Relative Permeability Modifier (RPM) Effect of Polymer Injection in Shales Gas
Department
Geosciences and Geological and Petroleum Engineering
Major
Petroleum Engineering
Research Advisor
Bai, Baojun
Advisor's Department
Geosciences and Geological and Petroleum Engineering
Abstract
In order to improve the sweep efficiency of water floods, many relative permeability modifiers (RPM) have been used to control water. RPM can modify the water/gas flows in the hydraulic fracture and reduce the water production. However, previous experiments were seldom focused on PRM effect of polymer for gas/water in shale gas reservoirs. During the experiment we use the ideal model, capillary tubes, to study the disproportionate permeability reduction mechanisms of polymer to gas and water in shales gas. From the research data, the disproportionate permeability reduction effect of polymer for gas/water flow are illustrated and confirmed by the results. Reduction of water permeability varies from 1.5 to 3.2 depending on different injection rates and is always larger than gas permeability reduction which remains close to 1. That shows the RPM may decrease the excess water production and increase the gas production in shales gas.
Biography
Yanda Qiao, Missouri University of Science and Technology, Petroleum Engineering, Senior.
Research Category
Engineering
Presentation Type
Poster Presentation
Document Type
Poster
Location
Upper Atrium/Hallway
Presentation Date
03 Apr 2013, 1:00 pm - 3:00 pm
Relative Permeability Modifier (RPM) Effect of Polymer Injection in Shales Gas
Upper Atrium/Hallway
In order to improve the sweep efficiency of water floods, many relative permeability modifiers (RPM) have been used to control water. RPM can modify the water/gas flows in the hydraulic fracture and reduce the water production. However, previous experiments were seldom focused on PRM effect of polymer for gas/water in shale gas reservoirs. During the experiment we use the ideal model, capillary tubes, to study the disproportionate permeability reduction mechanisms of polymer to gas and water in shales gas. From the research data, the disproportionate permeability reduction effect of polymer for gas/water flow are illustrated and confirmed by the results. Reduction of water permeability varies from 1.5 to 3.2 depending on different injection rates and is always larger than gas permeability reduction which remains close to 1. That shows the RPM may decrease the excess water production and increase the gas production in shales gas.
Comments
Joint project with Na Zhang