Experimental investigation of a novel hybrid drying system powered by a solar photovoltaic thermal air collector and wind turbine

To improve the problem of insufficient energy supply for a solar drying system, a novel hybrid drying system powered by a solar photovoltaic/thermal (PV/T) air collector and wind turbine was proposed and tested. In this study, turnips were selected as drying samples to study the hybrid dryer performance. The results demonstrated that the electricity provided by the solar and wind energy met the requirements of the drying system for all-day work. The total energy efficiencies of the amorphous silicon PV/T collector for the two days of the drying experiment were 61.4% and 55.2%, and the exergy efficiencies were 9.95% and 9.60%. For the monocrystalline silicon PV/T collector, the total energy efficiencies for the two days were 35.5% and 36.0%, and the exergy efficiencies were 10.22% and 9.31%. The energy efficiency of the wind turbine was 21.6%. Fresh turnips with a moisture content of 16.680 kg water.(kg dry matter)(-1) were dried to achieve a final value of 0.132 kg water.(kg dry matter)(-1), and this took 28 h (including night) when using the hybrid drying system. After drying overnight, the turnips' moisture content was decreased by 1.556 kg water.(kg dry matter)(-1). The drying efficiency of the hybrid dryer reached 8.99%. (C) 2022 Elsevier Ltd. All rights reserved.

Automated summary

A novel hybrid drying system powered by a solar PV/T air collector and wind turbine was proposed and tested to address the problem of insufficient energy supply for a solar drying system. The results showed that the system achieved high energy and drying efficiencies, using both solar and wind energy.