Thermic Characteristics Of Rice Husk And Polyurethane Composite Materias As Insulation In Fish Cold Storage
Abstract
The process of freezing fish always requires a cooler as a temporary storage place for fish. The ability of the storage to maintain cold temperatures is a serious problem to be considered so that the freshness of the fish can be maintained. Therefore, an appropriate technology is required to support the cold chain system so that fish quality can be maintained. The purpose of this study was to test the thermal conductivity of composite materials for fish storage insulation from a mixture of rice husks and polyurethane so that the price of the box can be reduced but still maintain the quality of the fish. The composition of the composite material was made with a volume ratio of 1:0.5, 1:1, 1:1.5, and 1:2. The thermal conductivity test of the material uses the ASTM E1225-99 standard. All test results were compared with 100% polyurethane material. The results of testing the thermal conductivity of 100% polyurethane material obtained 0.023 W/m.C. From all the test results, the material that is most likely to be applied to fish cooler box insulation is a 1:1 composition having a thermal conductivity value of 0.067W/m.C. Materials with this composition do not affect the expansion of the polyol and isocyanate reactions. This composition is the most economical to be used as insulation for fish storage boxes which can save the use of polyurethane by 50%.
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References
Z.-J. Cao, W. Liao, S.-X. Wang, H.-B. Zhao, and Y.-Z. Wang, “Polyurethane foams with functionalized graphene towards high fire-resistance, low smoke release, superior thermal insulation,” Chem. Eng. J., vol. 361, pp. 1245–1254, 2019.
Sitkun Deni, “Karakteristik Mutu Ikan Selama Penanganan pada Kapal KM. Cakalang,” Agrikan J. Agribisnis Perikan., vol. 8, no. 2, pp. 72–80, 2015.
S. Nasution, P., Fitri, S, P., “Karakteristik Sabut Kelapa Sebagai Insulator Palka Ikan,” Berk. Perikan. Terubuk, vol. 42, no. 2, pp. 82–92, 2014.
Silva da V., R., ., Mosiewicki, A., M., Yoshida, I., M., Silva da , C., M., Stefani, M., P., Marcovich, E N. “Polyurethane foams based on modified tung oil and reinforced with rice husk ash II: Mechanical characterization”, Polymer Testing., vol. 32, Issue 4, pp. 665-672, 2013
ASTM E1225-99, Standard test method for thermal conductivity of solids by means of the guarded-comparative-longitudinal heat flow technique. 1993.
ASTM D 1621, Standard test method for compressive properties of rigid cellular plastics, vol. D. 1991.
N. juarez rodriguez et al., “Assessment of coconut fibre insulation characteristics and its use to modulate temperatures in concrete slabs with the aid of a finite element methodology,” Lancet, vol. 43, pp. 1264–1272, 2011.
J.-W. Wu, W.-F. Sung, and H.-S. Chu, “Thermal conductivity of polyurethane foams,” Int. J. Heat Mass Transf., vol. 42, no. 12, pp. 2211–2217, 1999.
A. Singh, S. Kumar, and R. Dev, “Studies on cocopeat, sawdust and dried cow dung as desiccant for evaporative cooling system,” Renew. Energy, vol. 142, pp. 295–303, 2019.
L. [Asoka Panamgama] and P. R. U. S. K. Peramune, “Coconut coir pith lignin: A physicochemical and thermal characterization,” Int. J. Biol. Macromol., vol. 113, pp. 1149–1157, 2018.
