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J Air Waste Manag Assoc

Title:		Gas-phase photolytic production of hydroxyl radicals in an ultraviolet purifier for air and surfaces
Author(s):		Crosley DR; Araps CJ; Doyle-Eisele M; McDonald JD;
Address:		"a Private consultant to HGI Industries (Boynton Beach, Florida) , Palo Alto , CA , USA. b Prometheus Strategies , Delray Beach , FL , USA. c Lovelace Respiratory Research Institute , Albuquerque , NM , USA"
Journal Title:		J Air Waste Manag Assoc
Year:		2017
Volume:		67
Issue:		2
Page Number:		231 - 240
DOI:		10.1080/10962247.2016.1229236
ISSN/ISBN:		2162-2906 (Electronic) 1096-2247 (Linking)
Abstract:		"We have measured the concentration of hydroxyl radicals (OH) produced in the gas phase by a commercially available purifier for air and surfaces, using the time rate of decay of n-heptane added to an environmental chamber. The hydroxyl generator, an Odorox(R) BOSS model, produces the OH through 185-nm photolysis of ambient water vapor. The steady-state concentration of OH produced in the 120 m(3) chamber is, with 2sigma error bars, (3.25 +/- 0.80) x 10(6) cm(-3). The properties of the hydroxyl generator, in particular the output of the ultraviolet lamps and the air throughput, together with an estimation of the water concentration, were used to predict the amount of OH produced by the device, with no fitted parameters. To relate this calculation to a steady-state concentration, we must estimate the OH loss rate within the chamber owing to reaction with the n-heptane and the 7 ppb of background hydrocarbons that are present. The result is a predicted steady-state concentration in excellent agreement with the measured value. This shows we understand well the processes occurring in the gas phase during operation of this hydroxyl radical purifier. IMPLICATIONS: Hydroxyl radical air purifiers are used for cleaning both gaseous contaminants, such as volatile organic compounds (VOCs) or hazardous gases, and biological pathogens, both airborne and on surfaces. This is the first chemical kinetic study of such a purifier that creates gas-phase OH by ultraviolet light photolysis of H(2)O. It shows that the amount of hydroxyls produced agrees well with nonparameterized calculations using the purifier lamp output and device airflow. These results can be used for designing appropriate remediation strategies"
Keywords:		Heptanes/chemistry Hydroxyl Radical/*chemistry Kinetics Ozone/chemistry Photolysis *Ultraviolet Rays Volatile Organic Compounds;
Notes:		"MedlineCrosley, David R Araps, Connie J Doyle-Eisele, Melanie McDonald, Jacob D eng 2016/09/16 J Air Waste Manag Assoc. 2017 Feb; 67(2):231-240. doi: 10.1080/10962247.2016.1229236"