Record Display for the EPA National Library Catalog

RECORD NUMBER: 5 OF 11

OLS Field Name OLS Field Data
Main Title Reducing In-Home Exposure to Air Pollution.
Author Singer, B. ; Walker, I. ; Delp, W. W. ; Black, D. R. ; Destaillats, H.
CORP Author Lawrence Berkeley National Lab., CA. Environmental Energy Technologies Div.; California State Air Resources Board, Sacramento.
Year Published 2016
Stock Number PB2017-100424
Additional Subjects Indoor air pollution ; Air pollution ; Black carbon ; Ozone ; Filtration ; High efficiency filtration ; ventilation ; california
Holdings
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NTIS  PB2017-100424 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. 03/27/2017
Collation 558p
Abstract
California’s building code requires mechanical ventilation to manage indoor-generated pollutants in the state’s airtight, energy efficient homes. Yet outdoor air also contains pollutants at levels that can be hazardous. This study evaluated eight combinations of ventilation and air cleaning systems for pollutant removal and energy use. Systems were installed in an unoccupied 2006 house located 250 m downwind of I-80 in Sacramento. Systems were evaluated for reduction of outdoor particles (6 nm to 2.5 ?m and black carbon) in summer and fall/winter, ozone and VOCs in summer, and indoor particles generated by a scripted cooking procedure. Energy use of the systems was estimated for year-round operation in varied California climates. Results demonstrate substantial benefits of high efficiency filtration at reducing air pollutant exposures, but with varying energy costs. Higher performance MERV16 filtration on supply ventilation reduced outdoor particles by 97-98% with low energy consumption, but provided no benefits for indoor-generated particles. Similarly rated (MERV13 to MERV16) filtration on the central forced air system reduced outdoor PM2.5 by 90-97% when operated at least 20 min each hour or continuously at low-speed. Air cleaning on recirculating systems also reduced indoor-emitted pollutants. The energy required to operate central systems for filtration varies. Year-round operation of a system with an efficient blower motor will use about 600 kWh/year of extra site energy. These energy costs can be reduced with a smart ventilation and filtration system that modulates with occupancy. Exhaust ventilation pulling outdoor air through the envelope (the reference system) yielded indoor PM2.5 levels that were 70% lower than outdoors. Supply ventilation with a MERV13-rated filter resulted in less protection than the Reference, indicating a need for high performance filtration when using supply ventilation.