Real-time gas lift valve to enhance well performance

Abdalsadig, MAGH, Nourian, A ORCID:, Nasr, GG ORCID: and Babaie, M ORCID: 2016, 'Real-time gas lift valve to enhance well performance' , Journal of Petroleum Engineering & Technology, 6 (2) , pp. 1-10.

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Optimum production from a gas lift well mainly depends on proper injection gas quantity; injection pressure and depth of injection and gas lift valve performance. The quality of down hole gas lift valves plays a crucial role in achieving maximum efficiency of a gas lift system and uninterrupted oil and gas production. Gas lift valves can aid in the unloading and produce of a well. With the valves properly spaced and correctly pressured and proper selection of the port size, unloading proceeds in a stage-by-stage, valve-by-valve manner to the ideal point of lift, and maximum liquid production is reached. But if well situations change or if the gas lift design data was not very perfect, maximum liquid production is not achieved. Improper valve location, improper setting of operating pressures and gas pass at more than one point can stop wells from achieving maximum production. In this paper, smart gas lift valve which allows the port size of the gas lift to be remotely adjusted from the surface used computer program to determination of gas passage through the valve in order to distil real-time data on gas lift valve, on their turn these data are finally used for implementing conscious and forward looking control actions, ultimate results are, improved production profitability due to increased production rate, decreased operations cost and developed availability. Also the paper will address how smart gas lift valve will gain large benefits with different scenarios in natural flow and gas lift wells, will be illustrated in this paper; also investigate the effect of the valve port size, depth of injection on well productivity. The results show that smart gas lift valve can be used to control the amount of gas injection from down hole that leads to improve tubing well head pressure and enhanced well production and also indicated that the optimum opening is at 50% for both injection pressure rates.

Item Type: Article
Schools: Schools > School of Computing, Science and Engineering > Salford Innovation Research Centre
Schools > School of Computing, Science and Engineering
Journal or Publication Title: Journal of Petroleum Engineering & Technology
Publisher: STM Journals
ISSN: 2321–5178
Related URLs:
Depositing User: Amir Nourian
Date Deposited: 10 Feb 2021 14:04
Last Modified: 15 Feb 2022 17:33

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