Production Optimization of Foam Assisted Lift (FAL) Wells and Evaluation of Good and Bad Practices to Ensure Maximum Production

Uddin, Mafiz; Tayyab, Imran; Koondhar, Nadeem H.; Ahmed, Qazi I.; Soomro, Aijaz Ali

doi:10.2118/181121-ms

Cited by 2 publications

(1 citation statement)

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“…As an economical and effective means of drainage and production, foam drainage and gas recovery is widely used in major oil and gas fields [1][2][3][4][5][6]. At present, many scholars at home and abroad focus on the research on the foam discharge agent from the aspects of oil resistance and high temperature resistance for the foam drainage of condensate gas wells [7][8][9]. The high-content condensateresistant foam discharge agent PQ-Y developed by Junwen Wu [10] improved the gas field production by 56%.…”

Section: Introductionmentioning

confidence: 99%

Optimization and Performance Evaluation of Foam Discharge Agent for Deep Aquatic Condensate Gas Well

Chen

et al. 2022

Front. Phys.

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The block deep condensate gas reservoir in the basin in the southeast of the South China Sea is a bottom water reservoir and is producing in the late effusion, which faces problems such as scaling, condensate oil–water two-phase flow, and low temperature at the subsea wellhead. The mud line for this kind of gas-well has characteristics including high condensate content in low temperature, high downhole temperature, and injection with a foam discharge agent and scale inhibitor. In this article, the influence of low temperature and scale inhibitor is considered for the first time, and a dynamic liquid-carrying experiment for the optimization and performance evaluation of foam discharge agents was carried out according to these characteristics. The experimental results show that the optimized foam discharge agent, ZHY-01, has good resistance to high temperature and condensate oil, and the optimal concentration of the foam discharge agent is recommended to be 0.25%. Under this concentration, the liquid-carrying capacity of the foam discharge agent decreases slightly by 10.17% at low temperature. The scale inhibitor MA/AA reduced the liquid-carrying capacity by 11.86%, and the scale inhibitor PESA reduced the liquid-carrying capacity by 10.17%. The research results in this article have certain reference significance for the chemical screening and evaluation of the foam drainage gas production process in deep-water condensate gas wells.

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Section: Introductionmentioning

confidence: 99%

Optimization and Performance Evaluation of Foam Discharge Agent for Deep Aquatic Condensate Gas Well

Chen

et al. 2022

Front. Phys.

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A Success Story for a High-Temperature Foam-Assisted Lift Application in a Mature Field, Gulf of Thailand

Sompopsart

Toempromraj

Nadoon

et al. 2016

Day 2 Tue, November 15, 2016

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Liquid loading is a common problem in many gas wells in the Gulf of Thailand. At the late stage of well life, reservoir pressure declines, gas production rates decrease, and liquid begins collecting on the wall of the tubing and accumulates at the bottom of the well, eventually killing the well. This paper presents promising results from foam-assisted lift (FAL) field trials to remove liquids, re-establish flow, and increase production in previously idle wells. The injection of foaming agents can be used to remove liquids through artificial lift. High downhole temperatures in Gulf of Thailand wells requires special foaming agents that can operate at 450°F. Using high-temperature foaming agents in nearly dead wells can extend their life by reducing the production decline rate and preventing premature water loadup. Because foam density is significantly lower than liquid density, hydrostatic pressure is reduced, which assists the flow of fluids from the bottom hole to the surface, resulting in increased gas production rates and reserve recovery rates compared to natural flow. An operator in the Gulf of Thailand experienced promising results from a field trial using high-temperature FAL with batch treatments in five high-temperature wells in the offshore field. Three wells that were previously not flowing were able to flow to the production system after treatment. One well was able to flow at even higher rates after the FAL treatment compared to prejob rates. Only one well did not respond to the treatment. Understanding the FAL procedure and addressing critical issues before implementing the technology can help enhance mature field production in otherwise idle wells. Using FAL in mature wells with low or no production can help remove liquid accumulation at the bottom of the well, preventing premature water loadup and returning idle wells to production.

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Production Optimization of Foam Assisted Lift (FAL) Wells and Evaluation of Good and Bad Practices to Ensure Maximum Production

Cited by 2 publications

References 0 publications

Optimization and Performance Evaluation of Foam Discharge Agent for Deep Aquatic Condensate Gas Well

Optimization and Performance Evaluation of Foam Discharge Agent for Deep Aquatic Condensate Gas Well

A Success Story for a High-Temperature Foam-Assisted Lift Application in a Mature Field, Gulf of Thailand

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