Elsevier

NanoImpact

Volume 22, April 2021, 100307
NanoImpact

Importance of the number emission factor of combustion-generated aerosols from nano-enabled products

https://doi.org/10.1016/j.impact.2021.100307Get rights and content
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Highlights

  • Combustion of nano-enabled products (NEPs) generates fly ash and residual ash.

  • The aerosol number emission factor depends strongly on the type of NEP combusted.

  • The embedded nanomaterial does not affect the potential release aerosols.

  • NEPs can be categorized based on the aerosol release potential during combustion.

Abstract

Accidental or open waste burning and incineration of nano-enabled products (NEPs) might lead to the release of incidental aerosols in the nano size range into the environment resulting in harmful effects on humans.

We have investigated combustion-generated aerosol release during accidental burning for several real-life NEPs such as paints with silica (SiO2) and spruce wood panels containing SiO2 and Fe2O3 nanomaterials (NMs), paper with SiO2 and Fe2O3 NMs and polymeric composites with CuPhthtalocyanine NMs in poly lactic acid (PLA), polyamide 6 (PA6) and thermoplastic pol-urethane (TPU) matrices.

Chemical compositions, aerosols number emission factors (nefs) and concentrations of the signature elements of the NMs of the combustion-generated aerosols were investigated. In addition, the residual ash was analyzed. The outcomes of this study shed light on how NM and matrix types influenced the properties of the released aerosols. Based on our results it was established that the combustion-generated aerosols were composed of transformed NMs with modified physical–chemical characteristics compared to the pristine NMs. In addition to aerosols with transformed NMs, there were also particles due to incomplete combustion of the matrix.

Types of the pristine NMs and matrices affected the characteristics of the released aerosols. Since the effect of the aerosols is related to the inhaled aerosol number concentration, the nef is an important parameter. Our results showed that the nefs in the size range of 5.6 to 560 nm depended strongly on the type of combusted NEP, which indicated that the NEPs could be categorized according to their potential to release aerosols in this size range when they were burnt. The generated release data facilitate the assessment of human and environmental exposure and the associated risk assessment of combustion-generated aerosols from NEPs.

Keywords

Nanomaterial
Release of nanomaterials
Combustion
Categorization of nano-enabled products

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