ErgonSim - Comfort Energy Efficiency, Holderbuschweg 47, 70563, Stuttgart, Germany.
Int J Biometeorol. 2012 May;56(3):429-41. doi: 10.1007/s00484-011-0424-7. Epub 2011 Apr 19.
The UTCI-Fiala mathematical model of human temperature regulation forms the basis of the new Universal Thermal Climate Index (UTC). Following extensive validation tests, adaptations and extensions, such as the inclusion of an adaptive clothing model, the model was used to predict human temperature and regulatory responses for combinations of the prevailing outdoor climate conditions. This paper provides an overview of the underlying algorithms and methods that constitute the multi-node dynamic UTCI-Fiala model of human thermal physiology and comfort. Treated topics include modelling heat and mass transfer within the body, numerical techniques, modelling environmental heat exchanges, thermoregulatory reactions of the central nervous system, and perceptual responses. Other contributions of this special issue describe the validation of the UTCI-Fiala model against measured data and the development of the adaptive clothing model for outdoor climates.
UTCI-Fiala 人体温度调节数学模型是新的通用热气候指数 (UTC) 的基础。经过广泛的验证测试、适应性调整和扩展,例如纳入自适应服装模型,该模型被用于预测流行户外气候条件组合下人体的温度和调节反应。本文概述了构成人体热生理学和舒适度多节点动态 UTCI-Fiala 模型的基本算法和方法。处理的主题包括:体内热和质量传递建模、数值技术、环境热交换建模、中枢神经系统的体温调节反应以及感知反应。本期特刊的其他贡献包括对 UTCI-Fiala 模型与实测数据的验证,以及开发用于户外气候的自适应服装模型。