Evaluation of gas condensate reservoir behavior using velocity dependent relative permeability during the numerical well test analysis

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• 作者：Arash Azamifard^a ; Mahnaz Hekmatzadeh^b ; Bahram Dabir^a ; ^{drbdabir@aut.ac.ir" class="auth_mail" title="E-mail the corresponding author}
• 关键词：Gas condensate ; Velocity dependent relative permeability ; Modified black oil simulation ; Numerical well testing
• 刊名：Petroleum
• 出版年：2016
• 出版时间：June 2016
• 年：2016
• 卷：2
• 期：2
• 页码：156-165
• 全文大小：2248 K

文摘

Gas condensate is one of the most different fluids in reservoir simulation due to retrograde condensation in case of pressure reduction. In this kind of fluids, two phenomena named negative inertia and positive coupling, become significant in the high velocity zone around the wellbore. In this study, a modified black oil simulator is developed that take into account the velocity dependent relative permeability. Against the industrial simulator that assumes linear variation of transmissibilities by pressure, modified black oil nonlinear equations are solved directly without linearization. The developed code is validated by ECLIPSE simulator. The behavior of two real gas condensate fluids, a lean and a rich one, are compared with each other. For each fluid, simulations of PVT experiments are carried out to calculate black oil property applying Coats approach for gas condensate fluids. For both fluids, the proposed models for gas condensate velocity dependent relative permeability show different influence of velocity on relative permeability in the same conditions. Moreover, it is observed that higher flow rate of gas production leads to more condensate production during constant rate well testing.