Title :
Heating of rat skin by high power millimeter waves
Author :
Hu Shuangxi ; Fan Chunli ; Kou Wei ; Yang Li ; Sun Fengrui ; Deng Doudou
Author_Institution :
Dept. of Power Eng., Naval Univ. of Eng., Wuhan, China
Abstract :
Air Force Research Laboratory published the non-lethal Millimeter wave weapon “Active Denial System” (ADS). Because of the thermal shallow penetration induced by its high frequency, the penetration depth is always less than 1mm. Heat gathers at the skin surface, caused the strong thermal effect on the skin. We built up a transient thermal multilayer model for heating of human skin by high power millimeter waves by finite volume method (FVM) based on Pennes´ bioheat transfer equation in this paper. The transient temperature distributions of the cross-section profiles were calculated, and we analyzed the calculated results and compared them with the experimental ones. The veracity and reliability of finite volume model were validated. This model provides the theoretical basis for the study of the inverse problem of Active Denial System (ADS).
Keywords :
biological effects of microwaves; finite volume methods; skin effect; Pennes bioheat transfer equation; active denial system; cross section profiles; finite volume method; finite volume model; heating; high power millimeter waves; inverse problem; rat skin; reliability; skin surface; thermal effect; transient temperature distributions; transient thermal multilayer model; veracity; Biological system modeling; Heating; Mathematical model; Millimeter wave technology; Skin; Temperature distribution; Temperature measurement; ADS; Millimeter waves; Pennes´ bioheat equation;
Conference_Titel :
Human Health and Biomedical Engineering (HHBE), 2011 International Conference on
Conference_Location :
Jilin
Print_ISBN :
978-1-61284-723-8
DOI :
10.1109/HHBE.2011.6028970
