Alternative CAES Technology Using Depleted Unconventional Gas Wells and Subsurface Thermal Energy Storage (GeoCAES)
This project assessed the technical viability of a process called GeoCAES. The process stores electrical energy by injecting natural gas into shale gas formations using a compressor, storing it, and producing it through an expander to generate electricity. This data submission includes the models of temperature and pressure changes in the wellbore, surface plant equipment (compressor and expander), and the code used in CMG GEM reservoir modeling software to simulate injection and production.
Note - the wellbore and surface plant equipment models use the REFPROP Excel Add-in from NIST (linked in submission) to calculate natural gas properties.
Note - the reservoir model code requires a license for the Computer Modeling Group (CMG) GEM reservoir modeling software (linked in submission) to run it.
Citation Formats
National Renewable Energy Laboratory. (2019). Alternative CAES Technology Using Depleted Unconventional Gas Wells and Subsurface Thermal Energy Storage (GeoCAES) [data set]. Retrieved from https://dx.doi.org/10.15121/1828157.
Johnston, Henry, Young, David. Alternative CAES Technology Using Depleted Unconventional Gas Wells and Subsurface Thermal Energy Storage (GeoCAES). United States: N.p., 23 May, 2019. Web. doi: 10.15121/1828157.
Johnston, Henry, Young, David. Alternative CAES Technology Using Depleted Unconventional Gas Wells and Subsurface Thermal Energy Storage (GeoCAES). United States. https://dx.doi.org/10.15121/1828157
Johnston, Henry, Young, David. 2019. "Alternative CAES Technology Using Depleted Unconventional Gas Wells and Subsurface Thermal Energy Storage (GeoCAES)". United States. https://dx.doi.org/10.15121/1828157. https://gdr.openei.org/submissions/1341.
@div{oedi_4528, title = {Alternative CAES Technology Using Depleted Unconventional Gas Wells and Subsurface Thermal Energy Storage (GeoCAES)}, author = {Johnston, Henry, Young, David.}, abstractNote = {This project assessed the technical viability of a process called GeoCAES. The process stores electrical energy by injecting natural gas into shale gas formations using a compressor, storing it, and producing it through an expander to generate electricity. This data submission includes the models of temperature and pressure changes in the wellbore, surface plant equipment (compressor and expander), and the code used in CMG GEM reservoir modeling software to simulate injection and production.
Note - the wellbore and surface plant equipment models use the REFPROP Excel Add-in from NIST (linked in submission) to calculate natural gas properties.
Note - the reservoir model code requires a license for the Computer Modeling Group (CMG) GEM reservoir modeling software (linked in submission) to run it.
}, doi = {10.15121/1828157}, url = {https://gdr.openei.org/submissions/1341}, journal = {}, number = , volume = , place = {United States}, year = {2019}, month = {05}}
https://dx.doi.org/10.15121/1828157
Details
Data from May 23, 2019
Last updated Oct 29, 2021
Submitted Oct 20, 2021
Organization
National Renewable Energy Laboratory
Contact
Chad Augustine
303.384.7382
Authors
Original Source
https://gdr.openei.org/submissions/1341Research Areas
Keywords
geothermal, energy, energy storage, natural gas, unconventional shale, GeoCAES, model, well, geothermal energy storage, geothermal reservoir, surface plant, feasibility, technology, TES, technical, technical assesment, code, processed dataDOE Project Details
Project Name Alternative CAES Technology Using Depleted Unconventional Gas Wells and Subsurface Thermal Energy Storage
Project Lead Josh Mengers
Project Number EE0034964