National Modeling of Geothermal District Energy Systems with Ambient-Temperature Loops Using dGeo: Preprint

Research output: Contribution to conferencePaper

Abstract

Geothermal district energy systems (DES) with ambient-temperature loops, also known as thermal energy networks, are one option for decarbonizing space heating and cooling loads. Geothermal fifth-generation DES include an "ambient" temperature thermal loop that connects heat pumps at each building with thermal balancing sources such as geothermal borehole fields. Heating and cooling are provided via a water-source heat pump at each end-user. This project seeks to analyze the nationwide potential for ambient-temperature loop districts by creating a new module within the Distributed Geothermal Market Demand Model (dGeo). dGeo is an agent-based modeling tool for distributed geothermal resources; it can investigate potential on a nationwide or statewide scale using geospatial data for all 50 states and thermal demands for existing buildings. This process allows for high-level estimates of technical and economic potential for ambient-temperature loop districts across the United States. Using GHEDesigner, a lookup table was created to size borehole fields for different thermal loads and ground conditions experienced across the country. A cost and financing structure, along with incentives, were applied. Cost estimates include costs for the distribution network, borehole field installation and operation, and circulation pump operation, while savings are calculated based on agent energy bills. This newly developed module can be used for assessing which areas of the country have the highest potential for agent benefits from ambient-temperature loop installation and assess the impact of different costing and pricing future scenarios. While the code is still under development and nationwide simulations are ongoing, initial results for two states are provided. Future work includes expanding the module to consider mixed residential and commercial districts and considering multiple costing scenarios.
Original languageAmerican English
Number of pages17
StatePublished - 2024
EventGeothermal Rising Conference - Waikoloa, HI
Duration: 27 Oct 202430 Oct 2024

Conference

ConferenceGeothermal Rising Conference
CityWaikoloa, HI
Period27/10/2430/10/24

NREL Publication Number

  • NREL/CP-5700-90324

Keywords

  • ambient temperature loop
  • dGeo
  • district energy system
  • geothermal boreholes
  • heating and cooling
  • spatial modeling
  • thermal energy network

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