| 烃类混合物及油气藏流体的粘度计算模型 |
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| 引用本文: | 荣淑霞,郭绪强,杨继涛,杨兰英. 烃类混合物及油气藏流体的粘度计算模型[J]. 中国石油大学学报(自然科学版), 1999, 23(1) |
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| 作者姓名: | 荣淑霞 郭绪强 杨继涛 杨兰英 |
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| 作者单位: | 石油大学流体高压相态及物性研究实验室,北京102200 |
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| 摘 要: | 根据vanderWaals单流体混合规则,将基于两参数PengRobinson状态方程的流体粘度计算模型应用于烃类混合物及油气藏流体粘度的计算。对3种二元烃类混合物(甲烷丙烷、甲烷正丁烷和甲烷正癸烷)的粘度进行了计算,2439个数据点的平均相对误差为16.72%.计算了9种天然气及17种油藏原油的粘度,其平均相对误差分别为9.80%和17.29%.这种模型优于现有的油气藏流体粘度模型。
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| 关 键 词: | 烃;混合物;油气藏;流体;粘度;数学模型;状态方程 |
MODELS FOR PREDICTING VISCOSITIES OF HYDROCARBON MIXTURES AND FLUIDS IN OI-GAS RESERV OIR |
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| Rong Shuxia,Guo Xuqiang,Yang Jitao,Yang Lanying. MODELS FOR PREDICTING VISCOSITIES OF HYDROCARBON MIXTURES AND FLUIDS IN OI-GAS RESERV OIR[J]. Journal of China University of Petroleum (Edition of Natural Sciences), 1999, 23(1) |
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| Authors: | Rong Shuxia Guo Xuqiang Yang Jitao Yang Lanying |
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| Abstract: | By using the van der Waals single fluid mixing rules, the viscosity model established on the basis of two parameters Peng Robinson state equation, namely PR viscosity model, was used to predict the viscosities of mixtures and reservoir fluids. The viscosities of three kinds of binary hydrocarbon mixtures, i.e. methane/ n decane, methane/propane and methane/ n butane were calculated by using the model. The average relative error of 2439 data points is 16.27 percent. The viscosities of nine natural gases and crude oils from seventeen reservoirs were predicted. The overall average relative errors are 9.8 percent and 17.29 percent respectively. PR viscosity model is superior to the viscosity models currently used in calculating viscosities of fluid mixtures in oil gas reservoirs |
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| Keywords: | hydrocarbon mixture oil and gas reservoir fluid viscosity mathematical model state equation |
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