US EPA

3871007 

Journal Article 

Effectiveness of indoor plants for passive removal of indoor ozone 

Abbass, OA; Sailor, DJ; Gall, ET 

2017 

1 

Building and Environment
ISSN: 0360-1323
EISSN: 1873-684X 

119 

62-70 

10.1016/j.buildenv.2017.04.007 

WOS:000401675100006 

Indoor vegetation is often proposed as a passive approach for improving indoor air quality. While studies of outdoor environments indicate that vegetation can be an important sink of outdoor ozone, there is scant data in the literature concerning the dynamics of ozone uptake by indoor plants. This study determined ozone deposition velocities (v(d)) for five common indoor plants (Peace Lily, Ficus, Calathia, Dieffenbachia, Golden Pothos). The transient vd was calculated, using measured leaf areas for each plant, for exposures mimicking three diurnal cycles where ozone concentrations in chamber tests were elevated for 8 h followed by 16 h in the absence of ozone. Estimates of vd at the end of the first exposures ranged from 5.6 m h(-1) for Golden Pothos to 0.9 m h(-1) for Peace Lily. Values of vd were approximately 50% and 66% lower at the end of a second exposure and third exposure, respectively. Estimates of vd were also made for a range of photosynthetic active radiation (PAR) levels typically observed indoors. An increase in PAR from 0.6 to 41.2 mu mol m(-2) sec(-1) resulted in increases in v(d) ranging from a factor of 1.7 (Diffenbachia) to 4.7 (Peace Lily). For deposition velocities measured in this study, the ozone removal effectiveness ranges from 0.9% to 9% for leaf surface area to room volume ratio of 0.06 m(-1) (approximately one plant for every 1.8 m(2) of floor area) when accounting for values of air exchange and background loss typical of a residential environment. (C) 2017 The Authors. Published by Elsevier Ltd. 

Ozone deposition velocity; Passive ozone removal; Indoor lighting; Material balance