Oxidation of Selected Trace Organic Compounds through the Combination of Inline Electro-Chlorination with UV Radiation (UV/ECl2) as Alternative AOP for Decentralized Drinking Water Treatment

Otter, Philipp; Mette, Katharina; Wesch, Robert; Gerhardt, Tobias; Krüger, Frank-Marc; Goldmaier, Alexander; Benz, Florian; Malakar, Pradyut; Grischek, Thomas

doi:10.3390/w12113275

Cited by 10 publications

(3 citation statements)

References 50 publications

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“…The chlorine demand of the raw water sample ( ) was calculated using the Iodometric method (4500-Cl, APHA 2017). The emergence of DBPs is allied to the elevated level of residual chlorine; therefore, regulation of available and residual chlorine needs to be done (Otter et al, 2020). In chlorination, estimated chlorine dosing of 1.8 mg/L was done (i.e., 1.6mg/L Chlorine demand + 0.2 ppm residual chlorine) and mixed thoroughly, which was then left for a contact period of 30 minutes in an open vessel.…”

Section: 3chlorination and Electro-chlorination Processmentioning

confidence: 99%

The competitive effect of Electro-chlorination over chlorination for controlling disinfection by-product formation in phenol and aniline enriched groundwater

Mohanta

Mishra

2021

Preprint

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Disinfection is an essential step to keep humans healthy from microorganisms present in drinking water. However, the formation of disinfection by-products (DBPs) is associated with adverse health effects, and the presence of organic pollutants in groundwater results in even more detrimental effects. Therefore, a better treatment technique is required to disinfect and remove organic pollutants simultaneously to control the formation of DBPs. Electro-chlorination (EC) was carried out using graphite electrode at the current density of 0.54–1.09 mA/cm2 and sodium chloride for in-situ hypochlorite generation to treat groundwater contaminated with phenol and aniline. The comparative study between chlorination and EC showed a significant level of oxidation of phenol and aniline, resulting in their reduction up to 98.48% and 99.47%, respectively, in the EC process. Due to the higher mineralization rate of aniline, both chlorination and EC method are found to be effective. However, only the EC method is found to be appropriate and effective for treating phenol-contaminated water as the chlorination method resulted in the formation of complicated phenolic by-products. Gas-Chromatography/Mass-Spectrometry (GCMS) was used to assess the by-product formation of chlorination and EC in contaminated groundwater through the full-scan.

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Section: 3chlorination and Electro-chlorination Processmentioning

confidence: 99%

The competitive effect of Electro-chlorination over chlorination for controlling disinfection by-product formation in phenol and aniline enriched groundwater

Mohanta

Mishra

2021

Preprint

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“…Most wastewater treatment technologies currently being applied under centralized water schemes can be implemented in decentralized settings (Capodaglio et al, 2017). Several studies have demonstrated the feasibility of implementing advanced technologies such as membrane filtration (MB) (Kümmerer et al, 2016), advanced oxidation and electrochemical processes (AOP&EC) (Otter et al, 2020), adsorption techniques (ADS) (Schumann et al, 2020) and disinfection methods (DF) (Alfiya et al, 2017) in decentralized schemes. These advanced "grey" technologies are highly efficient in removing a wide range of contaminants and leave a smaller footprint, facilitating their implementation in urban contexts where space is limited (Andersson et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Nature-based solutions coupled with advanced technologies: An opportunity for decentralized water reuse in cities

Castellar

Torrens

Buttiglieri

et al. 2022

Journal of Cleaner Production

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“…Several studies have demonstrated the effectiveness of various advanced technologies, such as membrane filtration (Kümmerer et al, 2016), advanced oxidation and electrochemical processes (Otter et al, 2020), adsorption techniques (Schumann et al, 2020) and disinfection methods (Alfiya et al, 2017), in the treatment of decentralized wastewater. However, these technologies usually imply a considerable energy input and high costs for their implementation and maintenance (Garrido-Cardenas et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

An energy‐efficient two‐stage passively aerated trickling filter for high‐strength wastewater treatment and reuse

Arous

Kyriacou

Ennouri

et al. 2022

Water & Environment J

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This work aimed to assess the technical and energetic feasibility of a passively aerated laboratory‐scale trickling filter, configured as a two‐stage system, to produce urban wastewater (UWW) reusable in agriculture. The trickling filter was fed continuously with high‐strength UWW at four hydraulic retention times (HRTs), that is, 10, 5, 2 and 1 day, corresponding to organic loading rates (OLRs) of 0.1, 0.2, 0.5 and 0.9 kg COD/m3/d, respectively. The results revealed a good performance in organic load removal and nitrification at the four HRTs. The trickling filter showed high organic pollutant removal efficiencies of up to 93%, 94% and 98% for chemical oxygen demand (COD), BOD5 and total suspended solid (TSS), respectively, as well as high ammonia nitrogen removal above 96% at the shortest HRT of 1 day. All physicochemical parameters were significantly lower than the allowable limits set out in ISO 16075 for category C (non‐food crop irrigation) irrigation water. The reuse of treated UWW in irrigation led to germination indexes and growth parameters of triticale (Triticosecale Wittm.) almost equal to those obtained using tap water. Energy use was found to be about 0.2754 kWh/m3 of treated wastewater, making it competitive with trickling filter plants reported in the literature. The simplicity and energy efficiency of the developed trickling filter system, combined with its capacity for almost full nitrification, make it appealing for sewage treatment in small communities in developing countries.

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Oxidation of Selected Trace Organic Compounds through the Combination of Inline Electro-Chlorination with UV Radiation (UV/ECl2) as Alternative AOP for Decentralized Drinking Water Treatment

Cited by 10 publications

References 50 publications

The competitive effect of Electro-chlorination over chlorination for controlling disinfection by-product formation in phenol and aniline enriched groundwater

The competitive effect of Electro-chlorination over chlorination for controlling disinfection by-product formation in phenol and aniline enriched groundwater

Nature-based solutions coupled with advanced technologies: An opportunity for decentralized water reuse in cities

An energy‐efficient two‐stage passively aerated trickling filter for high‐strength wastewater treatment and reuse

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