Intelligent Integration of Desk Fans in Energy-Efficient Ventilation Including Occupant Perspectives and Predictions into Decision Making
Document Type
Conference Proceeding
Publication Date
1-1-2023
Abstract
Thermal comfort, the perception of satisfaction with the thermal environment, is one of the most debated features of indoor environmental quality. In mechanically ventilated spaces, thermal comfort depends on airflow and temperature. In hot and humid climates, a significant amount of energy is consumed by buildings as the cooling load to maintain thermal comfort. For efficient design, the preference and thermal sensations of the occupants must be better understood, particularly regarding multi-occupancy environments, such as office spaces. Determining temperature setpoints becomes crucial to effectively manage the ventilation system energy consumption by reducing the cooling load while keeping occupants satisfied. In response, experiments were carried out in a controlled environment chamber to study how airflow from a desk fan can offset the temperature setpoints to keep the occupants thermally satisfied. 22 human subjects participated in the experiment; exposed to four different temperature setpoints and three airflow speeds from the desk fan. Their perceived thermal comfort responses were reported on Likert-Type scales. Additionally, physiological indicators of thermal discomfort such as heart rate, skin temperature, electrodermal activity, and Blood Volume Pulse were collected during the experiments. The results demonstrated an increase in the temperature set point up to 77°F while augmenting airflow speed of 0.3 m/s on average through the desk fan to maintain comfort, indicating that local devices can compensate for higher temperature setpoints, reducing cooling loads prevalent in hot climate zones. Additionally, statistical analyses performed to establish a correlation between occupant comfort and physiological responses indicates the possibility of predicting discomfort using real-Time physiological indicators that leads to occupant-centric intelligent ventilation control.
Publication Source (Journal or Book title)
ASHRAE Transactions
First Page
463
Last Page
471
Recommended Citation
Bhattacharya, A., Jafari, A., & Norouziasl, S. (2023). Intelligent Integration of Desk Fans in Energy-Efficient Ventilation Including Occupant Perspectives and Predictions into Decision Making. ASHRAE Transactions, 129, 463-471. Retrieved from https://repository.lsu.edu/construction_management_pubs/227