Resource Analysis for Deep Direct-Use Feasibility Study in East Texas
The National Renewable Energy Laboratory, Southern Methodist University Geothermal Laboratory, Eastman Chemical, Turbine Air Systems, and the Electric Power Research Institute are evaluating the feasibility of using geothermal heat to improve the efficiency of natural gas power plants. The area of interest is the Eastman Chemical plant in Longview, Texas, which is on the northwestern margin of the Sabine Uplift. The study is focused on determining the potential for a geothermal reservoir within a 10 km radius of the site as defined by data from existing geological studies and cross-sections within the depths of 2,100 to 3,400 meters. Wells within a 20 km radius are included for broader geological comparison to determine the heat flow, temperature-at-depth, and oil and gas field porosity and permeability. The geothermal reservoir model is based on the multiple formation top data sources, published literature data, and well log interpretations within the 10 km radius. Area thickness estimates, reservoir extent bounding parameters, potential flow rates, and temperatures are combined to calculate a reservoir productivity index and develop a reservoir production model. Historical fluid volumes production data are used as an independent check for the reservoir productivity index and production model results. The reservoir parameters calculated here are being used for the surface engineering model to determine the economic viability of using geothermal fluids for a deep direct use application at this site. The data files are submitted as separate workbooks in 'content model' format, including: Well Fluid Production, Heat Flow, and Geologic Reservoir.
Citation Formats
Southern Methodist University. (2018). Resource Analysis for Deep Direct-Use Feasibility Study in East Texas [data set]. Retrieved from https://dx.doi.org/10.15121/1493734.
Richards, Maria, Batir, Joseph, and Schumann, Harrison. Resource Analysis for Deep Direct-Use Feasibility Study in East Texas. United States: N.p., 28 Jun, 2018. Web. doi: 10.15121/1493734.
Richards, Maria, Batir, Joseph, & Schumann, Harrison. Resource Analysis for Deep Direct-Use Feasibility Study in East Texas. United States. https://dx.doi.org/10.15121/1493734
Richards, Maria, Batir, Joseph, and Schumann, Harrison. 2018. "Resource Analysis for Deep Direct-Use Feasibility Study in East Texas". United States. https://dx.doi.org/10.15121/1493734. https://gdr.openei.org/submissions/1073.
@div{oedi_3732, title = {Resource Analysis for Deep Direct-Use Feasibility Study in East Texas}, author = {Richards, Maria, Batir, Joseph, and Schumann, Harrison.}, abstractNote = {The National Renewable Energy Laboratory, Southern Methodist University Geothermal Laboratory, Eastman Chemical, Turbine Air Systems, and the Electric Power Research Institute are evaluating the feasibility of using geothermal heat to improve the efficiency of natural gas power plants. The area of interest is the Eastman Chemical plant in Longview, Texas, which is on the northwestern margin of the Sabine Uplift. The study is focused on determining the potential for a geothermal reservoir within a 10 km radius of the site as defined by data from existing geological studies and cross-sections within the depths of 2,100 to 3,400 meters. Wells within a 20 km radius are included for broader geological comparison to determine the heat flow, temperature-at-depth, and oil and gas field porosity and permeability. The geothermal reservoir model is based on the multiple formation top data sources, published literature data, and well log interpretations within the 10 km radius. Area thickness estimates, reservoir extent bounding parameters, potential flow rates, and temperatures are combined to calculate a reservoir productivity index and develop a reservoir production model. Historical fluid volumes production data are used as an independent check for the reservoir productivity index and production model results. The reservoir parameters calculated here are being used for the surface engineering model to determine the economic viability of using geothermal fluids for a deep direct use application at this site. The data files are submitted as separate workbooks in 'content model' format, including: Well Fluid Production, Heat Flow, and Geologic Reservoir. }, doi = {10.15121/1493734}, url = {https://gdr.openei.org/submissions/1073}, journal = {}, number = , volume = , place = {United States}, year = {2018}, month = {06}}
https://dx.doi.org/10.15121/1493734
Details
Data from Jun 28, 2018
Last updated Jul 8, 2021
Submitted Jun 30, 2018
Organization
Southern Methodist University
Contact
Maria Richards
214.768.1975
Authors
Original Source
https://gdr.openei.org/submissions/1073Research Areas
Keywords
geothermal, energy, East Texas, Travis Peak, Sabine Uplift, Hosston, Sligo, Cotton Valley, Longview, Eastman Chemical, Reservoir Productivity Index, RPI, Heatflow, Heat flow, SMU, Southern Methodist University, NREL, Bottom Hole Temperature, BHT, Absorption Chill, presentation, memo, data, paper, publication, journal article, DDU, TX, feasibility, deep direct-useDOE Project Details
Project Name Geothermal Direct Use For Turbine Inlet Cooling in East Texas
Project Lead Arlene Anderson
Project Number EE0001514