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UV/chlorinated cyanurates as an emerging advanced oxidation process for drinking water and potable reuse treatments
Yi-Hsueh Chuang
*
, Hong Jia Shi
*
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環境工程研究所
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引文 斯高帕斯(Scopus)
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Keyphrases
Drinking Water
100%
Advanced Oxidation Processes
100%
Water Reuse
100%
Potable Reuse
100%
Reuse Practices
100%
Chlorinated Cyanurates
100%
Cyanurates
58%
Treated Water
16%
Cyanuric Acid
16%
Molar Absorptivity
16%
Hydrogen Peroxide
8%
Ammonia
8%
Neutral pH
8%
Amides
8%
Phosphate Buffer
8%
PH Effect
8%
Photolysis
8%
UV Spectra
8%
Initial Cost
8%
Cost Estimation
8%
Disinfection
8%
Effective Alternative
8%
Surface Water
8%
Terephthalate
8%
Low Reactivity
8%
Chloramine
8%
Scavenging Ratio
8%
Equilibrium Concentration
8%
UV-H2O2
8%
Hypochlorite
8%
Red-shifting
8%
Free Chlorine
8%
Photolysis Rate
8%
Radical Scavenging
8%
Toxicity Assay
8%
Cyanuric
8%
OH Reactivity
8%
Steady-state Concentration
8%
Probe Compound
8%
Competition Kinetics
8%
Low OH
8%
Chemistry
Potable Water
100%
Advanced Oxidation Process
100%
Photolysis
16%
Hydrogen Peroxide
16%
Molar Absorptivity
16%
Red
8%
Carboxamide
8%
Buffer Solution
8%
Ultraviolet Spectrum
8%
Surface Water
8%
Chloramine
8%
formation
8%
Chemical Engineering
Potable Water
100%
Advanced Oxidation Process
100%
Hydrogen Peroxide
16%
Treated Water
16%
Amide
8%
Engineering
Advanced Oxidation Process
100%
Surface Water
8%
Free Chlorine
8%
Cost Estimate
8%
Neutral Ph
8%
Measured Spectrum
8%
Disinfection
8%
Equilibrium Concentration
8%
Initial Cost
8%
State Concentration
8%
Scavenging
8%
Pharmacology, Toxicology and Pharmaceutical Science
Cyanuric Acid
100%
Pirenzepine
16%
Hydrogen Peroxide
11%
Oxidizing Agent
11%
Buffer
5%
Carboxamide
5%
Surface Water
5%
Chloramine Derivative
5%
Terephthalic Acid
5%