Development and Performance Investigation of an Inflatable Solar Drying Technology for Oyster Mushroom

Van Hung, Nguyen; Fuertes, Lei Anne; Balingbing, Carlito; Roxas, Ampy Paulo; Tala, Marvin; Gummert, Martin

Development and Performance Investigation of an Inflatable Solar Drying Technology for Oyster Mushroom

Nguyen Van Hung, Lei Anne Fuertes, Carlito Balingbing, Ampy Paulo Roxas, Marvin Tala and Martin Gummert
Additional contact information
Nguyen Van Hung: International Rice Research Institute (IRRI), Los Baños 4031, Philippines
Lei Anne Fuertes: GrainPro Philippines Inc., Zambales 2209, Philippines
Carlito Balingbing: International Rice Research Institute (IRRI), Los Baños 4031, Philippines
Ampy Paulo Roxas: International Rice Research Institute (IRRI), Los Baños 4031, Philippines
Marvin Tala: GrainPro Philippines Inc., Zambales 2209, Philippines
Martin Gummert: International Rice Research Institute (IRRI), Los Baños 4031, Philippines

Energies, 2020, vol. 13, issue 16, 1-12

Abstract: We developed an inflatable solar dryer for mushroom drying, which was adapted from the Solar Bubble Dryer TM originally designed for paddy drying. The improved dryer with an added perforated elevated floor ensured the quality without any requirement of mixing or turning of the mushrooms during drying. Its drying performance and economic feasibility were evaluated through determination of the drying parameters including moisture content (MC) reduction, mushroom quality, energy efficiency, greenhouse gas emissions, and cost-benefits ratio. Mushroom MC was reduced from 90% down to 40–60% within 2–4 h, corresponding to the drying rate at this stage of 10–20% h −1 . At the next stage, it took about 4–6 h corresponding to a drying rate of 2–10% h −1 to reach the required product MC of 8–10%. The color of the dried mushrooms still remained white-cream. The drying process required 4.57 MJ, emitted 0.33 kg CO 2 e, and required an input cost of 1.86 $US kg of dry product. For the specific case in the Philippines, this can generate a net profit of 468–1468 $US −1 year −1 and the investment will break even in 1.3–4.0 years corresponding to the selling price of dry mushroom of 10–12 $US kg −1 . The study developed a solution to improve the solar bubble dryer and verified its drying process for mushroom drying at farm scale. It would add a significant value to farmers’ income as well as a diversified source of nutrient-rich food.

Keywords: renewable energy; mushroom; postharvest; drying; rice straw; food (search for similar items in EconPapers)
JEL-codes: Q Q0 Q4 Q40 Q41 Q42 Q43 Q47 Q48 Q49 (search for similar items in EconPapers)
Date: 2020
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