The future for electrocoagulation as a localised water treatment technology PK Holt, GW Barton, CA Mitchell Chemosphere 59 (3), 355-367, 2005 | 1053 | 2005 |
A quantitative comparison between chemical dosing and electrocoagulation PK Holt, GW Barton, M Wark, CA Mitchell Colloids and Surfaces A: Physicochemical and Engineering Aspects 211 (2-3 …, 2002 | 849 | 2002 |
Electrocoagulation as a wastewater treatment P Holt, G Barton, C Mitchell The third annual australian environmental engineering research event 1000, 41-46, 1999 | 253 | 1999 |
Beginning at the end: The outcome spaces framework to guide purposive transdisciplinary research C Mitchell, D Cordell, D Fam Futures 65, 86-96, 2015 | 243 | 2015 |
Teaching sustainability as a contested concept: capitalizing on variation in engineering educators' conceptions of environmental, social and economic sustainability AL Carew, CA Mitchell Journal of cleaner production 16 (1), 105-115, 2008 | 190 | 2008 |
Conceptualising transdisciplinary integration as a multidimensional interactive process C Pohl, JT Klein, S Hoffmann, C Mitchell, D Fam Environmental Science & Policy 118, 18-26, 2021 | 171 | 2021 |
Alternative analysis of BOD removal in subsurface flow constructed wetlands employing Monod kinetics C Mitchell, D McNevin Water Research 35 (5), 1295-1303, 2001 | 166 | 2001 |
Characterizing undergraduate engineering students' understanding of sustainability AL Carew, CA Mitchell European journal of engineering education 27 (4), 349-361, 2002 | 152 | 2002 |
Indicators of biofilm development and activity in constructed wetlands microcosms SR Ragusa, D McNevin, S Qasem, C Mitchell Water research 38 (12), 2865-2873, 2004 | 147 | 2004 |
The challenges of applying planetary boundaries as a basis for strategic decision-making in companies with global supply chains R Clift, S Sim, H King, JL Chenoweth, I Christie, J Clavreul, C Mueller, ... Sustainability 9 (2), 279, 2017 | 131 | 2017 |
A research agenda for the future of urban water management: exploring the potential of nongrid, small-grid, and hybrid solutions S Hoffmann, U Feldmann, PM Bach, C Binz, M Farrelly, N Frantzeskaki, ... Environmental science & technology 54 (9), 5312-5322, 2020 | 127 | 2020 |
Water sensitive cities C Howe, C Mitchell IWa Publishing, 2011 | 112 | 2011 |
Hydraulic tracer studies in a pilot scale subsurface flow constructed wetland AC King, CA Mitchell, T Howes Water Science and Technology 35 (5), 189-196, 1997 | 98 | 1997 |
Integrating sustainability in chemical engineering practice and education: concentricity and its consequences C Mitchell Process Safety and Environmental Protection 78 (4), 237-242, 2000 | 87 | 2000 |
Transdisciplinary research and practice for sustainability outcomes D Fam, J Palmer, C Riedy, C Mitchell Routledge, 2017 | 84 | 2017 |
The role of the professional engineer and scientist in sustainable development CA Mitchell, AL Carew, R Clift Sustainable development in practice: Case studies for engineers and …, 2004 | 73 | 2004 |
Deciphering the science behind electrocoagulation remove suspended clay particles from water PK Holt, GW Barton, CA Mitchell Water Science and Technology 50 (12), 177-184, 2004 | 69 | 2004 |
Design and hydraulic performance of a constructed wetland treating oil refinery wastewater AL Simi, CA Mitchell Water Science and Technology 40 (3), 301-307, 1999 | 66 | 1999 |
Metaphors used by some engineering academics in Australia for understanding and explaining sustainability AL Carew, CA Mitchell Environmental Education Research 12 (2), 217-231, 2006 | 63 | 2006 |
Can corporate social responsibility resolve the sanitation question in developing Asian countries? K Abeysuriya, C Mitchell, S White Ecological Economics 62 (1), 174-183, 2007 | 60 | 2007 |