Ching-Hua Huang
Georgia Institute of Technology
173 Papers
279 Citations
Ching-Hua Huang is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Chemistry & Peracetic acid. The author has an hindex of 48, co-authored 142 publications. Previous affiliations of Ching-Hua Huang include University of California, Berkeley & Johns Hopkins University.
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Papers
Reactivity of Peracetic Acid with Organic Compounds: A Critical Review
Juhee Kim,Ching-Hua Huang +1 more
- 08 Jan 2021
TL;DR: As an emerging oxidant and disinfectant, peracetic acid (PAA) has increasingly been used in wastewater treatment and the food and medical industries and has attracted greater research interest as mentioned in this paper.
225
Occurrence and fate of pharmaceuticals in WWTPs in India and comparison with a similar study in the United States.
Sanjeeb Mohapatra,Ching-Hua Huang,Suparna Mukherji,Lokesh P. Padhye,Lokesh P. Padhye,Lokesh P. Padhye +5 more
TL;DR: The study results show that preliminary treatment and biological treatment alone are not adequate for complete removal of pharmaceuticals and polishing step and tertiary treatment is a necessity if higher removal of Pharmaceuticals is desired in Indian WWTPs.
224
Degradation of DEET and Caffeine under UV/Chlorine and Simulated Sunlight/Chlorine Conditions.
TL;DR: Investigation of the degradation of N,N-diethyl-3-methylbenzamide and caffeine by low pressure ultraviolet (UV) light and simulated sunlight (SS) activated free chlorine (FC) in different water matrices revealed that, under UV/FC, ·OH and Cl· were responsible for degradation of DEET, whereas ClO· related reactive species (ClOrrs) played a major role in addition to ·OH/Cl· in degrading caffeine.
218
Modeling the Kinetics of UV/Peracetic Acid Advanced Oxidation Process.
Tianqi Zhang,Ching-Hua Huang +1 more
TL;DR: The model reveals that UV/PAA generates a lower •OH concentration than UV/H2O2 at equivalent oxidant concentrations, with CH3C(O)OO• as the most abundant carbon-centered radical.
213
Water decontamination via nonradical process by nanoconfined Fenton-like catalysts
TL;DR: In this paper , a nanoconfinement strategy was applied to encapsulate short-lived reactive species (RS) at nanoscale to boost the utilization efficiency of the RS in Fenton-like reactions.