Modeling the exergy behavior of human body
Contribuinte(s) |
UNIVERSIDADE DE SÃO PAULO |
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Data(s) |
29/10/2013
29/10/2013
02/08/2013
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Resumo |
Exergy analysis is applied to assess the energy conversion processes that take place in the human body, aiming at developing indicators of health and performance based on the concepts of exergy destroyed rate and exergy efficiency. The thermal behavior of the human body is simulated by a model composed of 15 cylinders with elliptical cross section representing: head, neck, trunk, arms, forearms, hands, thighs, legs, and feet. For each, a combination of tissues is considered. The energy equation is solved for each cylinder, being possible to obtain transitory response from the body due to a variation in environmental conditions. With this model, it is possible to obtain heat and mass flow rates to the environment due to radiation, convection, evaporation and respiration. The exergy balances provide the exergy variation due to heat and mass exchange over the body, and the exergy variation over time for each compartments tissue and blood, the sum of which leads to the total variation of the body. Results indicate that exergy destroyed and exergy efficiency decrease over lifespan and the human body is more efficient and destroys less exergy in lower relative humidities and higher temperatures. (C) 2012 Elsevier Ltd. All rights reserved. FAPESP (The State of Sao Paulo Research Foundation) FAPESP (the State of Sao Paulo Research Foundation) [09/17578-0] CNPq (National Research Council) [306505/2009-6] CNPq (National Research Council) |
Identificador |
Energy, Oxford, v. 45, n. 1, supl. 4, part 1-2, p. 546-553, Sep, 2012 0360-5442 http://www.producao.usp.br/handle/BDPI/36543 10.1016/j.energy.2012.02.064 |
Idioma(s) |
eng |
Publicador |
PERGAMON-ELSEVIER SCIENCE LTD OXFORD |
Relação |
ENERGY |
Direitos |
closedAccess Copyright PERGAMON-ELSEVIER SCIENCE LTD |
Palavras-Chave | #HUMAN BODY BEHAVIOR #EXERGY ANALYSIS #EXERGY EFFICIENCY #ENTROPY GENERATION #THERMAL COMFORT #GROWTH #THERMODYNAMICS #ENERGY & FUELS |
Tipo |
article original article publishedVersion |