Please use this identifier to cite or link to this item: https://accedacris.ulpgc.es/handle/10553/142196
Title: Modeling skin thermal behavior with a cutaneous calorimeter: local parameters of medical interest
Authors: Rodríguez de Rivera, Pedro Jesús 
Rodriguez de Rivera, Miriam
Socorro, Fabiola 
Rodríguez de Rivera, Manuel 
UNESCO Clasification: 221308 Técnicas de medida del calor
320106 Dermatología
Keywords: Temperature distribution
Penetration depth
Simplex method
Conduction calorimetry
Direct Calorimetry, et al
Issue Date: 2025
Journal: Modelling 
Abstract: This study presents an advanced model of thermal Resistances and heat Capacities model approach (RC model), applied to a custom-built skin calorimeter for the in vivo characterization of localized thermal behavior of the skin. The device integrates a heat flux sensor and a programmable thermostat, and is capable of measuring the heat flux, heat capacity, internal thermal resistance, and subcutaneous temperature of the skin, under both resting and exercising conditions. The model, refined through extensive experimental validation, incorporates the skin as part of the system and is adapted to three modes of operation: calibration base, ambient air, and direct skin contact. Simulations are used to analyze heat flux dynamics, optimize control parameters, and validate analytical expressions. Under resting conditions, the model enables the estimation of the skin's heat capacity and thermal resistance. During exercise, it allows the determination of heat flux and internal temperature variations using simplified expressions. The system demonstrates high sensitivity (195.5 mV/W) and provides a robust, non-invasive method for extracting medically relevant thermal parameters from a 2 x 2 cm2 skin area.
URI: https://accedacris.ulpgc.es/handle/10553/142196
ISSN: 2673-3951
DOI: 10.3390/modelling6020042
Source: Modelling [ISSN 2673-3951], v. 6 (2), (Junio 2025)
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