Publication date: October 2017
Source:Building and Environment, Volume 123
Author(s): Chao Li, Hong Liu, Baizhan Li, Yong Cheng, Chengqiu Du, Aihong Sheng
Passengers often experience ramped relative humidity (RH) in an aircraft cabin environment during the stages of climb and descent as the flight altitude changes gradually. This may affect passengers' comfort and their assessment of the environment. In this study, a series of simulated experiments are conducted in a climate chamber to investigate the effect of RH ramps on cabin passenger's comfort from takeoff until landing. Six combinations of three temperatures (20 °C, 25 °C and 28 °C) and two RH ramps conditions (50 → 20→50% RH and 80 → 20→80% RH) were set in the experiments. During the experiments, subjective comfort perceptions were tested using questionnaires and the skin temperature was also measured. The micro-climate between the skin surface and the inner clothes was also measured for body heat transfer analysis. The results have demonstrated that the RH ramps have significant effect on subjective comfort perception which is more prominent at 28 °C, 80 → 20→80% RH. In general, the thermal sensation has a good linear relationship with the standard effective temperature (SET*) and the skin temperature. However, the skin temperature is directly related to the direction of RH ramps and the environmental conditions. The heat transfer analysis has shown that the ramped RH can affect the human heat storage and can change the skin temperature mainly by affecting the human evaporative heat loss. The moisture absorption and desorption in the clothing layer significantly affect the heat transfer from human body.
Source:Building and Environment, Volume 123
Author(s): Chao Li, Hong Liu, Baizhan Li, Yong Cheng, Chengqiu Du, Aihong Sheng