Modify Selection
- Equipment, tools, and parts:
- Dust measurement instruments
Home Links
Results 1 - 10 of 22
-
2/17/2023 - Contracts and cooperative agreementsA contract with RingIR, Inc., to develop a non-regulatory runtime respirable coal and silica dust monitor using quantum cascade laser-based ringdown spectroscopy.
-
2/14/2023 - Contracts and cooperative agreementsA contract with Colorado State University to develop a silica dust reading sampler.
-
2/18/2020 - Research projectsA project to develop control interventions to reduce occupational exposure to silica and other respirable dusts in metal/nonmetal mines and mills.
-
1/31/2020Response to the 2018 National Academies of Sciences, Engineering, and Medicine recommendations on Monitoring and Sampling Approaches to Assess Underground Coal Mine Dust Exposures
-
1/10/2019 - Peer reviewed journal articlesA study comparing respirable crystalline silica concentration measurements using an end-of-shift Fourier transform infrared (FT-IR) spectrometry method versus a traditional laboratory X-ray diffraction analysis.
-
1/1/2019 - Peer reviewed journal articlesA study demonstrating the potential of using a portable FTIR for estimation of crystalline silica in respirable dust samples for in-field exposure monitoring.
-
12/1/2018 - Peer reviewed journal articlesAn article comparing three performance evaluations of the GK4.162 high flow rate respirable size-selective sampler.
-
6/20/2018 - PublicationsA page listing selected publications related to Helmet-CAM and EVADE software.
-
10/22/2016 - Research projectsA project to evaluate the feasibility of using Light Detection And Ranging (LIDAR), a remote sensing technology based on laser reflection, as a dust monitoring tool in the mining industry.
-
6/1/2013 - Peer reviewed journal articlesAn article evaluating a commercial instrument developed based on NIOSH research for measuring EC concentrations in real time.
Home Links
Content source: National Institute for Occupational Safety and Health, Mining Program