Experimental Study on Combined Water Control Technology for High Temperature and High Pressure Deep Water Gas Reservoirs
Title
Experimental Study on Combined Water Control Technology for High Temperature and High Pressure Deep Water Gas Reservoirs
Subject
Continuous packer
Darcy's law
Deepwater gas field
Efficient development
Internet of Things
Permeability
Process control
Production
Reservoirs
Sectional water control
Shape
Temperature control
Description
The deep-water gas field in the South China Sea has been officially put into operation, but due to the strong energy of the bottom water in the offshore gas field, the production well is prone to water flooding, resulting in a serious decline in gas production. The problem of water control technology in the gas field has also become a difficult problem. In order to explore the water control mode suitable for the gas reservoir, Using MeLeod algorithm to establish physical model and complete mining process simulation. The experimental results show that the combination of segmented water control and continuous packer has the best water control effect.
293-296
Creator
T. Qi
J. Feng
Y. Xuan
J. He
L. Shi
Publisher
2022 International Conference on Cloud Computing, Big Data and Internet of Things (3CBIT)
Date
2022
Type
conferencePaper
Identifier
10.1109/3CBIT57391.2022.00067
Citation
T. Qi et al., “Experimental Study on Combined Water Control Technology for High Temperature and High Pressure Deep Water Gas Reservoirs,” Lamar University Midstream Center Research, accessed May 18, 2024, https://lumc.omeka.net/items/show/27912.