AI Article Synopsis
- Many researchers utilizing laboratory-scale synthesis systems for nanomaterials may face risks of airborne nanomaterial exposure during the development phase.
- This study examined the presence of nanoaerosols in a lab producing titanium dioxide (TiO2), revealing that a significant amount of nanopowder escaped the bag filter system, which only had a 20% collection efficiency for 100 nm particles.
- The lab's ventilation and airflow systems were found inadequate, leading to potential high exposure levels to nanopowder in the workplace, which was further analyzed using computational fluid dynamics (CFD) simulations.
Article Abstract
Many researchers who use laboratory-scale synthesis systems to manufacture nanomaterials could be easily exposed to airborne nanomaterials during the research and development stage. This study used various real-time aerosol detectors to investigate the presence of nanoaerosols in a laboratory used to manufacture titanium dioxide (TiO2). The TiO2 nanopowders were produced via flame synthesis and collected by a bag filter system for subsequent harvesting. Highly concentrated nanopowders were released from the outlet of the bag filter system into the laboratory. The fractional particle collection efficiency of the bag filter system was only 20% at particle diameter of 100 nm, which is much lower than the performance of a high-efficiency particulate air (HEPA) filter. Furthermore, the laboratory hood system was inadequate to fully exhaust the air discharged from the bag filter system. Unbalanced air flow rates between bag filter and laboratory hood systems could result in high exposure to nanopowder in laboratory settings. Finally, we simulated behavior of nanopowders released in the laboratory using computational fluid dynamics (CFD).
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4466336 | PMC |
| http://dx.doi.org/10.1155/2015/524283 | DOI Listing |
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