Design and optimization of large-scale thermochemical heat storage reactor and its application in integrated energy system

Key Points

• Optimized design leads to improved thermochemical heat storage performance, positively influencing energy systems.
• Efficiency increases of up to 30% demonstrate significant potential for large-scale applications in integrated setups.
• Study employs advanced computational models to simulate reactor performance and optimize heat exchange processes.
• Results support the feasibility of integrating thermochemical heat storage into renewable energy systems for better energy management.