Subsurface Geological Information and Models in support of Feasibility Study of Direct District Heating for the Cornell Campus Utilizing Deep Geothermal Energy
DOI
10.15121/1632872
Publicly accessible
License
This purpose of this set of entries is to group together the materials and analytical methods used in the assessment of the natural rock properties within and surrounding two potential reservoirs.
Citation Formats
TY - DATA
AB - This purpose of this set of entries is to group together the materials and analytical methods used in the assessment of the natural rock properties within and surrounding two potential reservoirs.
AU - Jordan, Teresa
A2 - Smith, Jared
A3 - Al Aswad, Jood
DB - Geothermal Data Repository
DP - Open EI | National Renewable Energy Laboratory
DO - 10.15121/1632872
KW - geothermal
KW - energy
KW - Cornell University
KW - low-temperature geothermal
KW - reservoir simulation
KW - uncertainty analysis
KW - district heating
KW - direct use
KW - Appalachian Basin
KW - New York State
KW - techno-economic analysis
KW - levelized cost of heat LCOH
KW - externality values
KW - environmental value
KW - economic value
KW - DDU
KW - EA
KW - environment
KW - environmental
KW - assessment
KW - temperature
KW - LCOH
KW - levelized cost of heat
KW - effective porosity
KW - heat pump
KW - ghp
KW - well data
KW - characterization
KW - shale neutron porosity
KW - Cornell
LA - English
DA - 2019/10/27
PY - 2019
PB - Cornell University
T1 - Subsurface Geological Information and Models in support of Feasibility Study of Direct District Heating for the Cornell Campus Utilizing Deep Geothermal Energy
UR - https://doi.org/10.15121/1632872
ER -
Jordan, Teresa, et al. Subsurface Geological Information and Models in support of Feasibility Study of Direct District Heating for the Cornell Campus Utilizing Deep Geothermal Energy. Cornell University, 27 October, 2019, Geothermal Data Repository. https://doi.org/10.15121/1632872.
Jordan, T., Smith, J., & Al Aswad, J. (2019). Subsurface Geological Information and Models in support of Feasibility Study of Direct District Heating for the Cornell Campus Utilizing Deep Geothermal Energy. [Data set]. Geothermal Data Repository. Cornell University. https://doi.org/10.15121/1632872
Jordan, Teresa, Jared Smith, and Jood Al Aswad. Subsurface Geological Information and Models in support of Feasibility Study of Direct District Heating for the Cornell Campus Utilizing Deep Geothermal Energy. Cornell University, October, 27, 2019. Distributed by Geothermal Data Repository. https://doi.org/10.15121/1632872
@misc{GDR_Dataset_1181,
title = {Subsurface Geological Information and Models in support of Feasibility Study of Direct District Heating for the Cornell Campus Utilizing Deep Geothermal Energy},
author = {Jordan, Teresa and Smith, Jared and Al Aswad, Jood},
abstractNote = {This purpose of this set of entries is to group together the materials and analytical methods used in the assessment of the natural rock properties within and surrounding two potential reservoirs.},
url = {https://gdr.openei.org/submissions/1181},
year = {2019},
howpublished = {Geothermal Data Repository, Cornell University, https://doi.org/10.15121/1632872},
note = {Accessed: 2025-05-04},
doi = {10.15121/1632872}
}
https://dx.doi.org/10.15121/1632872
Details
Data from Oct 27, 2019
Last updated Nov 1, 2022
Submitted Nov 6, 2019
Organization
Cornell University
Contact
Teresa Jordan
607.255.3596
Authors
Keywords
geothermal, energy, Cornell University, low-temperature geothermal, reservoir simulation, uncertainty analysis, district heating, direct use, Appalachian Basin, New York State, techno-economic analysis, levelized cost of heat LCOH, externality values, environmental value, economic value, DDU, EA, environment, environmental, assessment, temperature, LCOH, levelized cost of heat, effective porosity, heat pump, ghp, well data, characterization, shale neutron porosity, CornellDOE Project Details
Project Name EARTH SOURCE HEAT: A CASCADED SYSTEMS APPROACH TO DDU OF GEOTHERMAL ENERGY ON THE CORNELL CAMPUS
Project Lead Arlene Anderson
Project Number EE0008103
