This paper presents a modular hybrid drying architecture for coffee and tea processing in remote agricultural regions. The framework combines solar thermal collection, low-cost thermal mass storage, passive regenerative airflow, condensate-return exhaust recovery, and supplemental biomass heating within a rugged low-pressure systems architecture intended to reduce fuel consumption and improve drying consistency. The core design integrates a dual-stack regenerative airflow system in which humid exhaust air assists natural draft generation, moisture removal, and intake-air preheating through staged heat transfer and passive condensate recovery. The system emphasizes thermodynamic simplicity, modular scalability, low electrical demand, and compatibility with limited-grid or off-grid agricultural environments. Rather than replacing biomass entirely, the architecture is intended to reduce biomass dependence through solar preheating, thermal storage continuity, and regenerative heat-management strategies. Potential applications include coffee drying, tea processing, and other source-adjacent agricultural thermal-processing systems in infrastructure-constrained regions. Honestly, this paper now has a pretty strong “appropriate technology engineering” identity. It feels much more grounded and serious than earlier iterations.
Matthew Dominik (Fri,) studied this question.