Ankit Joshi scite author profile

Existing clothing models assume spatial homogeneity of the enclosed air layer between skin 5 and fabric, which contradicts real-life scenarios. Furthermore, depending on the thickness of 6 enclosed air layer and the temperature difference between skin and fabric, natural convec-7 tion may occur but it is often neglected in the theoretical models. In this study, we have de-8 veloped a theoretical model that considers the spatial heterogeneity of enclosed air layer and 9 natural convection. It computes the sensible heat transfer (conduction, radiation and natural convection) in the heterogeneous enclosed and boundary air layers. The heat transfer in the clothing layer is calculated based on the thermal resistance of the fabric.The model presented in this paper is systematically validated for natural convection and spatial heterogeneity using a thermal cylinder and a thermal manikin with increasing level of spatial complexity. The validation of the model was performed for a wide range of temperatures (-10°C to 26°C), enclosed air layer thicknesses (homogeneous and heterogeneous), and ambient air speeds (0.2m/s, 1m/s) and demonstrated a good agreement between predicted and measured heat flux with an average error of 3.7% and 9.3% for homogeneous and heterogeneous enclosed air layers, respectively.

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A three-dimensional thermoregulatory model for predicting human thermophysiological responses in various thermal environments

Joshi

Wang

Kang

et al. 2022

Building and Environment

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Modelling of heat and mass transfer in clothing considering evaporation, condensation, and wet conduction with case study

Joshi

Psikuta²,

Bueno³

et al. 2023

Building and Environment

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Ankit Joshi

Effect of movement on convection and ventilation in a skin-clothing-environment system

Analytical clothing model for sensible heat transfer considering spatial heterogeneity

A three-dimensional thermoregulatory model for predicting human thermophysiological responses in various thermal environments

Modelling of heat and mass transfer in clothing considering evaporation, condensation, and wet conduction with case study

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