Does Fan Feel and Visibility During Thermostat Interaction Affect Temperature Selection in Warm Ambient Conditions?

Abstract

Abstract A vicious cycle exists when higher global temperatures increase the demand for indoor air-conditioning, which consumes significant energy while heating the outdoors. These higher outdoor temperatures then prompt more air-conditioning use. This unsustainable cycle motivated us to develop an intervention to encourage more energy-efficient temperature adjustments during warm ambient conditions. We explored whether an experimental thermostat interface, which incorporated mechanical fans, affected individual thermostat-setting behavior. Experimental parameters were (1) feel versus don't-feel fans and (2) high- versus low-visibility fans. Participants were 23 university students, including 20 enrolled in an introductory psychology course. When prompted to make temperature adjustments, we found that participants who felt the fans selected higher (more energy-efficient) temperatures in warm ambient conditions. This effect held regardless of whether participants could clearly see the fans or not. These results inform how products can be designed to increase energy-conscious behaviors.