利用 Pipesim 网络优化器优化气举分配

World Journal of Advanced Engineering Technology and Sciences Pub Date : 2024-02-28 DOI:10.30574/wjaets.2024.11.1.0068

Nyelebuchi Amadichuku, Ugwunna Dickson Amadi, Abu Robin, Ndidi Uzoigwe

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引用次数: 0

摘要

这项研究利用 PIPESIM 网络优化器最大限度地提高气举井网络的石油产量，并确定最佳气举量。利用 PIPESIM 建立了一对井筒-流线模型，并利用其网络优化器最大限度地提高了气举井网络的石油产量。创建了两口井（A 井和 B 井），并将各自的流线连接到一个集流管，再从集流管连接到中央处理设施（CPF），CPF 由一个汇节点表示。对 B 井的产油量进行比较后发现，在不限制产水量的情况下，B 井的产油量为 7337.432 STB/天，而在限制产水量的情况下，B 井的产油量为 7373.479 STB/天；在不限制产水量的情况下，A 井的产油量为 280.6693 STB/天，而在限制产水量的情况下，A 井的产油量为 3.266503 STB/天。在注气量为 4MMscf/ 天、产水量为 1800STB/ 天的限制条件下，结果显示，总的气举率为 3.723612MMscf/ 天，总的采油率为 7484.669STB/天。因此，在每天可用的 4MMscf 天然气中，应将 3.723612MMscf/ 天分配给网络，以优化生产。

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Gas lift allocation optimization using Pipesim network optimizer

This work maximizes oil production from a network of gas lift wells and determines the optimal amount of lift gas with PIPESIM network optimizer. PIPESIM was used to build a couple wellbore-flowline model and its network optimizer was utilized to maximize oil production from a network of gas lifted wells. Two wells were created (Well A and B) and connected to their respective flow lines to a manifold and from the manifold to the central processing facility (CPF) represented by a sink node. A comparison of the oil production rate from Well B with and without constraint on water production rate shows that 7337.432STB/day of oil was produced without any constraints on water production while 7373.479 STB/day of oil was produced with constraint on water production and Well A, 280.6693 STB/day of oil was produced without any constraints on water production while 3.266503 STB/day of oil was produced with constraint on water production. For the injection of 4MMscf/day of gas with a constraint of 1800STB/day on water production, results reveals that a total gas lift rate of 3.723612MMscf/day was required to lift a total oil rate of 7484.669STB/day. Therefore, out of the 4MMscf/day of gas available, 3.723612MMscf/day should be allocated to the network to optimized production.

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World Journal of Advanced Engineering Technology and Sciences

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