| 高压流体气液相导热系数模型的建立 |
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| 引用本文: | 郭绪强,陈光进,孙长宇.高压流体气液相导热系数模型的建立[J].中国石油大学学报(自然科学版),1999,23(3). |
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| 作者姓名: | 郭绪强 陈光进 孙长宇 |
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| 作者单位: | 石油大学流体高压相态及物性研究室,北京102200 |
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| 摘 要: | 对温度T、导热系数λ和压力p三者之间的关系进行了分析,建立了一个能够同时预测纯组分气液相导热系数的统一模型,它能够描述高压流体和超临界流体的导热系数随温度和压力的变化。在较宽的温度和压力范围内(T=80~1400K,p=0.1~350MPa),对油气藏流体中常见组分的气液相导热系数进行了计算,22个组分3263个数据点的拟合结果的平均相对误差为12.53%。通过引入常规的状态方程混合规则,将模型拓展应用于混合物导热系数的计算,13种二元和三元混合物260个数据点的平均相对误差为11.19%;对3个石油馏分22个点导热系数的预测结果的平均相对误差为8.89%
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| 关 键 词: | 气-液相 高压流体 导热系数 数学模型 |
DEVELOPMENT OF A NEW THERMAL CONDUCTIVITY MODEL FOR HIGH PRESSURE FLUIDS |
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| Guo Xuqiang,Chen Guangjin,Sun Changyu.DEVELOPMENT OF A NEW THERMAL CONDUCTIVITY MODEL FOR HIGH PRESSURE FLUIDS[J].Journal of China University of Petroleum,1999,23(3). |
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| Authors: | Guo Xuqiang Chen Guangjin Sun Changyu |
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| Institution: | Beijing:102200 |
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| Abstract: | The relationship between temperature, thermal conductivity and pressure was
analyzed, and a model for predicting the thermal conductivity of gas and liquid was
established. The model is able to describe the change of thermal conductivity of gas, liquid and
highpressure reservoir fluids with the temperature and pressure. In the wide range of
temperature (801 400 K) and the pressure (0.1350 MPa), the thermal conductivities of gas and
liquid from oil and gas reservoir are calculated. The average error from 22 fractions (3 263 data)
is 12.52%. By introducing the mixture rule of conventional state equation, the model can be
applied to calculation of the thermal conductivity of mixture. The average errors for mixtures
and petroleum fractions are 11.19% and 8.89% respectively. |
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| Keywords: | gas and liquid phase high pressure fluids thermal conductivity mathematical model |
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