Thermal contribution-driven energy matching for internal heating regeneration in microchannel-corrugated fin regenerators under extreme hot-humid climate
Key Points
Enhanced energy matching significantly improves thermal regeneration efficiency.
Key evidence includes a 25% increase in heat transfer in humid conditions during testing.
Evaluation using thermal contribution-driven analysis across several environmental conditions has been conducted.
Supports further exploration of microchannel designs for climate-resilient energy systems.
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Thermal contribution-driven energy matching for internal heating regeneration in microchannel-corrugated fin regenerators under extreme hot-humid climate | Synapse