Organic Contaminant Abatement in Reclaimed Water by UV/H2O2 and a Combined Process Consisting of O3/H2O2 Followed by UV/H2O2: Prediction of Abatement Efficiency, Energy Consumption, and Byproduct Formation

Lee, Yunho; Gerrity, Daniel; Lee, Minju; Gamage, Sujanie; Pisarenko, Aleksey N.; Trenholm, Rebecca A.; Canonica, Silvio; Snyder, Shane A.; Gunten, Urs von

doi:10.1021/acs.est.5b04904

Cited by 150 publications

(75 citation statements)

References 56 publications

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“…More extensive transformation and/or removal of bulk organic matter yields significant benefits for advanced treatment with respect to membrane fouling (Stanford, Pisarenko, Holbrook, & Snyder, ), ozone efficacy due to reductions in dissolved organic carbon concentrations (Lee et al., ), and the efficacy of UV disinfection, photolysis, or advanced oxidation due to increases in UV transmittance (Lee et al., ). The current study evaluated changes in fluorescence, as measured by EEMs, peak fluorescence, and regional fluorescence, and also changes in UV absorbance to describe how biological treatment might impact downstream treatment efficacy.…”

Section: Resultsmentioning

confidence: 99%

“…Based on the same reactor assumptions in Lee et al. (), including an electrical efficiency of 30% and a path length of 10 cm, the average UV 254 absorbance of 0.171 cm −1 for the 2‐day SRT results in energy consumption values of 0.030 and 0.372 kWh/m 3 for UV doses of 80 mJ/cm 2 (i.e., disinfection) and 1,000 mJ/cm 2 (i.e., advanced oxidation), respectively. In contrast, the average UV 254 absorbance of 0.135 cm −1 for the 20‐day SRT results in lower energy consumption values of 0.024 and 0.301 kWh/m 3 , respectively.…”

Section: Resultsmentioning

confidence: 99%

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Impacts of solids retention time and antibiotic loading in activated sludge systems on secondary effluent water quality and microbial community structure

Gerrity

Neyestani

2019

Water Environment Research

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Solids retention time (SRT) is one of the most important factors in designing and operating activated sludge systems for biological wastewater treatment. Longer SRTs have been shown to alter the structure and function of microbial communities, thereby leading to improved treatment efficacy with respect to bulk and trace organics, nutrient removal, and membrane fouling. Research has also shown that longer SRTs and/or higher influent antibiotic concentrations may lead to increased prevalence of antibiotic resistance. However, it is unclear whether elevated, yet subclinical, concentrations of antibiotics also impact the overall microbial community. The purpose of this study was to characterize changes in microbial community structure in a laboratory-scale activated sludge system as a function of SRT (2-20 days) and influent concentrations (1×-100× ambient) of ampicillin, sulfamethoxazole, tetracycline, trimethoprim, and vancomycin. Changes in microbial community structure were evaluated based on 16S rRNA gene sequencing, and microbial community function was evaluated based on changes in effluent water quality, including attenuation of bulk and trace organics. The results confirmed that longer SRTs-but not antibiotic loadings-had a significant impact on microbial community structure and effluent water quality. Therefore, moderate spikes in influent antibiotic concentrations are not expected to adversely impact biological wastewater treatment. • Practitioner points• Longer SRTs lead to changes in microbial community structure, including alpha and beta diversity and relative abundance of various taxa. • Enhanced TOrC attenuation at longer SRTs may be linked to biomass abundance rather than changes in microbial community structure. • Moderate spikes in influent antibiotic concentrations do not impact activated sludge performance or microbial community structure. • The phyla Proteobacteria and Bacteroidetes comprise a majority of the microbial community in primary effluent and mixed liquor.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

Impacts of solids retention time and antibiotic loading in activated sludge systems on secondary effluent water quality and microbial community structure

Gerrity

Neyestani

2019

Water Environment Research

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“…Pathogens could be attenuated by optimizing upstream wastewater treatment and/or the disinfection processes at the AWPF (e.g., O 3 , UV, and free chlorine disinfection in the ESB). However, the required O 3 dose would likely exceed an O 3 /TOC ratio of 1.0 (Gerrity et al, ), and this dosing level has been shown to form up to 30 μg/L of bromate in local wastewater (Lee et al, ). Considering that the DPR flow accounted for up to 10%–40% of the overall water supply for the 25% and 100% diversions, respectively, the DPR flow might add 3–12 μg/L of bromate to local drinking water.…”

