Track Fractured Well Inflow Performance Using Historic Production Logging and Surface Well Performance Data in Sultanate of Oman

Day 2 Wed, January 12, 2022 Pub Date : 2022-01-11 DOI:10.2118/205279-ms

C. Veeken, Yousuf Busaidi, A. Hajri, Ahmed Mohammed Hegazy, Hamyar Riyami, M. Rashdi, Mohammed Zarafi, M. Zadjali, Kumaresh Darga, Mazen Mamari

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Abstract

PDO operates about 200 deep gas wells in the X field in the Sultanate of Oman, producing commingled from the Barik gas-condensate and Miqrat lean gas reservoir completed by multiple hydraulic fracturing. Their inflow performance relation (IPR) is tracked to diagnose condensate damage, hydraulic fracture cleanup and differential reservoir pressure depletion. The best IPR data is collected through multi-rate production logging but surface production data serves as an alternative. This paper describes the process of deriving IPR's from production logging and surface production data, and then evaluates 20 years of historic IPR data to quantify the impact of condensate damage and condensate cleanup with progressive reservoir pressure depletion, to demonstrate the massive damage and slow cleanup of hydraulic fractures placed in depleted reservoirs, to show how hydraulic fractures facilitate the vertical cross-flow between isolated reservoir intervals, and to highlight that stress-dependent permeability does not play a major role in this field.

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利用阿曼苏丹国的历史生产测井和地面井动态数据跟踪压裂井的流入动态

PDO在阿曼苏丹国的X油田运营着约200口深气井，通过多次水力压裂完成Barik凝析气藏和Miqrat贫气气藏的混合生产。跟踪它们的流入动态关系(IPR)，以诊断凝析油损害、水力裂缝清理和储层差压耗尽。最好的IPR数据是通过多速率生产测井收集的，但地面生产数据也可以作为替代方法。本文描述了从生产测井和地面生产数据中获得IPR的过程，然后对20年的历史IPR数据进行评估，以量化随着油藏压力逐渐枯竭对凝析油损害和凝析油清理的影响，以展示枯竭油藏中水力裂缝的巨大损害和缓慢清理，以展示水力裂缝如何促进隔离油藏层间的垂直交叉流动。并强调应力相关渗透率在该领域并不起主要作用。

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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Day 2 Wed, January 12, 2022

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