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emission rates for not only the 35 specific VOCs, including formaldehyde, listed in Table <br />4-1 of the CDPH test method (CDPH, 2017), but also all of the cancer and <br />reproductive/developmental chemicals listed in the California Proposition 65 Safe Harbor <br />Levels (OEHHA, 2017a), all of the toxic air contaminants (TACs) in the California Air <br />Resources Board Toxic Air Contamination List (CARB, 2011), and the 10 chemicals with <br />the greatest emission rates. <br />Alternatively, a sample of the building material or furnishing can be submitted to a <br />chemical emission rate testing laboratory, such as Berkeley Analytical Laboratory <br />(httns://berkeleyanalytical.com), to measure the formaldehyde emission rate. <br />4.) Calculate the Total Formaldehyde Emission Rate. For each IAQ Zone, calculate the <br />total formaldehyde emission rate (i.e. µg/h) from the individual formaldehyde emission <br />rates from each of the building material/furnishings as determined in Step 3. <br />5.) Calculate the Indoor Formaldehyde Concentration. For each IAQ Zone, calculate the <br />indoor formaldehyde concentration (µg/m3) from Equation 1 by dividing the total <br />formaldehyde emission rates (i.e. µg/h) as determined in Step 4, by the design minimum <br />outdoor air ventilation rate (m3/h) for the IAQ Zone. <br />ELLL <br />Cin = (Equation 1) <br />Qoa <br />where: <br />Co = indoor formaldehyde concentration (µg/m3) <br />Etow = total formaldehyde emission rate (µg/h) into the IAQ Zone. <br />Qoa = design minimum outdoor air ventilation rate to the IAQ Zone (m3/h) <br />The above Equation 1 is based upon mass balance theory, and is referenced in Section <br />3.10.2 "Calculation of Estimated Building Concentrations" of the California Department <br />of Health "Standard Method for the Testing and Evaluation of Volatile Organic Chemical <br />Emissions for Indoor Sources Using Environmental Chambers", (CDPH, 2017). <br />79v 143 <br />