Fluorescence spectroscopy for wastewater monitoring: a review EM Carstea, J Bridgeman, A Baker, DM Reynolds Water research 95, 205-219, 2016 | 624 | 2016 |
Spectroscopic characterisation of dissolved organic matter changes in drinking water treatment: From PARAFAC analysis to online monitoring wavelengths Y Shutova, A Baker, J Bridgeman, RK Henderson Water research 54, 159-169, 2014 | 423 | 2014 |
CFD-aided modelling of activated sludge systems–A critical review AM Karpinska, J Bridgeman Water research 88, 861-879, 2016 | 213 | 2016 |
Changes in global groundwater organic carbon driven by climate change and urbanization LK McDonough, IR Santos, MS Andersen, DM O’Carroll, H Rutlidge, ... Nature Communications 11 (1), 1279, 2020 | 210 | 2020 |
The application of fluorescence spectroscopy to organic matter characterisation in drinking water treatment J Bridgeman, M Bieroza, A Baker Reviews in Environmental Science and Bio/Technology 10, 277-290, 2011 | 208 | 2011 |
Relating freshwater organic matter fluorescence to organic carbon removal efficiency in drinking water treatment M Bieroza, A Baker, J Bridgeman Science of the Total Environment 407 (5), 1765-1774, 2009 | 196 | 2009 |
Predicting chlorine decay and THM formation in water supply systems D Brown, J Bridgeman, JR West Reviews in Environmental Science and Bio/Technology 10, 79-99, 2011 | 190 | 2011 |
Computational fluid dynamics modelling of sewage sludge mixing in an anaerobic digester J Bridgeman Advances in Engineering Software 44 (1), 54-62, 2012 | 181 | 2012 |
In situ fluorescence measurements of dissolved organic matter: A review EM Carstea, CL Popa, A Baker, J Bridgeman Science of the Total Environment 699, 134361, 2020 | 164 | 2020 |
To what extent can portable fluorescence spectroscopy be used in the real-time assessment of microbial water quality? A Baker, SA Cumberland, C Bradley, C Buckley, J Bridgeman Science of the Total Environment 532, 14-19, 2015 | 147 | 2015 |
Portable LED fluorescence instrumentation for the rapid assessment of potable water quality J Bridgeman, A Baker, D Brown, JB Boxall Science of the Total Environment 524, 338-346, 2015 | 123 | 2015 |
The development and application of CFD models for water treatment flocculators J Bridgeman, B Jefferson, SA Parsons Advances in Engineering Software 41 (1), 99-109, 2010 | 114 | 2010 |
Computational fluid dynamics modelling of flocculation in water treatment: a review J Bridgeman, B Jefferson, SA Parsons Engineering Applications of Computational Fluid Mechanics 3 (2), 220-241, 2009 | 113 | 2009 |
Determination of changes in wastewater quality through a treatment works using fluorescence spectroscopy J Bridgeman, A Baker, C Carliell-Marquet, E Carstea Environmental technology 34 (23), 3069-3077, 2013 | 111 | 2013 |
Classification and calibration of organic matter fluorescence data with multiway analysis methods and artificial neural networks: an operational tool for improved drinking … M Bieroza, A Baker, J Bridgeman Environmetrics 22 (3), 256-270, 2011 | 107 | 2011 |
Euler-Lagrange CFD modelling of unconfined gas mixing in anaerobic digestion D Dapelo, F Alberini, J Bridgeman Water research 85, 497-511, 2015 | 100 | 2015 |
Characterisation of dissolved organic matter fluorescence properties by PARAFAC analysis and thermal quenching EM Carstea, A Baker, M Bieroza, DM Reynolds, J Bridgeman Water Research 61, 152-161, 2014 | 98 | 2014 |
Fluorescence spectroscopy as a tool for determination of organic matter removal efficiency at water treatment works MZ Bieroza, J Bridgeman, A Baker Drinking Water Engineering and Science 3 (1), 63-70, 2010 | 82 | 2010 |
Assessing floc strength using CFD to improve organics removal J Bridgeman, B Jefferson, S Parsons Chemical Engineering Research and Design 86 (8), 941-950, 2008 | 82 | 2008 |
Fluorescence spectroscopy as a tool for determining microbial quality in potable water applications S Cumberland, J Bridgeman, A Baker, M Sterling, D Ward Environmental technology 33 (6), 687-693, 2012 | 81 | 2012 |