NREL kicks off research on geothermal heat storage and hybrid systems
NREL campus in Golden, Colorado (source: U.S. Department of Energy from United States, Public domain, via Wikimedia Commons)
Carlo Cariaga
10 Mar 2023
Top researchers from across the U.S. will be working with NREL for a project on geothermal energy storage and hybrid power systems.
The National Renewable Energy Laboratory (NREL) has kicked off a new project that aims to explore novel means of capturing excess energy production using geothermal reservoirs. Part of this project is also the evaluation of technical and economic opportunities to hybridize solar power with geothermal reservoir thermal energy storage to provide important energy storage capabilities at the national level.
“This project will identify suitable sites for geothermal reservoir thermal energy storage, as well as investigate charging the system with thermal energy from two different sources—concentrating solar power and from heat pumps which can be run during periods of low-cost or negatively priced renewable electricity—allowing these systems to be deployed in nontraditional regions,” said Guangdong Zhu, project lead and NREL group manager of thermal energy systems.
The recent kickoff meeting for this project brought together 20 participants from partnering entities to NREL’s campus. In addition to NREL, partners on the project include the U.S. Department of Energy’s Geothermal Technologies Office, Lawrence Berkeley National Laboratory, Idaho National Laboratory, Premier Resource Management, and Earthbridge Energy.
The national laboratories will work with Premier Resource Management on a case study to explore using legacy oil/gas reservoirs with solar thermal hybridization in California. They will also work with Earthbridge Energy on a case study to apply high-efficiency heat pump technologies to store excess wind power into water reservoirs in Texas.
“This project will also evaluate opportunities to reduce RTES (reservoir thermal energy storage) development costs, by leveraging already existing infrastructure and using, for example, depleted oil and gas reservoirs,” said Jerry Carr, project officer at the U.S. Department of Energy’s Geothermal Technologies Office.
While thermal storage in shallow aquifers has been successfully implemented in the United States and western Europe for decades, there are currently no commercial thermal storage projects in depleted oil and gas reservoirs. Not only will utilizing this resource promote significant cost savings, but it will also encourage oil and gas industries to participate in the transition to a decarbonized energy economy by leveraging existing capital and assets.
Stored thermal energy has the potential to generate electricity and directly produce heat that can be used by industrial processes. The energy can also be kept in cold storage reservoirs to be used for building and industrial cooling.
Ultimately, this project will aid in decarbonization and has the potential to support diversity, equity, and inclusion in energy storage planning and implementation if adopted in communities most impacted by high heating and cooling bills. Demonstrating the economic possibilities of stored thermal heating and cooling may promote wide-scale deployment of these systems. This will allow consumers to benefit from lower costs, improving accessibility in all communities.
Source: NREL
