Joint Industry Project
SUSTAINABLE HYDROCARBON RECOVERY IN
UNCONVENTIONAL RESERVOIRS
The University of Kansas
|
Develop economical
methods for produced water treatment, focusing on gaps in current
technology, especially the removal of naturally occurring radioactive
materials and scale-causing minerals using nanotechnology and organics
removal using fluidized beds.
|
Hydraulic Fracturing in Shale Formations Effective placement
of chemicals for hydraulic fracturing, including the development of both
nano-proppants and nanoparticle stabilized CO2 foam. Develop
robust models of fracture propagation. Evaluate the effects of produced
water composition on fracturing fluid efficacy.
|
|
Enhanced Oil Recovery in Shale Formations Study the
feasibility of using different gases (starting with CO2) to
improve oil recovery in tight shale formations. |
Reservoir Characterization and Simulation Production
optimization from shale oil/gas reservoirs using improved correlations
between seismic data and fracture properties for shale reservoirs.
Reservoir simulation will be applied to optimize various production
techniques to improve recovery. |
The University of Kansas (KU) is launching a new Joint Industry Project (JIP) in
Sustainable Hydrocarbon Recovery in Unconventional Reservoirs.
Researchers from the Chemical & Petroleum
Engineering Department (CPE),
Tertiary Oil Recovery Program (TORP),
Civil, Environmental, & Architectural Engineering Department (CEAE), the
Department of Geology (GEOL), and the
Kansas Geological Survey (KGS) are
working together to develop novel technologies to address issues of critical
importance for sustainable unconventional reservoir exploitation. The JIP will
explore
four Thrust Areas, each led by a Principal Investigator (PI).
To ensure the JIP is successful from the start, KU is investing $642,861 in initial research funding as well as providing research, staff support, and access to more than 7,500 sq. ft. of research lab space with:
- Fracture conductivity set-up for proppant and acid fracture conductivity measurements - High pressure—high temperature CO2 and CO2 foam flood set-up - State-of-the-art reservoir characterization and simulation capabilities and software - High pressure—high temperature interfacial and contact angle measurement setup - Shear loop and dynamic fluid loss setup - High pressure—high temperature rheometer with CO2 foam rheological measurement capabilities - Matrix acidizing coreflooding apparatus - Sandpack and core testing capabilities, including high pressure rated core holders - Slim tube set-up - Extensive analytical instrumentation for the characterization of produced water and fracturing fluids - Anaerobic chambers and a biological safety hood for the growth of bacterial cultures - Access to key facilities on and off campus, including the KU Center for Metagenomic Microbial Community Analysis