Abstract
The comparison between compressed air energy storage, batteries, and thermal energy storage is crucial in understanding their respective roles in meeting heating and cooling demands in an energy-efficient and cost-effective manner. This study aims to quantify the impact of Thermal Energy Storage (TES) measures on a building's heating and cooling demands, particularly focusing on system efficiency and boiler cycling. Through thermodynamic analysis and modeling of TES systems with varying storage capacities, this research aims to showcase the potential of TES in optimizing peak thermal loads, consequently reducing the required boiler or chiller capacity and enhancing overall thermal system efficiency.
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