解开隐形人解释之谜解锁发展

S. Hadidi, M. Ferrero
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引用次数: 0

摘要

流体充填史的识别对于任何油田的开发战略都是必要的,特别是在中东地区,构造历史经常被报道影响许多油田的流体分布和接触。对低渗透碳酸盐岩油田的流体充填概念进行了重新评估和修正,从具有最深层单元渗吸作用的倾斜接触解释转变为全油田范围内的平坦接触和初级排水饱和度分布。由于储层具有较低的构造倾角和低渗透过渡性,储层的含油量对构造和流体充填的微小变化较为敏感。本文强调了在数据分析中消除先入为主的观念和确保不同可用数据源之间解释的一致性的重要性。它还演示了数据质量如何完全改变流体填充概念。下帅坝A、下帅坝B和Kharaib三个主要储层单元都经历了两次石油运移事件。浅层区域地震图像揭示了第一次初级排水后的构造变化。由于岩石渗透性低,含水饱和度在不可约值以上,整个层段处于“过渡带”。认为Kharaib单元充注后被含水层吸收,未开发。研究了三种可能的流体充填情景:a)电荷后结构变化导致的倾斜接触,b)较深层段的渗吸,c)与第二次电荷脉冲相关的全场平面接触的初级排水。每种情况对三个单位的发展都有积极或消极的影响。含水饱和度测井与真实垂直深度图是排除流体充填情况的主要诊断工具。这些图被用来识别饱和度剖面的横向变化,并研究渗吸特征。生产数据还用于交叉检查预期的流体填充情况。考察了电阻率工具的种类和泥浆电阻率。
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Unlocking Development by Solving a Contacts Interpretation Mystery
The identification of the fluid fill history is a necessity for the development strategy of any field, in particular in the Middle East where tectonic history is often reported to affect fluid distribution and contacts in many fields. The fluid fill concept for a low permeability carbonate field has been re-evaluated and modified from a tilted contact interpretation with imbibition of the deepest unit to a field-wide flat contact and primary drainage saturation distribution. The oil volumes in the reservoir under study are sensitive to minor changes in the structure and fluid fill due to the relatively low structural dip and low permeability transitional nature of the reservoir. The paper highlights the importance of removing preconceptions in data analysis and ensuring consistency on interpretations between different available data sources. It also demonstrates how data quality could completely change the fluid fill concept. The three main reservoir units of the Lower Shuaiba A, Lower Shuaiba B and Kharaib have been charged from two oil migration events. Structural changes post the first primary drainage are revealed by regional seismic images of the shallower horizons. Due to the rock low permeability, the water saturations are above irreducible value and the whole interval is in the "transition zone". Kharaib unit was believed to be imbibed by the aquifer after charge and was not developed. Three possible fluid fill scenarios were investigated: a) tilted contact due to structural changes post-charge, b) imbibition of the deeper interval, c) primary drainage with field-wide flat contact related to the second pulse of charge. Each scenario impacts the development of the three units positively or negatively. Water saturation logs vs. True Vertical Depth plots were the main diagnostic tool used to rule out fluid fill scenarios. The plots were used to recognise lateral changes of the saturation profile and investigate imbibition signatures. Production data were also used to cross check the expected fluid fill scenario. The resistivity tools’ types and mud resistivities were examined.
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