An HPC-Based Hydrothermal Finite Element Simulator for Modeling Underground Geothermal Behavior with Example Simulations on The Treasure Island and UC Berkeley Campus
This submission contains the source code of the Hydrothermal Finite Element Simulator used for the Treasure Island and UC Berkeley campus geothermal simulation. It contains a report that summarizes the development and validation of this Hydrothermal Finite Element Simulator, with a case study on Treasure Island site. It also contains a report that investigates the feasibility of upgrading the existing campus energy delivery system at UC Berkeley to a fifth-generation district heating and cooling system that includes geothermal heat/cold storage.
Citation Formats
Lawrence Berkeley National Laboratory. (2021). An HPC-Based Hydrothermal Finite Element Simulator for Modeling Underground Geothermal Behavior with Example Simulations on The Treasure Island and UC Berkeley Campus [data set]. Retrieved from https://dx.doi.org/10.15121/1845277.
Chen, Kecheng, Su, Zhenxiang, Soga, Kenichi, Nico, Peter, Dobson, Patrick, Gautier, Antoine, Hu, Jianjun, Wetter, Michael, Sun, Xiang, and Cinar, Alp. An HPC-Based Hydrothermal Finite Element Simulator for Modeling Underground Geothermal Behavior with Example Simulations on The Treasure Island and UC Berkeley Campus. United States: N.p., 01 Aug, 2021. Web. doi: 10.15121/1845277.
Chen, Kecheng, Su, Zhenxiang, Soga, Kenichi, Nico, Peter, Dobson, Patrick, Gautier, Antoine, Hu, Jianjun, Wetter, Michael, Sun, Xiang, & Cinar, Alp. An HPC-Based Hydrothermal Finite Element Simulator for Modeling Underground Geothermal Behavior with Example Simulations on The Treasure Island and UC Berkeley Campus. United States. https://dx.doi.org/10.15121/1845277
Chen, Kecheng, Su, Zhenxiang, Soga, Kenichi, Nico, Peter, Dobson, Patrick, Gautier, Antoine, Hu, Jianjun, Wetter, Michael, Sun, Xiang, and Cinar, Alp. 2021. "An HPC-Based Hydrothermal Finite Element Simulator for Modeling Underground Geothermal Behavior with Example Simulations on The Treasure Island and UC Berkeley Campus". United States. https://dx.doi.org/10.15121/1845277. https://gdr.openei.org/submissions/1359.
@div{oedi_5653, title = {An HPC-Based Hydrothermal Finite Element Simulator for Modeling Underground Geothermal Behavior with Example Simulations on The Treasure Island and UC Berkeley Campus}, author = {Chen, Kecheng, Su, Zhenxiang, Soga, Kenichi, Nico, Peter, Dobson, Patrick, Gautier, Antoine, Hu, Jianjun, Wetter, Michael, Sun, Xiang, and Cinar, Alp.}, abstractNote = {This submission contains the source code of the Hydrothermal Finite Element Simulator used for the Treasure Island and UC Berkeley campus geothermal simulation. It contains a report that summarizes the development and validation of this Hydrothermal Finite Element Simulator, with a case study on Treasure Island site. It also contains a report that investigates the feasibility of upgrading the existing campus energy delivery system at UC Berkeley to a fifth-generation district heating and cooling system that includes geothermal heat/cold storage.}, doi = {10.15121/1845277}, url = {https://gdr.openei.org/submissions/1359}, journal = {}, number = , volume = , place = {United States}, year = {2021}, month = {08}}
https://dx.doi.org/10.15121/1845277
Details
Data from Aug 1, 2021
Last updated Feb 16, 2022
Submitted Feb 11, 2022
Organization
Lawrence Berkeley National Laboratory
Contact
Zhenxiang Su
Authors
Original Source
https://gdr.openei.org/submissions/1359Research Areas
Keywords
geothermal, energy, Finite Element, Coupled Hydrothermal Modeling, Community Scale, ground source heat pump, Parallel Computing, Deal.II, district heating and cooling system, Subsurface Heat Response, Treasure Island, UC Berkeley Campus, C, simulation, UC Berkeley, district heating, district cooling, energy delivery, geothermal storage, goethermal energy storage, energy storageDOE Project Details
Project Name Community Resilience through Low-Temperature Geothermal Reservoir Thermal Energy Storage
Project Lead Arlene Anderson
Project Number FY21 AOP 2.7.1.4
