High Shut-in Pressure: Good News or Bad News? Maximising Value through Limited Data

H. R. Sutoyo, Diniko Nurhajj, Anak Agung Gde Iswara Anindyajati, Dwi Hudya Febrianto, Nova Kristianawatie
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Abstract

Early production of gas reservoirs is usually associated with a volumetric gas driving mechanism with no water production. Aquifer activity is minimal as well during the early life of the reservoir. In this paper, we will discuss about the good engineering practices based on several shut-in pressure data to observe and maximize marginal gas field value. We will also discuss about the possibility of water drive behavior in this field. Shut-in pressure data plays an important role in determining the in-place and reservoir dynamics of the gas reservoir. High shut-in pressure usually indicates high gas reserves. On the other hand, it shows a very strong water drive existence. The study takes place on a sandstone gas reservoir with an abnormal pressure regime on it. Production performance was then analyzed using the rate transient analysis (RTA) to determine its properties and gas in place and crosschecked with shut-in pressure data. From these steps, we can determine the trend of both static and flowing material balance (FMB) analysis to predict the reservoir dynamics. During the early life of production, it is clear that volumetric reservoir plays an important role in the reservoir dynamics since it produces no reservoir water. However, after 1 year of production, it starts to produce reservoir water. Monitoring starts when the first shut-in pressure shows a quite unexpected value. It puts a sense of both high gas reserves and aquifer activity. After applying all the pressure and production data on FMB and p/Z plot, it shows that both high gas reserves and aquifer activity exist in this field. The results of this study change the development strategy of this field, preventing doing major investment on high capital expenditure (CAPEX) with low results due to high aquifer activity. We can conclude that good reservoir monitoring and analysis combining several analytical methods can enhance our insight into reservoir dynamics. Combining FMB and p/Z, geologist starts to compare aquifer volume based on geological data and found to be similar with the results coming from analytical data. 3D reservoir simulation also confirms similar results based on those analyses.
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高关井压力:是好消息还是坏消息?通过有限的数据实现价值最大化
气藏的早期生产通常与体积气驱机制有关,不产水。在储层的早期,含水层的活动性也很小。在本文中,我们将讨论基于几个关井压力数据的良好工程实践,以观察和最大化边际气田价值。我们还将讨论该领域水驱行为的可能性。关井压力数据在确定气藏的原位和储层动态方面起着重要作用。关井压力高通常表明天然气储量高。另一方面,它表现出很强的水驱存在性。研究对象为一个压力异常的砂岩气藏。然后使用速率瞬态分析(RTA)来分析生产动态,以确定其性质和现场气体,并与关井压力数据进行交叉核对。从这些步骤中,我们可以确定静态和流动物质平衡(FMB)分析的趋势,以预测储层动态。在生产初期,体积油藏在油藏动态中起着重要作用,因为它不产生油藏水。然而,在生产1年后,它开始产生储层水。当第一次关井压力显示一个非常意外的值时,开始监测。它给人一种高天然气储量和含水层活动的感觉。通过对FMB和p/Z图的压力和产量数据的综合分析,表明该油田既有高储量的天然气,又有高活动性的含水层。这项研究的结果改变了该领域的发展战略,避免了由于含水层活动频繁而导致的高资本支出(CAPEX)低收益的重大投资。综合多种分析方法,进行良好的储层监测和分析,可以提高对储层动态的认识。结合FMB和p/Z,地质学家开始在地质数据的基础上对含水层体积进行比较,发现与分析数据的结果相似。基于这些分析,三维油藏模拟也证实了类似的结果。
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