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The simulated effect of the lightning first short stroke current on a multi-layered cylindrical model of the human legLee, Yuan-chun Harry January 2015 (has links)
A dissertation submitted to the Faculty of Engineering and the Built Environment,
University of the Witwatersrand, Johannesburg, in ful lment of the requirements
for the degree of Master of Science in Engineering.
Johannesburg, 2015 / This research investigates the e ects of the frequency components of the lightning
First Short Stroke (FSS) on the current pathway through human tissues using frequency
domain analysis. A Double Exponential Function (DEF) is developed to
model the FSS with frequency components in the range 10 Hz 100 kHz. Human
tissues are simulated using Finite Element Analysis (FEA) in COMSOL and
comprises of two types of models: Single Layer Cylindrical Model (SLCM) and
Multi-layered Cylindrical Model (MLCM). The SLCM models 54 human tissues independently
and the MLCM models the human leg with ve tissue layers: bone
marrow, cortical bone, muscle, blood and fat.
Three aspects are analysed: current density, complex impedance and power dissipation.
From the SLCM results, aqueous tissues have the lowest impedances and tissue
heat dissipation is proportional to tissue impedance. Results from the MLCM show
that 85% of the FSS current
ows through muscle, 11%
ows through blood, 3:5%
through fat and the rest through cortical bone and bone marrow. From the results,
frequency dependent equivalent circuit models consisting of resistors and capacitors
connected in series are proposed.
The simulation results are correlated with three main clinical symptoms of lightning
injuries: neurological, cardiovascular and external burns. The results of this work are
applicable to the analysis of High Voltage (HV) injuries at power frequencies. / MT2017
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