Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/112141
Title: Heat flow, heat capacity and thermal resistance of localized surfaces of the human body using a new calorimetric sensor
Authors: Rodríguez de Rivera, Pedro Jesús 
Rodríguez de Rivera, Miriam
Socorro, Fabiola 
Marrero Callicó, Gustavo 
López Calbet, José Antonio 
Rodríguez de Rivera, Manuel 
UNESCO Clasification: 330790 Microelectrónica
Keywords: Direct Calorimetry
Heat Conduction Calorimeters
Human Heat Flow
Medical Calorimetry
Non-Differential Calorimeters, et al
Issue Date: 2021
Journal: Journal of Thermal Analysis and Calorimetry 
Abstract: A non-invasive sensor equipped with a programmable thermostat has been developed to assess in vivo the heat flow transmitted by conduction from human skin to the sensor thermostat. This device enables the assessment of the thermal properties of a 2 × 2 cm2 skin surface with a thermal penetration depth of 3–4 mm. In this work, we report the thermal magnitudes recorded with this sensor in 6 different areas (temple, hand, abdomen, thigh, wrist and heel) of 6 healthy subjects of different genders and ages, which were measured under resting conditions. Heat flow and equivalent thermal resistance are proportionally related to each other and are highly variable in magnitude and different for each zone. The heat capacity is also different for each zone. The heat flow values varied from 362 ± 17 mW at the temple to 36 ± 12 mW at the heel for the same subject, when the sensor thermostat was set at 26 °C. The equivalent thermal resistance ranged from 23 ± 2 K W−1 in the volar area of the wrist to 52 ± 4 KW−1 in the inner thigh area. The heat capacity varies from 4.8 ± 0.4 J K−1 in the heel to 6.4 ± 0.2 J K−1 in the abdomen. These magnitudes were also assessed over a 2 × 1 cm2 second-degree burn scar in the volar area of the wrist. The scar area had 27.6 and 11.6% lower heat capacity and equivalent thermal resistance, respectively, allowing an increased heat flow in the injured area. This work is a preliminary study of the measurement capacity of this new instrument.
URI: http://hdl.handle.net/10553/112141
ISSN: 1388-6150
DOI: 10.1007/s10973-021-11062-0
Source: Journal of Thermal Analysis and Calorimetry [ISSN 1388-6150], (Enero 2021)
Appears in Collections:Artículo preliminar
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