Numerical research on the thermal performance of high altitude scientific balloons
Applied Thermal Engineering(2017)
Abstract
•A model is presented to evaluate the IR radiation between translucent surfaces.•Comprehensive ascent and thermal models of balloons are established.•The effect of IR transmissivity on film temperature distribution is unneglectable.•Atmospheric IR radiation is the primary thermal factor of balloons at night.•Solar radiation is the primary thermal factor of balloons during the day.
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Key words
High altitude scientific balloon,Thermal performance,Infrared transmissivity,Internal infrared heat transfer
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