Technique for Estimating Ventilation Requirements for Personal Air-Cooling Systems

Technique for Estimating Ventilation Requirements for Personal Air-Cooling Systems

Individuals wearing encapsulating garments require auxiliary cooling systems to sustain physical and cognitive performance when exposed to high temperatures or workloads. Heat transfer in such cooling systems are typically based on either air or liquid as the heat exchange medium. Designing air-cool...

Ausführliche Beschreibung

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Bibliographische Detailangaben
1. Verfasser: Kaufman, Jonathan W
Format: Report
Sprache:eng
Schlagworte:
Air Condition, Heating, Lighting & Ventilating
AIR CONDITIONING EQUIPMENT
AIR COOLED
AIRCRAFT CABINS
ATMOSPHERIC TEMPERATURE
AUXILIARY
COGNITION
COOLING AND VENTILATING EQUIPMENT
DESIGN CRITERIA
EXCHANGE
EXPOSURE(GENERAL)
FLIGHT CREWS
HEAT TRANSFER
HELICOPTERS
HIGH TEMPERATURE
HUMIDITY
INLETS
MALES
PERFORMANCE(HUMAN)
PHYSICAL PROPERTIES
PHYSIOLOGY
TEMPERATURE CONTROL
VENTILATION
WORKLOAD
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Beschreibung
Zusammenfassung:Individuals wearing encapsulating garments require auxiliary cooling systems to sustain physical and cognitive performance when exposed to high temperatures or workloads. Heat transfer in such cooling systems are typically based on either air or liquid as the heat exchange medium. Designing air-cooled systems requires knowledge of the quantity of heat to be extracted and cooling system design criteria; inlet air temperature and humidity and ventilation rates. This report addresses this issue by viewing the human as a simple time averaged heat source whose temperature must be maintained within a specified range. Integrating heat production over time permits heat extraction to be separated from physiological thermoregulation. Framing physical workload and ambient conditions in terms of military relevant scenarios for rear cabin helicopter aircrew (25 year old male working at 45% VO2.(sub max)) families of curves were identified that define air-conditioning system design criteria for given conditions.