Related Datasets

Environmental Impact Calculations for Geothermal DDU system on WVU Campus

DOI 10.15121/1632871

Publicly accessible License

This dataset contains all the inputs used and output produced from Matlab for the environmental analysis of an improved hybrid geothermal district heating and cooling (GDHC) system with a heat pump, without a heat pump, and for a hot water GDHC. Detailed descriptions of the contents of this repository are provided below.

Download All Resources 43.3 kB — 5 files

Environmental Calculations.docx

Word document describing the methodology used along with the amount of CO2 emissions reduced for production of hot water and steam using GDHC system when compared to na... more

157

Download 21.25 kB

Hybrid Coal.zip

Scripts used to calculate the decrease in the amount of CO2 emissions between the hybrid geothermal system and coal based system

Download 6.59 kB

Hybrid Natural Gas.zip

Scripts used to calculate the decrease in the amount of CO2 emissions between the hybrid geothermal system and a natural gas system.

Download 7.04 kB

Water Coal.zip

Scripts used to calculate the decrease in the amount of CO2 emissions between the hot water geothermal system using peak energy demand with a 40 kg/s and 80 kg/s inject... more

Download 4.08 kB

Water Natural Gas.zip

Scripts used to calculate the decrease in the amount of CO2 emissions between hot water geothermal system using peak energy demand with a 40 kg/s and 80 kg/s injection ... more

Download 4.35 kB

Citation Formats

West Virginia University. (2020). Environmental Impact Calculations for Geothermal DDU system on WVU Campus [data set].  Retrieved from https://dx.doi.org/10.15121/1632871.

Export Citation to RIS

Garapati, Nagasree, Irr, Victoria, and Lamb, Blaine. Environmental Impact Calculations for Geothermal DDU system on WVU Campus. United States: N.p., 18 Mar, 2020. Web. doi: 10.15121/1632871.

Garapati, Nagasree, Irr, Victoria, & Lamb, Blaine. Environmental Impact Calculations for Geothermal DDU system on WVU Campus. United States. https://dx.doi.org/10.15121/1632871

Garapati, Nagasree, Irr, Victoria, and Lamb, Blaine. 2020. "Environmental Impact Calculations for Geothermal DDU system on WVU Campus". United States. https://dx.doi.org/10.15121/1632871. https://gdr.openei.org/submissions/1206.

@div{oedi_1206, title = {Environmental Impact Calculations for Geothermal DDU system on WVU Campus}, author = {Garapati, Nagasree, Irr, Victoria, and Lamb, Blaine.}, abstractNote = {This dataset contains all the inputs used and output produced from Matlab for the environmental analysis of an improved hybrid geothermal district heating and cooling (GDHC) system with a heat pump, without a heat pump, and for a hot water GDHC. Detailed descriptions of the contents of this repository are provided below.}, doi = {10.15121/1632871}, url = {https://gdr.openei.org/submissions/1206}, journal = {}, number = , volume = , place = {United States}, year = {2020}, month = {03}}

https://dx.doi.org/10.15121/1632871

Details

Data from Mar 18, 2020

Last updated May 17, 2021

Submitted Mar 18, 2020

Organization

West Virginia University

Contact

Nagasree Garapati

304.293.5028

Authors

Nagasree Garapati

West Virginia University

Victoria Irr

West Virginia University

Blaine Lamb

West Virginia University

Keywords

geothermal, energy, West Virginia University, natural gas boilers, environment, environmental, assessment, GDHC, heat pump, hybrid, natural gas, MATLAB, hot water, DDU, WVU, coal, modeling, EA, injection test, flow, CO2

DOE Project Details

Project Name Feasibility of Deep Direct Use Geothermal on the West Virginia University Campus-Morgantown, WV

Project Lead Arlene Anderson

Project Number EE0008105

Environmental Impact Calculations for Geothermal DDU system on WVU Campus

Citation Formats

Details

Organization

Contact

Authors

Keywords

DOE Project Details

Share