Related Datasets

Pilgrim Hot Springs: GEOPHIRES Inputs and Outputs for Direct-Use Geothermal District Heating and Cooling

DOI 10.15121/2440402

Publicly accessible License

This dataset includes files for a techno-economic analysis conducted using the GEOPHIRES simulator to examine the feasibility of expanding a larger district heating site in a remote location: Pilgrim Hot Springs, Alaska. Files included here are GEOPHIRES inputs and outputs for five different scenarios with varying demand, cycle, and system design characteristics to analyze. Also included is the link to the GEOPHIRES GitHub, as well as a link to the dataset that contains the energy modelling used to determine the heating demand for the district. For a list of the differences between scenarios, see the included "Input Overview.txt" file. Fields included in the input files are: subsurface technical parameters, surface technical parameters, financial parameters, capital and O&M parameters, as well as simulation parameters. The output files are case reports that summarize all equipment, reservoir characteristics, costs, and heating profiles.

Download All Resources 211.86 kB — 19 files

1A_input.txt

This is scenario 1a out of five. This is the input for a scenario run at Pilgrim Hot Springs. CHP topping cycle with 75kW ORC, scaled down to meet 50 kWt hourly heat de... more

Download 2.56 kB

1A_output.txt

This is scenario 1a out of five. This is the output for a scenario run at Pilgrim Hot Springs. CHP topping cycle with 75kW ORC, scaled down to meet 50 kWt hourly heat d... more

Download 21.42 kB

1B_input.txt

This is scenario 1b out of five. This is the input for a scenario run at Pilgrim Hot Springs. CHP topping cycle with 75kW ORC, maximum heat production.

Download 2.51 kB

1B_output.txt

This is scenario 1b out of five. This is the output for a scenario run at Pilgrim Hot Springs. CHP topping cycle with 75kW ORC, maximum heat production.

Download 21.42 kB

2A_input.txt

This is scenario 2a out of five. This is the input for a scenario run at Pilgrim Hot Springs. CHP Parallel cycle with 75kW ORC, scaled down to meet 50 kWt hourly heat d... more

Download 2.58 kB

2A_output.txt

This is scenario 2a out of five. This is the output for a scenario run at Pilgrim Hot Springs. CHP Parallel cycle with 75kW ORC, scaled down to meet 50 kWt hourly heat ... more

Download 21.42 kB

2B_input.txt

This is scenario 2b out of five. This is the input for a scenario run at Pilgrim Hot Springs. Scenario 2b: CHP Parallel cycle with 75kW ORC, maximum heat production.

Download 2.55 kB

2B_output.txt

This is scenario 2b out of five. This is the output for a scenario run at Pilgrim Hot Springs. Scenario 2b: CHP Parallel cycle with 75kW ORC, maximum heat production.

Download 21.42 kB

3A_input.txt

This is scenario 3a out of five. This is the input for a scenario run at Pilgrim Hot Springs. CHP Parallel cycle with 75kW ORC, meet current heat demand with 2 producti... more

Download 2.58 kB

3A_output.txt

This is scenario 3a out of five. This is the output for a scenario run at Pilgrim Hot Springs. CHP Parallel cycle with 75kW ORC, meet current heat demand with 2 product... more

Download 21.43 kB

3B_input.txt

This is scenario 3b out of five. This is the input for a scenario run at Pilgrim Hot Springs. CHP Parallel cycle with 75kW ORC, maximum heat production with 2 productio... more

Download 2.54 kB

3B_output.txt

This is scenario 3b out of five. This is the output for a scenario run at Pilgrim Hot Springs. CHP Parallel cycle with 75kW ORC, maximum heat production with 2 producti... more

Download 21.43 kB

4A_input.txt

This is scenario 4a out of five. This is the input for a scenario run at Pilgrim Hot Springs. Geothermal district heating (no ORC), scaled down to meet 50 kWt hourly he... more

Download 2.99 kB

4A_output.txt

This is scenario 4a out of five. This is the output for a scenario run at Pilgrim Hot Springs. Geothermal district heating (no ORC), scaled down to meet 50 kWt hourly h... more

Download 20.44 kB

4B_input.txt

This is scenario 4a out of five. This is the input for a scenario run at Pilgrim Hot Springs. Geothermal district heating (no ORC), maximum heat production.

Download 2.51 kB

4B_output.txt

This is scenario 4b out of five. This is the output for a scenario run at Pilgrim Hot Springs. Geothermal district heating (no ORC), maximum heat production.

Download 18.85 kB

5_input.txt

This is scenario 5 out of five. This is the input for a scenario run at Pilgrim Hot Springs. 75kW ORC, no district heating.

Download 2.47 kB

5_output.txt

This is scenario 5 out of five. This is the output for a scenario run at Pilgrim Hot Springs. 75kW ORC, no district heating.

Download 19.98 kB

Building Dimensions and Energy Modeling

This dataset was created to model the anticipated heating load of a geothermal project in development for the historical site of Pilgrim Hot Springs, and adds to the hi... more

View

GEOPHIRES GitHub

Python

GitHub link to the GEOPHIRES simulator. GEOPHIRES is a free and open-source geothermal techno-economic simulator. GEOPHIRES combines reservoir, wellbore, surface plant... more

View Repository

Input Overview.txt

This is an overview of the scenarios and variables used in them.

