Household oven self-cleaning surfaces via catalytic thermal oxidation

催化作用 热的 化学工程 热氧化 材料科学 化学 废物管理 冶金 有机化学 工程类 热力学 物理
作者
Pietro Palmisano,P. Faraldi,Debora Fino,Nunzio Russo
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:154 (1-3): 251-257 被引量:12
标识
DOI:10.1016/j.cej.2009.03.028
摘要

Abstract The present work is aimed at developing oven walls with self-cleaning properties, via catalytically enhanced thermal oxidation of soiling material within the standard range of household oven, temperatures, i.e. up to 300 °C. Some saturated fatty acids, e.g. myristic (tetradecanoic), palmitic (hexadecanoic) and stearic (octadecanoic) acids, were selected as single soiling compounds to investigate their thermal degradation behaviour under different operating conditions. MnCr 2 O 4 , LaFeO 3 and CeO 2 were chosen as oxidative catalysts and synthesized by the “Solution Combustion Synthesis” (SCS) method. The catalytic activity towards fatty acids was tested in a temperature programmed combustion (TPC) apparatus. The Ozawa method was adopted to calculate the activation energy for the catalytic combustion of palmitic acid on, e.g. ceria showing a very low value of 50 kJ/mol compared to the 90 kJ/mol for the non-catalytic combustion. The prepared catalysts were then deposited on steel sheet samples coated with commercial enamel by in situ spray pyrolysis. The obtained catalytic layers were characterized by SEM–EDS analysis to assess their integrity and adhesion to enamel and the obtained phases. The self-cleaning performance of the coated sample activity was measured in a standard oven, by performing a cooking cycle simulation (250 °C for 60 min; soiling by olive oil and pork lard); the weight loss and aesthetic appearance were benchmarked versus a bare, non-catalytic enamel surface. The CeO 2 catalyst showed the best adhesion properties as well as the best performances towards the combustion of the three selected fatty acids, whereas the MnCr 2 O 4 catalyst provided the best performance towards both the pork lard and the olive oil catalytic combustion with fat removal per cycle of about 18% and 40%, respectively.

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