Experimental Study to Estimate CO2 Solubility in a High Pressure High Temperature HPHT Reservoir Carbonate Aquifer

M. F. Zaidin, B. Kantaatmadja, A. Chapoy, P. Ahmadi, R. Burgass
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引用次数: 1

Abstract

The X field is one of PETRONAS's Research & Development (R&D) initiative plans involving separation of high CO2-Hydrocarbon gas and CO2 storage in offshore Malaysia. The X field is a high pressure high temperature (HPHT) carbonate reservoir with a temperature of 423 K and pressure of 36.0 MPa with about 500 m of gas column. It was chosen as a candidate due to its well and reservoir data completeness. The plan is technically challenging as it involves re-injecting produced supercritical CO2 back into an aquifer reservoir for permanent storage. Recently acquired X field DST data indicates the presence of CO2 in the aquifer, up to a level nearing saturation. Information of the initial CO2 concentration level in the aquifer reservoir is critical to ensure the success of the CO2 injection. Predictions on this initial CO2 solubility have been made using available well data, however the reliability of the results has to be validated by an experimental study. Therefore, an extensive experimental approach to measure initial CO2 solubility in the X field aquifer reservoir has been conducted. As pressure, temperature and salinity are the important key parameters that influence CO2 solubility, detailed information about X field gas and aquifer brine compositions are well determined prior to the solubility measurement. Utilizing lab facilities at Heriot-Watt University (HWU), measurements were conducted at T=423.15 K and pressure at 36.0 MPa to mimic the X field aquifer conditions. The experimental results obtained are compared against available literature data, Duan Model and sCPA-EoS model and reasonable agreements were observed. Experimental results indicated that the X field aquifer is not fully saturated with CO2 and it could accommodate an additional 6 mol% of CO2 dissolved in the brine. In addition, approximately 6 mol% of hydrocarbon will be recovered from the same aquifer system as a result of CO2 injection due to the CO2-Hydrocarbon displacement. This paper details lab measurements of initial CO2 solubility in the X field aquifer, including preparation, experimental procedure, results and discussion as well as suggested future works. Reservoir simulation incorporating the experimental data obtained from this study is necessary and recommended, for getting a full picture of the CO2 injection program for the current Carbon Capture Utilization & Storage (CCUS) project.
高压高温高压储层碳酸盐岩含水层中CO2溶解度的实验研究
X油田是马来西亚国家石油公司的研发计划之一,涉及在马来西亚近海分离高二氧化碳碳氢化合物气体和二氧化碳储存。X油田为高压高温碳酸盐岩储层,温度为423 K,压力为36.0 MPa,气柱厚度约500 m。由于其井和储层数据的完整性,它被选为候选。该计划在技术上具有挑战性,因为它涉及将产生的超临界二氧化碳重新注入含水层储层以永久储存。最近获得的X油田DST数据表明,含水层中存在二氧化碳,接近饱和水平。含水层初始CO2浓度水平的信息是确保CO2注入成功的关键。利用现有的井数据,对初始CO2溶解度进行了预测,但结果的可靠性需要通过实验研究来验证。因此,进行了一项广泛的实验方法来测量X油田含水层储层中CO2的初始溶解度。由于压力、温度和盐度是影响CO2溶解度的重要关键参数,因此在溶解度测量之前,可以很好地确定X油田天然气和含水层盐水组成的详细信息。利用赫瑞瓦特大学(HWU)的实验室设备,在温度为423.15 K、压力为36.0 MPa的条件下进行了测量,以模拟X油田的含水层条件。将得到的实验结果与已有文献数据、Duan模型和sCPA-EoS模型进行了比较,两者吻合较好。实验结果表明,X油田含水层未完全饱和CO2,可容纳额外的6 mol%的CO2溶解在盐水中。此外,由于CO2-烃类驱替导致的CO2注入,将从同一含水层系统中回收约6mol %的烃类。本文详细介绍了X油田含水层中初始CO2溶解度的实验室测量,包括准备,实验过程,结果和讨论以及建议的未来工作。为了全面了解当前碳捕集利用与封存(CCUS)项目的二氧化碳注入计划,油藏模拟是必要的,也是推荐的。
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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