阿曼Sultanate中等粘度砂岩油藏聚合物注入能力扩展测试

Day 2 Tue, March 22, 2022 Pub Date : 2022-03-21 DOI:10.2118/200031-ms

Badar Al Amri, H. Setiawan, Muhammad Rifki Akbar, Yaqoob Al Rashdi, Fahad Al Nabhani

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引用次数: 0

摘要

这是一种扩展的聚合物注入测试，其主要目的是证明聚合物溶液可以在可接受的条件下注入，并且注入能力可以持续相当长的时间。其他目标包括确定某些保护添加剂的需求，评估测试注入器周围生产井产油量增加的可能性，以及为优化注水模式提供一些输入。在阿曼苏丹国的HRD砂岩油藏(Karim Small Fields’Cluster, Sultanate of Oman)进行了为期9个月的聚合物注入测试，作为化学驱评估的一部分。选定的聚合物和所需的浓度是基于广泛的实验室测试程序。该油藏已经生产了30多年，大部分是在初级条件下生产的，但在过去的7年里，成功的注水(使用倒置的、不规则的7点模式)仍在进行中。储层油高度不饱和，API度为29°，初始粘度约为15 cP，平均深度为1200 mMD，绝对渗透率在250-500 mD之间。化学驱被选为合适的提高采收率方法，目前正在进行评估，以确定最佳工艺设计，从而在正在进行的注水过程中提供最大的产油量增量。聚合物注入性测试的初步结果证实，在最大地面注入压力约4,000 kPa的情况下，注入速率约为150 m3/d。在周围的6口生产井中，有2口观察到聚合物突破(低道)。周围生产井的产油量为0 ~ 5 m3/d/井，低于模拟模型预测的产油量。本文讨论了导致低产油量的原因和注入模式下的一般储层行为。所讨论的原因和行为是潜在的化学驱试验设计的基本方面，可以在类似的油田实施。

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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Extended Polymer Injectivity Test in a Medium Viscosity Sandstone Oil Reservoir, Sultanate of Oman

This is an extended polymer-injectivity-test where the main objectives are to prove that polymer solution can be injected at acceptable conditions and injectivity can be sustained for a considerable time period. Other objectives include determining the need for certain protective additives, evaluating the possibility of oil gain in producing wells around the test injector and providing some input to the process of flood pattern optimization. A nine-month's polymer injectivity test has been implemented in HRD sandstone reservoir (Karim Small Fields’ Cluster, Sultanate of Oman) as part of the ongoing chemical flood evaluation. Selected polymer and desired concentrations are based on extensive laboratory test programs. The subject reservoir has been producing for over thirty years, mostly on primary conditions but with a successful waterflood (using inverted, irregular seven-spot patterns) during the last seven years that is still ongoing. Reservoir oil is highly under-saturated, 29° API gravity with initial viscosity of about 15 cP. Average depth is 1,200 mMD and absolute permeability is in the range of 250-500 mD. Chemical flooding is selected as the appropriate EOR method and is currently being evaluated in order to determine the optimum process design that can provide maximum incremental oil recovery over the ongoing waterflood. Preliminary results from the polymer injectivity test confirm that injection rate of about 150 m3/d can be sustained at maximum surface injection pressure of around 4,000 kPa. Polymer break-through (at low traces) is observed in two of the six surrounding producing wells. Oil gain observed in surrounding producing wells is in the range of 0 - 5 m3/d/well which is lower than the values predicted by the simulation model. The reasons leading to low oil gain and general reservoir behavior within the injectivity pattern are discussed in the paper. The discussed reasons and behavior are essential design aspects of a potential chemical-flooding pilot that can be implemented for analogous fields.

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Day 2 Tue, March 22, 2022

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