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首页> 外文期刊>Research journal of applied science, engineering and technology >Study of Heat Transfer in a Kapok Material from the Convective Heat Transfer Coefficient and the Excitation Pulse of Solicitations External Climatic
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Study of Heat Transfer in a Kapok Material from the Convective Heat Transfer Coefficient and the Excitation Pulse of Solicitations External Climatic

机译:从对流换热系数和激昂外部气候的激发脉冲研究木棉材料的传热。

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摘要

The aim of this study is to characterize thermal insulating local material, kapok, from a study in 3 dimensions in Cartesian coordinate and in dynamic frequency regime. From a study a 3 dimensional the heat transfer through a material made of wool kapok (thermal conductivity: &lambda = 0,035 W/m/K; density: &rho = 12, 35 kg/m3; thermal diffusivity: &alpha = 17, 1.10-7 m2 /s) is presented. The evolution curves of temperature versus convective heat transfer coefficient have helped highlight the importance of pulse excitation and the depth in the material. The thermal impedance is studied from representations of Nyquist and Bode diagrams allowing characterizing the thermal behavior from thermistors. The evolution of the thermal impedance with the thermal capacity of the material is presented.
机译:这项研究的目的是通过对笛卡尔坐标系和动态频率范围内的3个维度进行研究来表征绝热的局部材料木棉。根据一项研究的3维结果,通过羊毛木棉制成的材料的热传递(导热系数:λ= 0.035 W / m / K;密度:ρ= 12,35 kg / m 3 ;热扩散率:&alpha = 17,1.10-7 m 2 / s)。温度对流传热系数的演化曲线有助于突出脉冲激励的重要性以及材料的深度。从奈奎斯特(Nyquist)图和伯德(Bode)图的表示研究热阻,从而表征热敏电阻的热性能。介绍了热阻抗随材料热容量的变化。

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