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Community Geothermal: Soil Conductivity, Borehole Design, Energy Models, and Load Data for a Residential System Development - Hinesburg, VT

Publicly accessible License 

This dataset contains materials from the Coalition for Community-Supported Affordable Geothermal Energy Systems (C2SAGES) project, which evaluated the techno-economic feasibility of a community geothermal system for a residential development in Hinesburg, VT. The dataset includes detailed soil conductivity test reports, energy models, borehole design reports, hourly energy loads for heating, cooling, and hot water, and design layouts. EnergyPlus was used to model building energy loads, and Modelica software was applied for geothermal loop sizing based on these loads and soil conductivity results. Python scripts for network design further refined the models.

Key files include PDF reports on borehole design (with projections for 1-year, 15-year, and 30-year systems), soil conductivity test results, EnergyPlus modeling outputs, and 2D/3D design drawings in PDF, DWG, and DXF formats. Python notebooks for network design and OnePipe model files are also provided, with Modelica required for viewing certain files. Outputs and modeling data are in various formats including CSV, JPG, HTML, and IDF, with units and data clearly labeled to support understanding of system design and performance for the proposed geothermal solution.

Citation Formats

GTI Energy. (2024). Community Geothermal: Soil Conductivity, Borehole Design, Energy Models, and Load Data for a Residential System Development - Hinesburg, VT [data set]. Retrieved from https://dx.doi.org/10.15121/2447627.
Export Citation to RIS
Jogineedi, Rohit, Estep, Greg, Mitchell, Matt, and Javed, Saqib. Community Geothermal: Soil Conductivity, Borehole Design, Energy Models, and Load Data for a Residential System Development - Hinesburg, VT. United States: N.p., 30 Aug, 2024. Web. doi: 10.15121/2447627.
Jogineedi, Rohit, Estep, Greg, Mitchell, Matt, & Javed, Saqib. Community Geothermal: Soil Conductivity, Borehole Design, Energy Models, and Load Data for a Residential System Development - Hinesburg, VT. United States. https://dx.doi.org/10.15121/2447627
Jogineedi, Rohit, Estep, Greg, Mitchell, Matt, and Javed, Saqib. 2024. "Community Geothermal: Soil Conductivity, Borehole Design, Energy Models, and Load Data for a Residential System Development - Hinesburg, VT". United States. https://dx.doi.org/10.15121/2447627. https://gdr.openei.org/submissions/1667.
@div{oedi_6199, title = {Community Geothermal: Soil Conductivity, Borehole Design, Energy Models, and Load Data for a Residential System Development - Hinesburg, VT}, author = {Jogineedi, Rohit, Estep, Greg, Mitchell, Matt, and Javed, Saqib.}, abstractNote = {This dataset contains materials from the Coalition for Community-Supported Affordable Geothermal Energy Systems (C2SAGES) project, which evaluated the techno-economic feasibility of a community geothermal system for a residential development in Hinesburg, VT. The dataset includes detailed soil conductivity test reports, energy models, borehole design reports, hourly energy loads for heating, cooling, and hot water, and design layouts. EnergyPlus was used to model building energy loads, and Modelica software was applied for geothermal loop sizing based on these loads and soil conductivity results. Python scripts for network design further refined the models.

Key files include PDF reports on borehole design (with projections for 1-year, 15-year, and 30-year systems), soil conductivity test results, EnergyPlus modeling outputs, and 2D/3D design drawings in PDF, DWG, and DXF formats. Python notebooks for network design and OnePipe model files are also provided, with Modelica required for viewing certain files. Outputs and modeling data are in various formats including CSV, JPG, HTML, and IDF, with units and data clearly labeled to support understanding of system design and performance for the proposed geothermal solution.}, doi = {10.15121/2447627}, url = {https://gdr.openei.org/submissions/1667}, journal = {}, number = , volume = , place = {United States}, year = {2024}, month = {08}}
https://dx.doi.org/10.15121/2447627

Details

Data from Aug 30, 2024

Last updated Sep 24, 2024

Submitted Sep 23, 2024

Organization

GTI Energy

Contact

Kaushik Biswas

530.322.9878

Authors

Rohit Jogineedi

GTI Energy

Greg Estep

LN Consulting

Matt Mitchell

National Renewable Energy Laboratory

Saqib Javed

National Renewable Energy Laboratory

Research Areas

DOE Project Details

Project Name Community Geothermal Heating and Cooling Design and Deployment

Project Lead Arlene Anderson

Project Number EE0010669

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