Comparison of roki and sunflower oils as sensible heat storage materials for cooking applications

dc.contributor.authorFrank, Mndeme Sayuni
dc.date.accessioned2023-02-03T07:40:54Z
dc.date.available2023-02-03T07:40:54Z
dc.date.issued2022-07
dc.description.abstractSensible heat storage materials are cheaper than latent heat storage materials for small storage volumes. Static experiments to evaluate the thermal performances of two Ugandan locally available edible vegetable cooking oils for medium temperature thermal energy storage are presented. The two vegetable oils evaluated and compared are Sunflower oil and Roki oil (a blend of Palm oil and Sunflower oil). Temperature profiles are used to assess the thermal performances during heating cycles, cool-down cycles, energy, exergy, and heat utilization. The results show that Roki oil attains a higher maximum temperature (~ 170 ℃) compared to the Sunflower oil (~ 160 ℃) during low-temperature heating cycles. Roki oil shows higher temperatures during cooling compared to Sunflower oil, achieving a final temperature (~ 78 ℃) slightly higher than that of Sunflower oil (~ 76 ℃). Roki oil shows a maximum energy rate of 413 W compared to Sunflower oil showing a maximum energy rate of 387 W, this is possibly due to the low thermal mass (mc) of Roki oil compared to Sunflower oil. Roki oil also shows higher maximum exergy rate of ~ 129 W compared to that of Sunflower oil ~ 120 W. This occurs because of the lower thermal mass (mc) of the Roki oil which leads to a quick rise of temperature. The exergy factor of Roki oil (0.31 – 0.62) is slightly higher than Sunflower oil (0.27 – 0.59) within 1 hour and 40 minutes. This is possibly due to the higher difference in temperature of Roki oil compared to Sunflower oil. The heat utilization characteristics of the two heat storage materials are experimentally determined in water heating experiments using 1.0 kg to 3.0 kg water loads. Roki oil shows higher average heat utilization (151 – 350) kJ, and higher average heat utilization efficiency values (0.25 – 0.66) as compared to Sunflower oil (148 – 300) kJ and (0.25 – 0.60), respectively. The average heat utilization and average heat utilization efficiency values increase with the increase in the water load for both Sunflower oil and Roki oil. The best overall performance is shown by Roki oil compared to Sunflower oil. Preliminary results with parabolic dish solar cookers are also presented in this work. The results show that Roki oil performs better than Sunflower oil during heating, cooling/heat retention, and heat utilization.en_US
dc.identifier.citationMndeme F. S. (2022) Comparison of roki and sunflower oils as sensible heat storage materials for cooking applicationsen_US
dc.identifier.urihttps://hdl.handle.net/20.500.12504/1187
dc.language.isoenen_US
dc.publisherKyambogo University [unpublished work]en_US
dc.subjectsunflower oilen_US
dc.subjectRoki oilen_US
dc.subjectSensible heat storage materialsen_US
dc.subjectCooking applicationsen_US
dc.titleComparison of roki and sunflower oils as sensible heat storage materials for cooking applicationsen_US
dc.typeThesisen_US

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