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An Improved Thermoregulatory Model For Cooling Garment Applications With Transient Metabolic Rates, Johan Westin
An Improved Thermoregulatory Model For Cooling Garment Applications With Transient Metabolic Rates, Johan Westin
Electronic Theses and Dissertations
Current state-of-the-art thermoregulatory models do not predict body temperatures with the accuracies that are required for the development of automatic cooling control in liquid cooling garment (LCG) systems. Automatic cooling control would be beneficial in a variety of space, aviation, military, and industrial environments for optimizing cooling efficiency, for making LCGs as portable and practical as possible, for alleviating the individual from manual cooling control, and for improving thermal comfort and cognitive performance. In this study, we adopt the Fiala thermoregulatory model, which has previously demonstrated state-of-the-art predictive abilities in air environments, for use in LCG environments. We validate the …