Prediction of Structure-H Gas Hydrate Formation Conditions for Reservoir Fluids

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Prediction of Structure-H Gas Hydrate Formation Conditions for Reservoir Fluids

MA Qinglan^a; CHEN Guangjin^a; GUO Tianmin^a; ZHANG Kun^b; Julian Y. Zuo^c; Dan Zhang^c; Heng-Joo Ng^c

^a High Pressure Fluid Phase Behavior ＆ Property Research Laboratory, China University of Petroleum, Beijing 102249, China
^b Department of Biomedical Engineering, Tsinghua University, Beijing 100084, China
^c DBR Software Inc., Canada

Received:1900-01-01 Revised:1900-01-01 Online:2005-08-28 Published:2005-08-28
Contact: MA Qinglan

油藏流体中H型水合物生成条件的计算

马庆兰^a; 陈光进^a; 郭天民^a; 张坤^b; Julian Y. Zuo^c; Dan Zhang^c; Heng-Joo Ng^c

^aHigh Pressure Fluid Phase Behavior ＆ Property Research Laboratory, China University of Petroleum, Beijing 102249, China
^b Department of Biomedical Engineering, Tsinghua University, Beijing 100084, China
^c DBR Software Inc., Canada

通讯作者: 马庆兰

Abstract

Abstract: In this work, a thermodynamic model is developed for prediction of structure H hydrate formation. The model combines the Peng-Robinson equation of state for the vapor, liquid and aqueous phases with the extended Ng-Robinson hydrate model for gas hydrate formation of all three structures. The parameters of 14 structure-H hydrate formers are determined based on the experimental data of structure-H hydrates in the literature. The expression of fugacity of water in the empty hydrate phase is correlated for calculating structure-H hydrate formation conditions in the absence of free water. The model is tested by predicting hydrate formation conditions of a number of structure-H hydrate forming systems which are in good agreement with the experimental data. The proposed model is also applied to the prediction of hydrate formation conditions for various reservoir fluids such as natural gas and gas condensate.

Key words: structure-H hydrate, model, formation conditions, reservoir fluids

摘要： In this work, a thermodynamic model is developed for prediction of structure H hydrate formation. The model combines the Peng-Robinson equation of state for the vapor, liquid and aqueous phases with the extended Ng-Robinson hydrate model for gas hydrate formation of all three structures. The parameters of 14 structure-H hydrate formers are determined based on the experimental data of structure-H hydrates in the literature. The expression of fugacity of water in the empty hydrate phase is correlated for calculating structure-H hydrate formation conditions in the absence of free water. The model is tested by predicting hydrate formation conditions of a number of structure-H hydrate forming systems which are in good agreement with the experimental data. The proposed model is also applied to the prediction of hydrate formation conditions for various reservoir fluids such as natural gas and gas condensate.

关键词: 油藏流体;Ⅱ型水合物;生成条件;热力学;动态模型

MAQinglan,CHENGuangjin,GUOTianmin, ZHANGKun,JulianY.Zuo,DanZhang,Heng-JooNg. Prediction of Structure-H Gas Hydrate Formation Conditions for Reservoir Fluids[J]. , DOI: .

马庆兰,陈光进,郭天民,张坤,JulianY.Zuo, DanZhang, Heng-JooNg. 油藏流体中H型水合物生成条件的计算[J]. , DOI: .

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