Leveraging DOM UV absorbance and fluorescence to accurately predict and monitor short-chain PFAS removal by fixed-bed carbon adsorbers Article

Aung, Myat Thandar, Shimabuku, Kyle K, Soares-Quinete, Natalia et al. (2022). Leveraging DOM UV absorbance and fluorescence to accurately predict and monitor short-chain PFAS removal by fixed-bed carbon adsorbers . WATER RESEARCH, 213 10.1016/j.watres.2022.118146

International Collaboration

cited authors

  • Aung, Myat Thandar; Shimabuku, Kyle K; Soares-Quinete, Natalia; Kearns, Joshua P

publication date

  • April 15, 2022

published in

keywords

  • ATRAZINE REMOVAL
  • Activated carbon
  • BREAKTHROUGH
  • Biochar
  • CONTAMINANTS
  • DISSOLVED ORGANIC-MATTER
  • DRINKING-WATER
  • Engineering
  • Engineering for low-resource settings
  • Engineering, Environmental
  • Environmental Sciences
  • Environmental Sciences & Ecology
  • GRANULAR ACTIVATED CARBON
  • Life Sciences & Biomedicine
  • MICRO-POLLUTANTS
  • Organic micropollutants
  • PERFLUOROALKYL SUBSTANCES
  • Physical Sciences
  • RSSCT
  • SCALE GAC ADSORPTION
  • Science & Technology
  • Technology
  • WASTE-WATER
  • Water Resources
  • Water treatment

Digital Object Identifier (DOI)

publisher

  • PERGAMON-ELSEVIER SCIENCE LTD

volume

  • 213