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Ground Source Heat Pump Computational Results

Publicly accessible License 

This data submission includes simulation results for ground loop heat pump systems located in 6 different cities across the United States. The cities are Boston, MA, Dayton, OH, Omaha, NE, Orlando, FL, Sacramento, CA, and St. Paul, MN. These results were obtained from the two-dimensional geothermal computer code called GEO2D. GEO2D was written as part of this DOE funded grant. The results included in this submission for each of the 6 cities listed above are:
1) specific information on the building being heated or cooled by the ground loop geothermal system,
2) some extreme values for the building heating and cooling loads during the year,
3) the inputs required to carry out the simulation,
4) a plot of the hourly building heating and cooling loads throughout the year,
5) a plot of the fluid temperature exiting the ground loop for a 20 year period,
6) a plot of the heat exchange between the ground loop and the ground for a 20 year period, and
7) ground and ground loop temperature contour plots at different times of the year for the 20 year period.

Citation Formats

TY - DATA AB - This data submission includes simulation results for ground loop heat pump systems located in 6 different cities across the United States. The cities are Boston, MA, Dayton, OH, Omaha, NE, Orlando, FL, Sacramento, CA, and St. Paul, MN. These results were obtained from the two-dimensional geothermal computer code called GEO2D. GEO2D was written as part of this DOE funded grant. The results included in this submission for each of the 6 cities listed above are: 1) specific information on the building being heated or cooled by the ground loop geothermal system, 2) some extreme values for the building heating and cooling loads during the year, 3) the inputs required to carry out the simulation, 4) a plot of the hourly building heating and cooling loads throughout the year, 5) a plot of the fluid temperature exiting the ground loop for a 20 year period, 6) a plot of the heat exchange between the ground loop and the ground for a 20 year period, and 7) ground and ground loop temperature contour plots at different times of the year for the 20 year period. AU - Menart, James DB - Open Energy Data Initiative (OEDI) DP - Open EI | National Renewable Energy Laboratory DO - KW - geothermal KW - Ground Source Heat Pump System KW - Computational Results KW - Full temperature fields KW - simulation KW - ground source heat pump systems KW - temperature profiles KW - home heating and cooling load information KW - Sacramento KW - CA KW - St. Paul KW - MN. KW - Boston KW - MA KW - Omaha KW - NE KW - Orlando KW - FL KW - Dayton KW - OH LA - English DA - 2013/07/31 PY - 2013 PB - Wright State University T1 - Ground Source Heat Pump Computational Results UR - https://data.openei.org/submissions/6576 ER -
Export Citation to RIS
Menart, James. Ground Source Heat Pump Computational Results. Wright State University, 31 July, 2013, GDR. https://gdr.openei.org/submissions/235.
Menart, J. (2013). Ground Source Heat Pump Computational Results. [Data set]. GDR. Wright State University. https://gdr.openei.org/submissions/235
Menart, James. Ground Source Heat Pump Computational Results. Wright State University, July, 31, 2013. Distributed by GDR. https://gdr.openei.org/submissions/235
@misc{OEDI_Dataset_6576, title = {Ground Source Heat Pump Computational Results}, author = {Menart, James}, abstractNote = {This data submission includes simulation results for ground loop heat pump systems located in 6 different cities across the United States. The cities are Boston, MA, Dayton, OH, Omaha, NE, Orlando, FL, Sacramento, CA, and St. Paul, MN. These results were obtained from the two-dimensional geothermal computer code called GEO2D. GEO2D was written as part of this DOE funded grant. The results included in this submission for each of the 6 cities listed above are:
1) specific information on the building being heated or cooled by the ground loop geothermal system,
2) some extreme values for the building heating and cooling loads during the year,
3) the inputs required to carry out the simulation,
4) a plot of the hourly building heating and cooling loads throughout the year,
5) a plot of the fluid temperature exiting the ground loop for a 20 year period,
6) a plot of the heat exchange between the ground loop and the ground for a 20 year period, and
7) ground and ground loop temperature contour plots at different times of the year for the 20 year period.}, url = {https://gdr.openei.org/submissions/235}, year = {2013}, howpublished = {GDR, Wright State University, https://gdr.openei.org/submissions/235}, note = {Accessed: 2025-05-03} }

Details

Data from Jul 31, 2013

Last updated May 25, 2017

Submitted Jul 31, 2013

Organization

Wright State University

Contact

James Menart

937.775.5145

Authors

James Menart

Wright State University

Research Areas

DOE Project Details

Project Name Recovery Act: Finite Volume Based Computer Program for Ground Source Heat Pump Systems

Project Lead Arlene Anderson

Project Number EE0002805

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