flow channel. And the e ect of water saturation on gas flow capacity cannot be ignored. In case that water saturation is 20%, the gas flow capacity will reduce 10%, compared with the dry conditions. Under the condition that water saturation is 40%, the gas flow capacity will be reduced by about 20%. The results calculated by the models in this paper are in agreement with the experimental results in a newly-published article.
Keywords:sub-irreducible water saturation|nanopores|shale gas|tight gas|gas phase permeability  
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