Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant
This study compared the postharvest storage potentials of a solar-powered cool room and an off-grid metal-in-wall evaporative coolant. Temperature drop and relative humidity (RH) increase were used to assess the performance of cooling systems. The metal-in-wall evaporative coolant's cooling efficien...
| Autores principales: | , , |
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| Formato: | Informe técnico |
| Lenguaje: | Inglés |
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International Food Policy Research Institute
2024
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| Materias: | |
| Acceso en línea: | https://hdl.handle.net/10568/163570 |
| _version_ | 1855539874370682880 |
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| author | Salaudeen, Kamaldeen Oladimeji Takeshima, Hiroyuki Yamauchi, Futoshi |
| author_browse | Salaudeen, Kamaldeen Oladimeji Takeshima, Hiroyuki Yamauchi, Futoshi |
| author_facet | Salaudeen, Kamaldeen Oladimeji Takeshima, Hiroyuki Yamauchi, Futoshi |
| author_sort | Salaudeen, Kamaldeen Oladimeji |
| collection | Repository of Agricultural Research Outputs (CGSpace) |
| description | This study compared the postharvest storage potentials of a solar-powered cool room and an off-grid metal-in-wall evaporative coolant. Temperature drop and relative humidity (RH) increase were used to assess the performance of cooling systems. The metal-in-wall evaporative coolant's cooling efficiency was measured. Tomato (UTC variety), Orange (Dan Benue variety) and Carrot (Orange Chantenay) were procured from the international fruits market in Duste, Jigawa State, Nigeria. The products were sorted and stored in three different storage conditions: room temperature (RT), solar powered cool room (SCR), and wall-in-wall evaporative coolant. Mass loss, color, firmness, total soluble solids and titratable acids, carotenoids, vitamin C, marketability percentage, and rate of nutrient degradation were among the quality characteristics assessed. The temperature was lowered to 17.24 °C by the metal-in-wall evaporative coolant, which was far lower than the room temperature (29.19 °C). Evaporative coolant's relative humidity rose from 69.84 to 83.91% while its average cooling efficiency was 60.79%. The average temperature and relative humidity of the solar-powered cool room were 10.45 °C and 86%, respectively. Fruit quality was significantly (p < 0.05) impacted by storage techniques, variations in stored fruits, and storage duration. Compared to the other treatments, the solar-powered cool room preserved the color, mass, firmness, TA, TSS, carotenoids, and vitamin C of all the fruits that were stored there. Fruits kept in a solar-powered cool room had the lowest incidence of nutrient deterioration and the highest percentage of marketability. But in contrast to the room temperature, metal-in-wall evaporative coolant had a slower rate of change in all the evaluated attributes and was able to maintain the freshness of the stored fruits for 18 days. This implied that in remote communities without power, the metal-in-wall evaporative cooler is a substitute method for preserving postharvest quality and extending fruit shelf life. |
| format | Informe técnico |
| id | CGSpace163570 |
| institution | CGIAR Consortium |
| language | Inglés |
| publishDate | 2024 |
| publishDateRange | 2024 |
| publishDateSort | 2024 |
| publisher | International Food Policy Research Institute |
| publisherStr | International Food Policy Research Institute |
| record_format | dspace |
| spelling | CGSpace1635702025-11-06T07:35:40Z Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant Salaudeen, Kamaldeen Oladimeji Takeshima, Hiroyuki Yamauchi, Futoshi capacity development cooling crop storage nutrients storage temperature This study compared the postharvest storage potentials of a solar-powered cool room and an off-grid metal-in-wall evaporative coolant. Temperature drop and relative humidity (RH) increase were used to assess the performance of cooling systems. The metal-in-wall evaporative coolant's cooling efficiency was measured. Tomato (UTC variety), Orange (Dan Benue variety) and Carrot (Orange Chantenay) were procured from the international fruits market in Duste, Jigawa State, Nigeria. The products were sorted and stored in three different storage conditions: room temperature (RT), solar powered cool room (SCR), and wall-in-wall evaporative coolant. Mass loss, color, firmness, total soluble solids and titratable acids, carotenoids, vitamin C, marketability percentage, and rate of nutrient degradation were among the quality characteristics assessed. The temperature was lowered to 17.24 °C by the metal-in-wall evaporative coolant, which was far lower than the room temperature (29.19 °C). Evaporative coolant's relative humidity rose from 69.84 to 83.91% while its average cooling efficiency was 60.79%. The average temperature and relative humidity of the solar-powered cool room were 10.45 °C and 86%, respectively. Fruit quality was significantly (p < 0.05) impacted by storage techniques, variations in stored fruits, and storage duration. Compared to the other treatments, the solar-powered cool room preserved the color, mass, firmness, TA, TSS, carotenoids, and vitamin C of all the fruits that were stored there. Fruits kept in a solar-powered cool room had the lowest incidence of nutrient deterioration and the highest percentage of marketability. But in contrast to the room temperature, metal-in-wall evaporative coolant had a slower rate of change in all the evaluated attributes and was able to maintain the freshness of the stored fruits for 18 days. This implied that in remote communities without power, the metal-in-wall evaporative cooler is a substitute method for preserving postharvest quality and extending fruit shelf life. 2024-11 2024-12-16T20:02:08Z 2024-12-16T20:02:08Z Report https://hdl.handle.net/10568/163570 en Open Access application/pdf International Food Policy Research Institute Salaudeen, Kamaldeen Oladimeji; Takeshima, Hiroyuki; and Yamauchi, Futoshi. 2024. Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant. CGIAR Initiative on Rethinking Food Markets Technical Report November 2024. Washington, DC: International Food Policy Research Institute. https://hdl.handle.net/10568/163570 |
| spellingShingle | capacity development cooling crop storage nutrients storage temperature Salaudeen, Kamaldeen Oladimeji Takeshima, Hiroyuki Yamauchi, Futoshi Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant |
| title | Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant |
| title_full | Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant |
| title_fullStr | Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant |
| title_full_unstemmed | Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant |
| title_short | Off-grid cooling: Experimental evaluation of solar powered cold storage and evaporative coolant |
| title_sort | off grid cooling experimental evaluation of solar powered cold storage and evaporative coolant |
| topic | capacity development cooling crop storage nutrients storage temperature |
| url | https://hdl.handle.net/10568/163570 |
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