Chihpin Huang
Overview
Explore the profile of Chihpin Huang including associated specialties, affiliations and a list of published articles.
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Articles
39
Citations
93
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Recent Articles
1.
Chang Y, Huang C, Chang J, Lee D
J Environ Manage
. 2024 Dec;
373():123577.
PMID: 39657478
Conventional drinking waterworks generally disregard the manganese removal efficiencies. For the first time, this study demonstrates the potential of ClO-modified activated carbon for efficient Mn removal from raw water. The...
2.
Hua L, OuYang R, Zhao Z, Nguyen T, Huang C
Water Res
. 2024 Aug;
265:122265.
PMID: 39173357
Removal of Mn(II) is an essential step for addressing water discoloration in water treatment utilities worldwide. However, conventional chlorination suffers from poor oxidation of Mn(II) due to its low homogeneous...
3.
Tsai M, Chao S, Luo C, Hua L, Hu C, Mahata B, et al.
Chemosphere
. 2024 Mar;
355:141835.
PMID: 38552799
This study provides insights regarding the selective metal leaching of brass in various tap water conditions, which benefits water utilities to predict the potential of metal released from brass water...
4.
Tsai M, Chao S, Chung K, Hua L, Huang C
Sci Total Environ
. 2023 Feb;
872:162254.
PMID: 36801318
Nanoplastics (NPs) discharged from wastewater could pose a major threat to organisms in aquatic environments. Effective removal of NPs by the current conventional coagulation-sedimentation process is not yet satisfactory. This...
5.
Chao S, Huang C, Lam C, Hua L, Chang S, Huang C
Ecotoxicol Environ Saf
. 2021 Sep;
225:112759.
PMID: 34500387
This study aimed to investigate the transformation of copper oxide nanoparticles (CuO NPs) in aquatic environments under different ionic strength and further examine its effects on copper toxicity and bioaccumulation...
6.
Hua L, Tsia S, Ngo D, Huang C
Sci Total Environ
. 2021 Jul;
795:148772.
PMID: 34247079
Due to the negative impact of climate change and anthropogenic activities, bromide intrusion into algae-impacted freshwater becomes a new challenge for safe drinking water supply worldwide, as bromide and algal...
7.
Huang W, Lee D, Huang C
Bioresour Technol
. 2020 Sep;
319:124100.
PMID: 32950819
Biochars are the solid product of biomass under pyrolysis or gasification treatment, whose wholesale prices are lower than commercial activated carbons and other fine materials now in use. The employment...
8.
Hua L, Chao S, Huang K, Huang C
Sci Total Environ
. 2020 Jun;
727:138638.
PMID: 32498213
Disinfection by-products (DBPs) formed upon water treatment is an emerging issue worldwide. While monitoring of DBP precursors can easily be achieved for high specific UV absorbance (SUVA) organic (>6 L/mg·m),...
9.
Lu J, Chen C, Huang C, Lee D
Bioengineered
. 2020 Feb;
11(1):272-280.
PMID: 32100613
The effects of adding biochar rice husk (R), white popinee (WP), bamboo (BB), or coconut (CT) on microbial community in fermentation broths from glucose were investigated. The added biochars acted...
10.
Lu J, Chen C, Huang C, Leu S, Lee D
Bioresour Technol
. 2020 Feb;
303:122933.
PMID: 32037192
The aim of this work was to study sequential batch fermentation of glucose with a biological consortium amended with nine different biochars or with an activated carbon. The glucose fermentation...