An individualized and multi-segmental bioheat model for predicting local conditions of the human body under various thermal environments

AuthorsS. Alireza Zolfaghari
JournalJournal of Thermal Biology
Page number1-28
Serial number117
Volume number103708
IF2.157
Paper TypeFull Paper
Published At2023
Journal GradeISI
Journal TypeElectronic
Journal CountryIran, Islamic Republic Of
Journal IndexJCR،Scopus

Abstract

Thermoregulatory bioheat models have attracted the attention of researchers due to their conformity with the basis of human thermal perception. For this reason, various models have been presented, such as simplified thermoregulatory bioheat (STB), individualized thermoregulatory bioheat (ITB), and multi-segmental thermoregulatory bioheat (MSTB). In the present study and based upon previous models, an individual multi-segment thermoregulatory bioheat (IMTB) model has been introduced. In this model, the body is subdivided into 17 segments and 3 layers, with the blood circulatory system consisting of arteries, veins, and superficial veins. Also, IMTB can evaluate the individual parameters effects (such as height, weight, gender, and age) on physiological parameters and active/passive systems. Finally, this new model was evaluated in human thermal response predictions over a wide range of transient and steady-state environmental conditions (5.0< <50.0, 31.0 < RH (%)<70.0) and various individual characteristics (male and female, 20 < age (years) < 69, 50<weight (kg) < 92, and 1.5<height(m) < 1.9). The results indicated that the new model agreed well with empirical data and the average mean absolute error (MAE) was 0.1, 0.5, and 0.3 °C for core, local, and mean skin temperature, respectively.

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tags: Thermoregulatory bioheat model, Individual characteristics, Multi-segment, Blood circulatory system, Transient thermal environment, Local skin temperature