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

Published by Lawrence Berkeley National Laboratory | Department of Energy | Metadata Last Checked: June 28, 2025 | Last Modified: 2022-02-01T22:38:53Z

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.

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Complete Metadata

bureauCode	[ "019:20" ]
dataQuality	true
DOI	10.15121/1843041
identifier	https://data.openei.org/submissions/7476
issued	2021-02-22T07:00:00Z
landingPage	https://gdr.openei.org/submissions/1363
programCode	[ "019:006" ]
projectLead	Arlene Anderson
projectNumber	FY21 AOP 2.7.1.4
projectTitle	Community Resilience through Low-Temperature Geothermal Reservoir Thermal Energy Storage
spatial	{"type":"Polygon","coordinates":[[[-180,-90],[180,-90],[180,90],[-180,90],[-180,-90]]]}