William Fisk is a Sr. Scientist (mechanical engineer) and is the leader of the Indoor Environment Group. He has more than 30 years of experience in research on the interrelated issues of building energy performance, ventilation, indoor environmental quality (IEQ), and occupant health and performance. His research focuses primarily on energy efficient methods of maintaining and improving ventilation and IEQ in commercial buildings and on quantifying the impacts of building ventilation and IEQ on health and performance. He is a fellow of ASHRAE, a member of the Academy of Indoor Air Sciences, and he serves on the editorial board for Indoor Air Journal. He is an author of approximately 100 refereed archival journal articles or book chapters. He has BS and MS degrees in mechanical engineering.
National Academy Committee , Damp Buildings, Mold and Health, Asthma and Indoor Air Exposures
Journal Editorial Board Memberships
Indoor Air , Associate Editor
Parametric Evaluation of an Innovative Ultra-Violet Photocatalytic Oxidation (UVPCO) Air Cleaning Technology for Indoor Applications. Lawrence Berkeley National Laboratory, 2005.
Performance of Underfloor Air Distribution in a Field Setting." International Journal of Ventilation 5 (2005): 291-300. "
Performance of underfloor air distribution: Results of a field study. Lawrence Berkeley National Laboratory, 2005.
Real-Time Measurement of Rates of Outdoor Airflow into HVAC Systems: A Field Study of Three Technologies. Lawrence Berkeley National Laboratory, 2005.
Results Of A Field Study Of Underfloor Air Distribution In Proceedings of The 10th International Conference on Indoor Air Quality and Climate - Indoor Air 2005. Vol. 1(7). Beijing, China: Tsinghua University Press, 2005.
Some quantitative relations between indoor environment, performance and health In Proceedings of The 10th International Conference on Indoor Air Quality and Climate - Indoor Air 2005. Vol. I(1). Beijing, China: Tsinghua University Press, 2005.
Technologies For Measuring Flow Rates Of Outdoor Air Into Hvac Systems: Some Causes And Suggested Cures For Measurement Errors." ASHRAE Transactions 111 (2005): 456-463. "
An evaluation of technologies for real-time measurement of rates of outdoor airflow into HVAC systems. Lawrence Berkeley National Laboratory, 2004.
Associations between classroom CO2 concentrations and student attendance in Washington and Idaho." Indoor Air 2004 14 (2004): 333-341. "
Comparison of predicted and derived measures of volatile organic compounds inside four relocatable classrooms due to identified interior finish sources." Indoor Air (Supplement 8) 14 (2004): 135-144. "