Optimization of gas lift system for well performance improvement in Asmari formation: A techno-economic perspective

Q1 Earth and Planetary Sciences

Petroleum Research Pub Date : 2024-03-01 DOI:10.1016/j.ptlrs.2023.08.003

Hari Sreenivasan, Jash Patel, Dev Jain, Setu Patel, Isaac Wilson, Shanker Krishna

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Abstract

Well productivity in the Asmari carbonate formation of southwest Iran has decreased in recent years as a result of production issues. The production rate must be maintained below 1500 STB/day to prevent water coning. In this study, a gas lift well is modeled using data from one of the producing wells of this field. Nodal analysis is performed using lift-gas injection rates and wellhead pressures at different reservoir pressures and water cut conditions to optimize production. Economic aspects are considered to optimize the artificial gas injection rates at different tubing head pressures and water cut conditions. Increasing the lift-gas injection rate from 0.4 MMscf/day to 1 MMscf/day enhances the oil production rate by 37.71% and 43.89% for 10% and 30% water cut conditions, respectively. Gas injection rates of 5.2 MMscf/day and 5.4 MMscf/day are determined to be economically optimal for 30% water cut with tubing head pressures of 260 psig and 270 psig, respectively.

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优化气举系统，提高阿斯马拉地层的油井性能：技术经济视角

由于生产问题，伊朗西南部阿斯马拉碳酸盐岩层的油井生产率近年来有所下降。生产率必须保持在 1500 STB/天以下，以防止出现水锥。本研究利用该油田一口生产井的数据，对气举井进行建模。利用不同储层压力和断水条件下的气举注入率和井口压力进行节点分析，以优化生产。考虑了经济因素，以优化不同油管头压力和断水条件下的人工注气率。将举升注气率从 0.4 MMscf/day 提高到 1 MMscf/day，在 10% 和 30% 的断水条件下，石油生产率分别提高了 37.71% 和 43.89%。在油管头压力分别为 260 psig 和 270 psig 的情况下，确定 5.2 MMscf/day 和 5.4 MMscf/day 的注气量为 30% 断水时的最佳经济注气量。

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来源期刊

Petroleum Research Earth and Planetary Sciences-Geology

CiteScore

7.10

自引率

0.00%

发文量

审稿时长

35 weeks