Litcius/Paper detail

Volatile organic compound and particulate matter emissions from an ultrasonic essential oil diffuser

Heather Schwartz‐Narbonne, Bowen Du, Jeffrey A. Siegel

2021Indoor Air11 citationsDOI

Abstract

Ultrasonic essential oil diffusers (EODs) are a popular type of indoor scenting source. We performed a chamber study in which we measured the emissions from EODs used with lemon, lavender, eucalyptus, and grapeseed oils. Over the course of 15 min, the most abundant VOCs released from lemon, lavender, eucalyptus, and grapeseed oils were 2.6 ± 0.7 mg of d-limonene, 3.5 ± 0.4 mg of eucalyptol, 1.0 ± 0.1 mg of linalyl acetate, and 0.2 ± 0.02 mg of linalyl acetate, respectively. Each oil had a unique particulate matter (PM) emission profile in terms of size, number density, and rate. The dominant size ranges of the PM were 10–100 nm for lemon oil, 50–100 nm for lavender oil, 10–50 nm for lemon oil, and above 200 nm for grapeseed oil. PM1 emission rates of approximately 2 mg/h, 0.1 mg/h, and 3 mg/h, were observed for lemon, lavender/eucalyptus, and grapeseed oils, respectively. A fivefold increase in PM1 emission was measured when the EOD with eucalyptus oil was filled with tap water as opposed to deionized water. Modeling suggests that reasonable use cases of EODs can contribute substantially to primary and secondary PM in indoor environments, but this potential varies depending on the oil and water types used.

Topics & Concepts

Linalyl acetateEucalyptus oilLavender oilChemistryLavenderEucalyptolParticulatesEucalyptusLimoneneEnvironmental scienceEnvironmental chemistryEssential oilPulp and paper industryFood scienceBotanyLinaloolOrganic chemistryBiologyImmunologyEngineeringIndoor Air Quality and Microbial ExposureInfection Control and VentilationAdvanced Chemical Sensor Technologies