Physiological response of building occupants based on their activity and the indoor environmental quality condition changes.

Abstract This study aimed to analyze the physiological response (i.e., blood pressure) of building occupants based on the 22 subjects' activity and the Indoor environmental quality (IEQ) condition (i.e., carbon dioxide (CO 2) concentration and operative temperature) changes. The experiment was designed with three scenarios to simulate the IEQ condition changes. In each scenario, six cognitive tasks that simulate office work were conducted by the subjects to determine their activity that cause work stress. The paired-t test was conducted to analyze the building occupants' physiological response by scenario. As a result, with a low CO 2 concentration (below 1000 ppm), the subjects maintained homeostasis well under work stress. It was difficult to maintain homeostasis, however, with a high CO 2 concentration (above 2000 ppm): When the subjects were under work stress, they showed different responses compared to those of the seated state. Homeostasis was affected by stress, according to the IEQ condition changes. The unacceptable condition and work stress were particularly dangerous for the hypertensive (i.e., above 140 mmHg systolic blood pressure) subjects. For the maintenance of homeostasis of occupants, a low CO 2 concentration (below 1000 ppm) should be kept, and work stress above a certain level should be avoided. The building's mechanical system designer and facility manager can manage the IEQ condition considering the building occupants' physiological responses, which can be used as an IEQ condition management guideline for health. Highlights • Physiological responses of the occupants to diverse condition changes were analyzed. • Blood pressure was lowest under a neutral operative temperature without work stress. • Occupants failed to maintain homeostasis under a high CO 2 concentration. • Work stress affected the physiological responses to the IEQ condition changes. • An unacceptable condition was particularly dangerous for the hypertensive occupants. [ABSTRACT FROM AUTHOR]