Abstract
Conventional (2D) electrochemical oxidation (EO) of micropollutants in
water is, despite capability of full mineralization, challenged on the
efficiency. This is due to mass transfer limitations of the single pass
conversions induced by the inherent low concentrations of
micropollutants [1]. Conductive particles may, when placed within an
electric field, be polarized generating reactive microelectrodes in bulk
solution increasing the overall active electrode area, a concept known as
3D electrochemistry [2]. Carbon based materials (activated carbon (AC)
and others) may be cost-efficient electrocatalysts for use in 3D
electrochemical water treatment.
water is, despite capability of full mineralization, challenged on the
efficiency. This is due to mass transfer limitations of the single pass
conversions induced by the inherent low concentrations of
micropollutants [1]. Conductive particles may, when placed within an
electric field, be polarized generating reactive microelectrodes in bulk
solution increasing the overall active electrode area, a concept known as
3D electrochemistry [2]. Carbon based materials (activated carbon (AC)
and others) may be cost-efficient electrocatalysts for use in 3D
electrochemical water treatment.
Originalsprog | Engelsk |
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Publikationsdato | 12 jun. 2019 |
Antal sider | 1 |
Status | Udgivet - 12 jun. 2019 |
Begivenhed | 6th European conference on Environmental Applications of Advanced Oxidation Processes - Grand Hotel Bernadin, Portoroz-Portorose, Slovenien Varighed: 26 jun. 2019 → 30 jun. 2019 Konferencens nummer: 6 http://eaaop6.ki.si/ |
Konference
Konference | 6th European conference on Environmental Applications of Advanced Oxidation Processes |
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Nummer | 6 |
Lokation | Grand Hotel Bernadin |
Land/Område | Slovenien |
By | Portoroz-Portorose |
Periode | 26/06/2019 → 30/06/2019 |
Internetadresse |
Emneord
- Electrochemical oxidation
- Micropollutants
- 3D electrochemistry