Quantifying Emission Factors and Setting Conditions of Use According to ECHA Chapter R.14 for a Spray Process Designed for Nanocoatings-A Case Study.
Antti Joonas KoivistoBenedetta Del SeccoSara TrabuccoAlessia NicosiaFabrizio RavegnaniMarko AltinJoan CabellosIrini FurxhiMagda BlosiAnna Luisa CostaJesús Lopez de IpiñaFranco BelosiPublished in: Nanomaterials (Basel, Switzerland) (2022)
Spray coatings' emissions impact to the environmental and occupational exposure were studied in a pilot-plant. Concentrations were measured inside the spray chamber and at the work room in Near-Field (NF) and Far-Field (FF) and mass flows were analyzed using a mechanistic model. The coating was performed in a ventilated chamber by spraying titanium dioxide doped with nitrogen (TiO 2 N) and silver capped by hydroxyethylcellulose (Ag-HEC) nanoparticles (NPs). Process emission rates to workplace, air, and outdoor air were characterized according to process parameters, which were used to assess emission factors. Full-scale production exposure potential was estimated under reasonable worst-case (RWC) conditions. The measured TiO 2 -N and Ag-HEC concentrations were 40.9 TiO 2 -μg/m 3 and 0.4 Ag-μg/m 3 at NF (total fraction). Under simulated RWC conditions with precautionary emission rate estimates, the worker's 95th percentile 8-h exposure was ≤171 TiO 2 and ≤1.9 Ag-μg/m 3 (total fraction). Environmental emissions via local ventilation (LEV) exhaust were ca. 35 and 140 mg-NP/g-NP, for TiO 2 -N and Ag-HEC, respectively. Under current situation, the exposure was adequately controlled. However, under full scale production with continuous process workers exposure should be evaluated with personal sampling if recommended occupational exposure levels for nanosized TiO 2 and Ag are followed for risk management.
Keyphrases
- visible light
- quantum dots
- signaling pathway
- intensive care unit
- life cycle
- lps induced
- oxidative stress
- gold nanoparticles
- highly efficient
- pi k akt
- study protocol
- immune response
- air pollution
- acute respiratory distress syndrome
- nuclear factor
- toll like receptor
- inflammatory response
- mechanical ventilation
- climate change
- extracorporeal membrane oxygenation