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Numerical Simulation Study of Heavy Oil Production by Using In-Situ Combustion

机译:原位燃烧生产重油的数值模拟研究

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An in-situ combustion method is an effective method to enhance oil recovery with high economic recovery rate, low risk, fast promotion and application speed. Currently, in-situ combustion technique is regarded as the last feasible thermal recovery technology to replace steam injection in the exploitation of bitumen sands and heavy oil reservoirs. However, the oil-discharging mechanism during the in-situ combustion process is still not clearly understood. In this paper, the in-situ combustion process has been numerically simulated based on the Du 66 block. The effect of production parameters (huff and puff rounds, air injection speed, and air injection temperature) and geological parameters (bottom water thickness, stratigraphic layering, permeability ratio, and formation thickness) on the heavy oil recovery have been comprehensively analyzed. Results show that the flooding efficiency is positively correlated with the thickness of the bottom water, and negatively correlated with the formation heterogeneity. There exist optimum values for the oil layer thickness, huff and puff rounds, and air injection speed. And the effect of air injection temperature is not significant. The results of this paper can contribute to the understanding of mechanisms during in-situ combustion and the better production design for heavy oil reservoirs.
机译:原位燃烧法是一种提高采收率的有效方法,经济回收率高,风险低,推广和应用速度快。当前,在沥青砂和稠油油藏的开采中,原位燃烧技术被认为是最后一种可行的热回收技术来代替蒸汽注入。然而,在原位燃烧过程中的排油机理仍不清楚。在本文中,基于Du 66块对原位燃烧过程进行了数值模拟。全面分析了生产参数(吞吐和吹气,注气速度和注气温度)和地质参数(水底厚度,地层分层,渗透率和地层厚度)对稠油采收率的影响。结果表明,驱油效率与底水厚度呈正相关,与地层非均质性呈负相关。对于油层厚度,吹气和吹气弹以及空气注入速度,存在最佳值。空气注入温度的影响并不明显。本文的结果可有助于对原位燃烧机理的理解,以及对稠油油藏更好的生产设计。

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