The Cooling and Heating transition Acceleration via Network Geothermal Energy

  • Poulsen, Søren Erbs (Projektleder)
  • Javed, Saqib (Projektleder)
  • D. Spitler, Jeffrey (Projektdeltager)
  • Claesson, Johan (Projektdeltager)

Projektdetaljer

Beskrivelse

5th generation geothermal district heating and cooling (Geo5GDHC) systems have the potential to significantly decarbonize heating and cooling provided in urban areas by making use of optimized building systems and by reusing waste heat within buildings and within the network. With the addition of underground thermal energy storage (UTES), the ability to make use of intermittent renewable energy sources is maximized, reducing or eliminating the use of fossil fuel-generated electricity. A significant challenge is formed by gaps in existing models and design/analysis tools. This project is aimed at demonstrating Geo5GDHC systems and developing new models, design algorithms, and design tools to facilitate rapid design of resource-efficient and sustainable distribution systems that take advantage of sector-coupling and incorporate UTES.
AkronymTHE CHANGE
StatusIgangværende
Effektiv start/slut dato01/02/2331/01/26

Samarbejdspartnere

  • Lund University (leder)
  • Oklahoma State University
  • Oak Ridge National Laboratory Tennessee
  • The National Renewable Energy Laboratory
  • GeoDrilling
  • Svenskt Geoenergicentrum
  • Skanska
  • GEUS

Emneord

  • jordvarme
  • Geo5GDHC