Download 0.74 kB

Citation Formats

TY  - DATA
AB  - This dataset includes files for a techno-economic analysis conducted using the GEOPHIRES simulator to examine the feasibility of expanding a larger district heating site in a remote location: Pilgrim Hot Springs, Alaska. Files included here are GEOPHIRES inputs and outputs for five different scenarios with varying demand, cycle, and system design characteristics to analyze.  Also included is the link to the GEOPHIRES GitHub, as well as a link to the dataset that contains the energy modelling used to determine the heating demand for the district. For a list of the differences between scenarios, see the included "Input Overview.txt" file. Fields included in the input files are: subsurface technical parameters, surface technical parameters, financial parameters, capital and O&M parameters, as well as simulation parameters.  The output files are case reports that summarize all equipment, reservoir characteristics, costs, and heating profiles.
AU  - Pauling, Hannah
A2  - Smith, Tana
A3  - Garber-Slaght, Robbin
DB  - Geothermal Data Repository
DP  - Open EI | National Renewable Energy Laboratory
DO  - 10.15121/2440402
KW  - geothermal
KW  - energy
KW  - GEOPHIRES
KW  - CHP
KW  - ORC
KW  - parallel cycle
KW  - topping cycle
KW  - Pilgrim Hot Springs
KW  - Alaska
KW  - techno-economic analysis
KW  - feasibility
KW  - TEA
KW  - reservoir simulations
KW  - heat demand
KW  - capital
KW  - operating costs
KW  - district geothermal
KW  - district heating
KW  - Model
KW  - modeling
KW  - Python
KW  - GitHub
KW  - inputs
KW  - outputs
LA  - English
DA  - 2024/03/21
PY  - 2024
PB  - National Renewable Energy Laboratory
T1  - Pilgrim Hot Springs: GEOPHIRES Inputs and Outputs for Direct-Use Geothermal District Heating and Cooling
UR  - https://doi.org/10.15121/2440402
ER  -

Export Citation to RIS

Pauling, Hannah, et al. Pilgrim Hot Springs: GEOPHIRES Inputs and Outputs for Direct-Use Geothermal District Heating and Cooling. National Renewable Energy Laboratory, 21 March, 2024, Geothermal Data Repository. https://doi.org/10.15121/2440402.

Pauling, H., Smith, T., & Garber-Slaght, R. (2024). Pilgrim Hot Springs: GEOPHIRES Inputs and Outputs for Direct-Use Geothermal District Heating and Cooling. [Data set]. Geothermal Data Repository. National Renewable Energy Laboratory. https://doi.org/10.15121/2440402

Pauling, Hannah, Tana Smith, and Robbin Garber-Slaght. Pilgrim Hot Springs: GEOPHIRES Inputs and Outputs for Direct-Use Geothermal District Heating and Cooling. National Renewable Energy Laboratory, March, 21, 2024.  Distributed by Geothermal Data Repository. https://doi.org/10.15121/2440402

@misc{GDR_Dataset_1644,
title = {Pilgrim Hot Springs: GEOPHIRES Inputs and Outputs for Direct-Use Geothermal District Heating and Cooling},
author = {Pauling, Hannah and Smith, Tana and Garber-Slaght, Robbin},
abstractNote = {This dataset includes files for a techno-economic analysis conducted using the GEOPHIRES simulator to examine the feasibility of expanding a larger district heating site in a remote location: Pilgrim Hot Springs, Alaska. Files included here are GEOPHIRES inputs and outputs for five different scenarios with varying demand, cycle, and system design characteristics to analyze.  Also included is the link to the GEOPHIRES GitHub, as well as a link to the dataset that contains the energy modelling used to determine the heating demand for the district. For a list of the differences between scenarios, see the included "Input Overview.txt" file. Fields included in the input files are: subsurface technical parameters, surface technical parameters, financial parameters, capital and O&M parameters, as well as simulation parameters.  The output files are case reports that summarize all equipment, reservoir characteristics, costs, and heating profiles.},
url = {https://gdr.openei.org/submissions/1644},
year = {2024},
howpublished = {Geothermal Data Repository, National Renewable Energy Laboratory, https://doi.org/10.15121/2440402},
note = {Accessed: 2025-04-25},
doi = {10.15121/2440402}
}

https://dx.doi.org/10.15121/2440402

Details

Data from Mar 21, 2024

Last updated Dec 1, 2024

Submitted Sep 6, 2024

Organization

National Renewable Energy Laboratory

Contact

Caitlynn Hanna

907.887.4084

Authors

Hannah Pauling

National Renewable Energy Laboratory

Tana Smith

DeerStone Consulting

Robbin Garber-Slaght

National Renewable Energy Laboratory

DOE Project Details

Project Name Pilgrim Hot Springs Direct-Use Geothermal District Heating and Cooling

Project Lead Jeffrey Bowman

Project Number EE0010660

Pilgrim Hot Springs: GEOPHIRES Inputs and Outputs for Direct-Use Geothermal District Heating and Cooling

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