Title

Sensitivity of transient temperature field in domain of forearm insulated by protective clothing with respect to perturbations of external boundary heat flux

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences

Yearbook

2016

Volume

64

Issue

No 3

Authors

Mochnacki, B. ; Ciesielski, M.

Divisions of PAS

Nauki Techniczne

Coverage

591-598

Date

2016

Identifier

DOI: 10.1515/bpasts-2016-0066 ; ISSN 2300-1917

Source

Bulletin of the Polish Academy of Sciences: Technical Sciences; 2016; 64; No 3; 591-598

References

Mochnacki (2007), Identification of macro and micro parameters in solidification model, Bull Tech, 5, 107. ; Mochnacki (2003), Sensitivity of the skin tissue on the activity of external heat sources Computer Modeling in Engineering and, Sciences, 4, 431. ; Chitrphiromsri (2004), Modeling of Thermal Performance Firefighter Protecting Clothing During the Intense Heat Exposure Engineering Doctoral Theses, Mechanical. ; Majchrzak (2011), Numerical modeling of hyperthermia and hypothermia processes, Advanced Materials Research, 268. ; Xu (2008), Non - Fourier analysis of skin biothermomechanics of Heat and Mass Transfer, International Journal, 51, 2237. ; Majchrzak (2010), Numerical solution of dual phase lag model of bioheat transfer using the general boundary element method Computer Modeling in Engineering and, Sciences, 69, 1. ; Domanski (2010), Application of control volume method using the Voronoi tessellation in numerical modelling of solidification process, AIP Conference Proceedings, 1220. ; Majchrzak (2014), Sensitivity analysis of transient temperature field in microdomains with respect to dualphase - lag - model parameters for Multiscale Computational, Journal Engineering, 12, 65. ; Zhang (2009), Generalized dual - phase lag bioheat equations based on nonequilibrium heat transfer in living biological tissues of Heat and Mass Transfer, International Journal, 52, 4829. ; Pennes (1948), Analysis of tissue and arterial blood temperatures in the resting human forearm of, Journal Applied Physiology, 93. ; Watson (1981), Computing the n - dimensional Delaunay tessellation with application to Voronoi polytopes The Computer, Journal, 24, 167. ; Fiala (1999), A computer model of human thermoregulation for a wide range of environmental conditions : the passive system of, Journal Applied Physiology, 87, 1957. ; Arkin (1994), Recent development in modeling heat transfer in blood perfused tissues IEEE Trans Bio, Med Eng, 97. ; Ciesielski (2014), Application of the control volume method using the Voronoi polygons for numerical modeling of bio - heat transfer processes of Theoretical and, Journal Applied Mechanics, 52, 927.