Thermal-Hydrological-Mechanical Modelling of Stockton University Reservoir Cooling System, Fine Scale Stress Test Modelling

Mesh, properties, initial conditions, injection/withdrawal rates for modelling thermal, hydrological, and mechanical effects of fluid injection to and withdrawal from ground for Stockton University reservoir cooling system (aquifer storage cooling system), Galloway, New Jersey, for unscheduled two hour injection at 133 % designed capacity, on fine scale grid, with some results. Second simulation of J.T. Smith, E. Sonnenthal, P. Dobson, P. Nico, and M. Worthington, 2021. Thermal-hydrological-mechanical modeling of Stockton University reservoir cooling system, Proceedings of the 46th Workshop on Geothermal Reservoir Engineering, Stanford University, SGP-TR-218, from which Figures 6-9, pertain.

Data and Resources

Field Value
DOI 10.15121/1843041
accessLevel public
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identifier https://data.openei.org/submissions/5643
issued 2021-02-22T07:00:00Z
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modified 2022-02-01T22:38:53Z
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programCode {019:006}
projectLead Arlene Anderson
projectNumber FY21 AOP 2.7.1.4
projectTitle Community Resilience through Low-Temperature Geothermal Reservoir Thermal Energy Storage
publisher Lawrence Berkeley National Laboratory
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Groups
  • AmeriGEOSS
  • National Provider
  • North America
Tags
  • amerigeo
  • amerigeoss
  • aquifer-storage-cooling-system
  • cfd
  • ckan
  • cooling
  • fea
  • flow-simulation
  • fluid
  • geo
  • geoss
  • geothermal
  • geothermal-cooling
  • ground-source
  • injection
  • model
  • modeling
  • national
  • new-jersey
  • north-america
  • reservoir-cooling-system
  • simulation
  • stockton-university
  • stress
  • stress-modeling
  • stress-test
  • thermal-hydrological-mechanical
  • united-states
  • withdrawal
isopen True
license_id cc-by
license_title Creative Commons Attribution
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maintainer J Torquil Smith
maintainer_email jtsmith@lbl.gov
metadata_created 2025-11-22T12:56:35.795110
metadata_modified 2025-11-22T12:56:35.795113
notes Mesh, properties, initial conditions, injection/withdrawal rates for modelling thermal, hydrological, and mechanical effects of fluid injection to and withdrawal from ground for Stockton University reservoir cooling system (aquifer storage cooling system), Galloway, New Jersey, for unscheduled two hour injection at 133 % designed capacity, on fine scale grid, with some results. Second simulation of J.T. Smith, E. Sonnenthal, P. Dobson, P. Nico, and M. Worthington, 2021. Thermal-hydrological-mechanical modeling of Stockton University reservoir cooling system, Proceedings of the 46th Workshop on Geothermal Reservoir Engineering, Stanford University, SGP-TR-218, from which Figures 6-9, pertain.
num_resources 14
num_tags 29
title Thermal-Hydrological-Mechanical Modelling of Stockton University Reservoir Cooling System, Fine Scale Stress Test Modelling