Determination of Minimum Miscibility Pressure (MMP) using PVTi Software, Eclipse 300 and Empirical Correlations

Vahid Karamnia, S. Ashoori
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引用次数: 1

Abstract

One of the most important factors through the miscible gas injection process is to determine the Minimum Miscibility Pressure. According to the definition, the minimum miscibility pressure is the minimum pressure at which, at a constant temperature, the oil and gas injected can dissolve together to form a single phase. This pressure is typically abbreviated as MMP. Among the available methods for determining the minimum miscibility pressure, laboratory methods including slim tube test and ascending bubble apparatus test are more widely utilized. Although the mentioned tests have high measurement accuracy, they are very time consuming and expensive. Therefore, the determination of the minimum miscibility pressure is usually done using computational and simulation approaches that also have high accuracy. Conducting PVT tests and determining their MMP using slim tube method was previously performed. In this study, the minimum miscibility pressure of reservoirs was determined by applying three methods of simulation with PVTi software, simulation with Eclipse 300 software and using Empirical Correlations. By comparing the obtained results and the laboratory results, it was revealed that the simulation by Eclipse 300 is regarded as the fastest and most accurate approach.
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用PVTi软件、Eclipse 300和经验相关性测定最小混相压力(MMP
注混气过程中最重要的因素之一是确定最小混相压力。根据定义,最小混相压力是在一定温度下注入的油气能溶解成单相的最小压力。这个压力通常缩写为MMP。在现有的测定最小混相压力的方法中,细管试验和升泡仪试验等实验室方法应用比较广泛。虽然上述测试具有较高的测量精度,但它们非常耗时和昂贵。因此,最小混相压力的确定通常采用精度较高的计算和模拟方法。采用细管法进行PVT测试并确定其MMP。本文采用PVTi软件模拟、Eclipse 300软件模拟和Empirical correlation 3种方法确定了储层最小混相压力。通过与实验结果的比较,表明Eclipse 300的模拟是最快、最准确的方法。
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