Steam trap control valve for enhancing steam flood performance in an Omani heterogeneous heavy oil field

Journal of Unconventional Oil and Gas Resources Pub Date : 2016-12-01 DOI:10.1016/j.juogr.2016.03.005

Ibrahim Al Hadabi , Kyuro Sasaki , Yuichi Sugai , Amin Yousefi-Sahzabi

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引用次数: 5

Abstract

In this research, a numerical feasibility study of the thermal oil recovery using steam injection has been carried out for a heterogeneous heavy oil field located in southern Oman. There are several technical challenges for designing EOR operation system for oil reservoir with heterogeneous permeability. A numerical simulation of the steam injection has been developed to investigate the optimum heat transfer in the reservoir to reduce the oil viscosity with more efficiency. The CMG STARSTM model was used for the simulation of steam injection operation with the valve control of steam trap subcool in this field. The simulation results showed that the valve control can result in wider and faster temperature transmission and distribution in the reservoir after steam injection. It was also shown that steam trap operation can result in relatively higher oil production and lower required steam temperature. Finally, it was suggested that by setting subcool temperature on 20–30 °C using the valve control, steam injection efficiency can be increased and better SOR (steam oil ratio) and RF (recovery factor) can be achieved.

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阿曼某非均质稠油油田提高蒸汽驱油性能的疏水阀

在这项研究中，对阿曼南部的一个非均质稠油油田进行了注蒸汽热采油的数值可行性研究。非均质渗透率油藏的提高采收率作业系统设计存在若干技术难题。为了更有效地降低油的粘度，对注汽过程进行了数值模拟。采用CMG STARSTM模型对该油田疏水阀过冷控制下的注汽操作进行了模拟。仿真结果表明，阀控可以使注汽后储层内的温度传递和分布范围更广、速度更快。研究还表明，疏水阀可以提高采油产量，降低所需蒸汽温度。最后，通过阀控将过冷温度设定在20 ~ 30℃，可以提高注汽效率，获得更好的蒸汽油比SOR和采收率RF。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Unconventional Oil and Gas Resources

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