has been cited by the following article(s):
[1]
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Parabens removal from wastewaters by microalgae–Ecotoxicity, metabolism and pathways
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Chemical Engineering …,
2022 |
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[2]
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Persulfate activation by organic compounds: Advancements and challenges
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Current Opinion in Chemical Engineering,
2022 |
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[3]
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Visible Light–Driven Advanced Oxidation Processes to Remove Emerging Contaminants from Water and Wastewater: a Review
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Water, Air, & Soil Pollution,
2022 |
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[4]
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Origin, fate, and risk assessment of emerging contaminants in groundwater bodies: a holistic review
|
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Emergent …,
2021 |
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[5]
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Exploring What Lies Ahead in the Field of Disinfecting Coronavirus
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2021 |
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[6]
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Pažangiosios oksidacijos ir biologiškai aktyvių adsorbentų kombinuotos sistemos taikymo, valyti sunkiai skaidžiomis farmacinėmis medžiagomis užterštą vandenį …
|
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2020 |
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[7]
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Fenton Technology for Wastewater Treatment: Dares and Trends
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2020 |
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[8]
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Electrocoagulation Process in the Context of Disinfection Mechanism
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2020 |
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[9]
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On the Treatment Trains for Municipal Wastewater Reuse for Irrigation
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2020 |
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[10]
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Electrochemical Technology for Wastewater Treatment: Dares and Trends
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2020 |
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[11]
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Disinfection By-Products: Presence and Elimination in Drinking Water
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2020 |
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[12]
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Advanced Oxidation Processes for Wastewater Treatment: Facts and Future Trends
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2020 |
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[13]
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UV-C/H2O2 and Sunlight/H2O2 in the Core of the Best Available Technologies for Dealing with Present Dares in Domestic Wastewater Reuse
|
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2020 |
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[14]
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Coagulation Process for Removing Algae and Algal Organic Matter—An Overview
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2020 |
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[15]
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Environmental Engineering for Stopping Viruses Pandemics
|
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2020 |
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[16]
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Domestic Wastewater Treatment: Difficulties and Reasons, and Prospective Solutions—China as an Example
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2020 |
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[17]
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Disinfecting Water: Plasma Discharge for Removing Coronaviruses
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2020 |
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[18]
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Foresight Look on the Disinfection By-Products Formation
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2020 |
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[19]
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Enhanced Coagulation: Promising Findings and Challenges
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2020 |
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[20]
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Demobilizing Antibiotic-Resistant Bacteria and Antibiotic Resistance Genes by Electrochemical Technology: New Insights
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2020 |
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[21]
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Water Treatment Coagulation: Dares and Trends
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2020 |
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[22]
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Electrocoagulation as a Pioneering Separation Technology—Electric Field Role
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2020 |
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[23]
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On the Other Side of Viruses in the Background of Water Disinfection
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2020 |
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[24]
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Trends in Decreasing Disinfection By-Products Formation during Electrochemical Technologies
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2020 |
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[25]
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Natural Organic Matter Removal in the Context of the Performance of Drinking Water Treatment Processes—Technical Notes
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2020 |
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[26]
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Water Treatment Challenges towards Viruses Removal
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2020 |
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[27]
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Desalination in the Context of Water Scarcity Crisis: Dares & Perspectives
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2020 |
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[28]
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Disinfection By-Products Regulation: Zero ng/L Target
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2020 |
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[29]
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Charge Neutralization in the Core of Plasma Treatment
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2020 |
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[30]
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Evaluación de la degradación químico–biológica de una solución modelo de cafeína
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2020 |
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[31]
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WASTE WATER TREATMENT TECHNOLOGY AND ITS USES
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[1]
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Electrochemically and Ultrasonically-Enhanced Coagulation for Algae Removal
Green and Sustainable Chemistry,
2023
DOI:10.4236/gsc.2023.132006
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[2]
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Visible Light–Driven Advanced Oxidation Processes to Remove Emerging Contaminants from Water and Wastewater: a Review
Water, Air, & Soil Pollution,
2022
DOI:10.1007/s11270-022-05831-2
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[3]
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Origin, fate, and risk assessment of emerging contaminants in groundwater bodies: a holistic review
Emergent Materials,
2021
DOI:10.1007/s42247-021-00268-5
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