Life cycle and environmental assessment of calcium looping (CaL) in solar thermochemical energy storage
Date
2022-04-01
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
Calcium looping is a promising thermochemical energy storage process to be integrated into concentrating solar
power plants. This work develops for the first time a comprehensive life cycle assessment of the calcium looping
integration in solar plants to assess the potential of the technology from an environmental perspective. Two
representative integrations are analysed, representing daily (hot) and seasonal (cold) storage designs. Similar
performance environmental impacts are observed in both, with slightly better results for the seasonal storage
case due to the simplified energy storage integration. The results show the moderate environmental impact of
calcium looping thermochemical energy storage technology, resulting in lower equivalent carbon dioxide
emissions ( 24 kg/MWh) than other energy storage options such as molten salt-based solar facilities (40 kg/
MWh). Plant construction involves a higher energy demand for the process, whilst the operation and maintenance
on the plant represent a moderate impact due to the low environmental impact of limestone, the unique
raw material of the process, and the lower water consumption compared to typical concentrating solar power
plants. Besides, the energy required for the system is first time analysed, obtaining an energy payback time of 2.2
years and 2.5 years depending on the storage strategy desig
Description
Keywords
CaCO3/CaO, Energy storage, Thermochemical energy storage, Solar, Renewables, CSP
Citation
Energy Conversion and Management
Collections
Endorsement
Review
Supplemented By
Referenced By
Creative Commons license
Except where otherwised noted, this item's license is described as openAccess