Design, fabrication, and performance assessment of a novel biomass gasification-powered all-season climate control unit for perishables

Design, fabrication, and performance assessment of a novel biomass gasification-powered all-season climate control unit for perishables

Availability of storage and processing facilities that work off-the-grid is crucial to agrarian economies for meeting sustainable development goals. We report a novel biomass-gasification-powered climate control unit (CCU) with independently controlled temperature and humidity, which enables the sys...

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Bibliographic Details
Published in:Biomass & bioenergy 2024-04, Vol.183, Article 107161
Main Authors: Sinha, Rahul, Sunil, Agarwal, Anurag, Thakur, Ajay D., Raj, Rishi
Format: Article
Language:eng
Subjects:
Biomass gasification
Energy
Off-the-grid
Perishables
Psychrometry
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Summary:Availability of storage and processing facilities that work off-the-grid is crucial to agrarian economies for meeting sustainable development goals. We report a novel biomass-gasification-powered climate control unit (CCU) with independently controlled temperature and humidity, which enables the system to maintain a wide range of climatic conditions for storage, processing and farming of perishables. The developed all-season CCU has a temperature control subsystem driven by a novel biomass gasification-based hot water generator (heating capacity – 22 kW), which also powers an adsorption refrigerator (cooling capacity – 11 kW). The heat content of the hot flue gas (≈250°C) from the exhaust of gasification-based hot water generator is recovered using flue gas-to-air heat exchanger and utilized to regenerate (3.6 kW) the desiccant wheel thus enabling an off-the-grid humidity control. Auxiliary components such as pumps, blowers, control panels, and valves are operated in an off-the-grid manner using solar photovoltaic panels (≈ 1.5 kWe) backed by storage batteries. An algorithm is devised to demonstrate autonomous and independent control of temperature and relative humidity over a wide range of psychrometric conditions (0–50 °C and 15–90 % RH). We also present the cost analysis and identify the immediate challenges facing the developed system. The waste-to-energy concept of high lignin-based biomass such as forest wood, agricultural residue demonstrated herein lays the foundation for a proper biomass utilization besides empowering farmers with a much-needed technology towards sustainable growth. •All-season off-the-grid climate control unit for perishables developed.•Novel biomass gasification-based hot water generator powers the system.•Independent control of temperature (0–50 °C) and humidity (15–90 %) attained.•Cost and auxiliary analysis reported to justify the viability of the system.•Other application includes industrial processing and indoor farming units.
ISSN:0961-9534
1873-2909