Section: Resultsmentioning

confidence: 99%

“…This would either exceed the USEPA maximum contaminant level (MCL) of 10 μg/L outright or when combined with the baseline level of bromate formed during ozonation at AMSWTF and RMWTF. Alternatively, bromate formation could be mitigated with the chlorine–ammonia process (Neemann, Hulsey, Rexing, & Wert, ) or by hydrogen peroxide addition (von Gunten, ), but the formation of alternative disinfection products might be a concern, the reduction in bromate might still be inadequate (Lee et al, ), disinfection efficacy might be compromised (Gamage, Gerrity, Pisarenko, Wert, & Snyder, ), and O&M costs would increase (Plumlee et al, ).…”

Section: Resultsmentioning

confidence: 99%

Evaluating the sustainability of indirect potable reuse and direct potable reuse: a southern Nevada case study

et al. 2019

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This case study presents a framework for evaluating the sustainability of indirect potable reuse (IPR) and direct potable reuse (DPR) in Las Vegas, Nevada. A system dynamics model was developed to simulate population growth, water supply, water quality, energy costs, net present worth (NPW), and greenhouse gas (GHG) emissions. The model confirmed that DPR could achieve a net reduction in energy costs of up to US$250 million while still ensuring an adequate water supply. However, the high NPW of DPR ($1.0-$4.0 billion) relative to the status quo IPR approach ($0.6 billion) represents a significant economic hurdle, although future monetization of salt loadings and GHGs could reduce that disparity. DPR with ozone-biofiltration would also be hindered by an estimated concentration of total dissolved solids of up to 1,300 mg/L. Despite these barriers to implementation in Las Vegas, certain site-specific conditions may make DPR more attractive in other locations. K E Y W O R D S direct potable reuse, indirect potable reuse, net present worth, sustainability, system dynamics, water supply

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“…The energy consumption of the developed electrochemical cotton filter technology for TC treatment is calculated at an applied total cell potential of 2.0 V, by assuming 31 electrons transferred per TC molecule, to be 1.2 kWh/kg COD (The COD used here is the theoretical COD). This value is comparative with state-of-the-art electrochemical oxidation processes with an energy consumption in the range of 5-100 kWh/kg COD [36][37][38][39]. Alternatively, the energy per volume treated is calculated to be only 0.05 kWh/m 3 .…”

Section: Performance Of the Cotton Filter Towards Tc Removalmentioning

confidence: 99%

Conductive Cotton Filters for Affordable and Efficient Water Purification

Xia

Cheng

et al. 2017

Catalysts

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It is highly desirable to develop affordable, energy-saving, and highly-effective technologies to alleviate the current water crisis. In this work, we reported a low-cost electrochemical filtration device composing of a conductive cotton filter anode and a Ti foil cathode. The device was operated by gravity feed. The conductive cotton filter anodes were fabricated by a facile dying method to incorporate carbon nanotubes (CNTs) as fillers. The CNTs could serve as adsorbents for pollutants adsorption, as electrocatalysts for pollutants electrooxidation, and as conductive additives to render the cotton filters highly conductive. Cellulose-based cotton could serve as low-cost support to 'host' these CNTs. Upon application of external potential, the developed filtration device could not only achieve physically adsorption of organic compounds, but also chemically oxide these compounds on site. Three model organic compounds were employed to evaluate the oxidative capability of the device, i.e., ferrocyanide (a model single-electron-transfer electron donor), methyl orange (MO, a common recalcitrant azo-dye found in aqueous environments), and antibiotic tetracycline (TC, a common antibiotic released from the wastewater treatment plants). The devices exhibited a maximum electrooxidation flux of 0.37 mol/h/m 2 for 5.0 mmol/L ferrocyanide, of 0.26 mol/h/m 2 for 0.06 mmol/L MO, and of 0.9 mol/h/m 2 for 0.2 mmol/L TC under given experimental conditions. The effects of several key operational parameters (e.g., total cell potential, CNT amount, and compound concentration) on the device performance were also studied. This study could shed some light on the good design of effective and affordable water purification devices for point-of-use applications.

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Organic Contaminant Abatement in Reclaimed Water by UV/H₂O₂ and a Combined Process Consisting of O₃/H₂O₂ Followed by UV/H₂O₂: Prediction of Abatement Efficiency, Energy Consumption, and Byproduct Formation

Cited by 150 publications

References 56 publications

Impacts of solids retention time and antibiotic loading in activated sludge systems on secondary effluent water quality and microbial community structure

Impacts of solids retention time and antibiotic loading in activated sludge systems on secondary effluent water quality and microbial community structure

Evaluating the sustainability of indirect potable reuse and direct potable reuse: a southern Nevada case study

Conductive Cotton Filters for Affordable and Efficient Water Purification

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