AFC316F0-74_VirgTec_Synopsis
Proof-of-Concept Work to Demonstrate Optical Microscopy with Image Analysis as a Tool for Semi-continuous Coal Mine Dust Monitoring (Grant AFC316FO-74)
Proof-of-Concept Work to Demonstrate Optical Microscopy with Image Analysis as a Tool for Semi-continuous Coal Mine Dust Monitoring (Grant AFC316FO-74)
Collecting mine dust particles with liquid-coated vibrating meshes, Phase 2 Second Phase Technology Development Grants (AFC518SP) Virginia Tech (Grant AFC518SP-89)
A Holistic Approach to Reducing Coal Worker’s Pneumoconiosis (CWP) using Integrated Monitoring and Response Systems for Respirable Dust in Surface Mines and Facilities Penn State University (Grant Number AFC417-39)
A Smart Device for Mine Dust Characterization and Coal Workers’ Health Improvement: Combining Non-Destructive, Element-Specific X-ray CT with Big Data Analytics & Machine Learning Virginia Tech (Grant Number AFC518-40)
Collecting Mine Dust Particles with Liquid-Coated Vibrating Meshes Virginia Tech and Michigan Tech (Grant Number AFC518-25)
Removal of DPM, Silica, and Coal Dust Using High Volume Fog Generation Clemson University (Grant Number AFC316-42)
Improved Face Ventilation For Extended-Cut Continuous Mining Using a Wing Regulator and Scrubber Control System University of Kentucky (Grant Number AFC215-15)
The Application of Flooded Bed Dust Scrubbers to Longwall Mining Systems University of Kentucky (Grant Number AFC113-10)