Export 24 results:[ Author] Title Type Year
Filters: First Letter Of Last Name is H and Author is Alfred T. Hodgson [Clear All Filters]
"Performance of ultra-violet Photocatalytic Oxidation for Indoor Air Cleaning Applications." Indoor Air 17 (2007) 305-316..
"Effect of Outside Air Ventilation Rate on Volatile Organic Compound Concentrations in a Call Center." Atmospheric Environment 37.39-40 (2003) 5517-5528. LBNL-49535..
"A Review and a Limited Comparison of Methods for Measuring Total Organic Compounds in Indoor Air." Indoor Air 5 (1995) 247-257..
"Sources of Formaldehyde, Other Aldehydes and Terpenes in a New Manufactured House." Indoor Air 12.4 (2002) 235-242. LBNL-47627..
"Volatile Organic Compound Concentrations and Emission Rates in New Manufactured and Site-Built Houses." Indoor Air 10.3 (2000) 178-192. LBNL-43519..
"Use of Volatile Tracers to Determine the Contribution of Environmental Tobacco Smoke to Concentrations of Volatile Organic Compounds in Smoking Environments." Environmental International 22.3 (1996) 295-307. LBL-37376..
"Benefits and technological challenges in the implementation of TiO2-based ultraviolet photocatalytic oxidation (UVPCO) air cleaners." Indoor Air 2008. Copenhagen, Denmark: Indoor Air, Paper ID: 297, 2008. 17-22..
"Concentrations and Sources of Formaldehyde and Volatile Organic Compounds in Four New Manufactured Houses." Proceedings of the Indoor Air '99, Edinburgh, Scotland 1999: 119-124..
"Photocatalytic Reactor System with Tungsten Oxide-Modified Titanium Dioxide for Indoor Air Applications." The 11th International Conference on Ti02 Photocatalysis: Fundamentals and Applications (Ti02-11), September 25-28, 2006. Pittsburgh, PA, 2006. LBNL-60254 Abs..
Evaluation of Ultra-Violet Photocatalytic Oxidation (UVPCO) for Indoor Air Applications: Conversion of Volatile Organic. Lawrence Berkeley National Laboratory, 2005..
Evaluation of a Combined Ultraviolet Photocatalytic Oxidation (UVPCO) / Chemisorbent Air Cleaner for Indoor Air Applications. 2007. LBNL-62202..
Parametric Evaluation of an Innovative Ultra-Violet Photocatalytic Oxidation (UVPCO) Air Cleaning Technology for Indoor Applications. Lawrence Berkeley National Laboratory, 2005..
Predicted Concentrations in New Relocatable Classrooms of Volatile Organic Compounds Emitted from Standard and Alternate Interior Finish Materials. 2001. LBNL-48490..
Implementation of Source Reduction Practices for Volatile Organic Compounds in Manufactured House Construction: Pilot Demonstration Project. Lawrence Berkeley National Laboratory, 2005..
Volatile Organic Compound Concentrations and Emission Rates Measured over One Year in a New Manufactured House. Lawrence Berkeley National Laboratory, 2004..
Effect of Residential Ventilation Techniques for Hot and Humid Climates on Indoor Concentrations of Volatile Organic Compounds. Lawrence Berkeley National Laboratory, 2005..
Techniques for Reducing Exposures to Volatile Organic Compounds Associated with New Construction and Renovation. 1999..
Common Indoor Sources of Volatile Organic Compounds: Emission Rates and Techniques for Reducing Consumer Exposures. 1999..
Classification of measured indoor volatile organic compounds based on noncancer health and comfort considerations. 2003..
"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. LBNL-52520..
"Implementation of VOC Source Reduction Practices in a Manufactured House and in School Classrooms." Indoor Air 2002, June 30 - July 5, 2002. Vol. 3. Monterey, California, 2002. 576-581. LBNL-49536..
Volatile organic chemical emissions from structural insulated panel (SIP) materials and implications for indoor air quality. 2003. LBNL-53768..
Quantifying object and material surface areas in residences. Berkeley: Lawrence Berkeley National Laboratory, 2004. LBNL-56786..