Conference proceedings

Displaying 1 - 3 of 3 in CEST2019 (remove filter), wastewater (remove filter), industry (remove filter)

CEST Proceedings are published under the ISSN 2944-9820.

Evaluation phytotoxic effects and decolorization of simulated and real textile wastewaters by UV/H2O2

Quiceno Gómez L., Hernández Gallo M., Cardona Rendón L., Arroyave Quiceno C., (Corresponding) Aristizábal Castrillón A.
Topic: 
Advanced oxidation processes
The discharge of dyes in aquatic ecosystems is of environmental concern due to intense coloration that decrease photosynthetic activity and the possible toxic effects (Hao et al., 2000). Therefore, the development and understanding of processes for the removal of textile dyes in wastewaters, like...Read more
Keywords: 
Wastewater, textile industry, H2O2/UV, phytotoxicity
DOI: 
https://doi.org/10.30955/gnc2019.00228
Paper ID: 
cest2019_00228
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The mitigation of environmental impacts of high polluted effluents from tuna canning industry through eco-efficiency strategies

(Corresponding) Gutierrez M., Etxebarria S., Revilla M., Ramos S., Ciriza A., Sancho L., Zufia J.
Topic: 
Water, energy and/or food nexus
Food industry use high volume of water and energy to carry out their processes. Specifically, the fish canning industry generates effluents with high organic and saline loads, which complicates their suitable treatment before discharging to water bodies. The LIFE VERTALIM project has demonstrated...Read more
Keywords: 
industrial wastewater management, eco-efficient food production, fish canning industry, real-time control system
DOI: 
https://doi.org/10.30955/gnc2019.00477
Paper ID: 
cest2019_00477
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Unbiodegradable soluble COD removal from industrial wastewater by a hybrid moving bed biofilm reactor

Carucci A., Cappai G., Camedda C., Erby G., Puggioni G., (Corresponding) Milia S., Tocco G.
Topic: 
Wastewater treatment
In this study, plastics industry wastewater (PIWW) characterized by high total and soluble chemical oxygen demand (tCOD and sCOD, up to ~2200 and ~1500 mg/L, respectively) and remarkable unbiodegradable soluble COD (usCOD, 508±224 mg/L, 31±14% of tCOD) concentrations was treated at laboratory scale...Read more
Keywords: 
industrial wastewater, MBBR, plastics industry, recalcitrant organics, usCOD
DOI: 
https://doi.org/10.30955/gnc2019.00483
Paper ID: 
cest2019_00483
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