Assoc Prof Dr. Ying Huang | Resource Recycle Technique | Best Researcher Award

PHD at Kyoto University, Japan

Professional Profiles

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Education

Doctor of Engineering: Kyoto University, Department of Environmental Engineering (Japan), Apr. 2000 – Sep. 2003 Master: Southeast University, Department of Environmental Engineering (China), Sep. 1996 – Oct. 1998 Bachelor: Southeast University, Department of Environmental Engineering (China), Sep. 1992 – July. 1996

Professional Background

Associate Professor: Department of Environmental Science and Engineering, School of Energy and Environment, Southeast University, China (Apr. 2009 – present) Japan Science Promotion Society Fellow: National Institute of Advanced Industry Science and Technology (AIST), Japan (Oct. 2007 – Aug. 2009) Postdoctor Researcher: Department of Environmental Management, National Institute of Advanced Industry Science and Technology (AIST), Japan (Apr. 2006 – Sep. 2007) Postdoctor Researcher: Centre of Material Cycles and Waste Management Research, National Institute of Environment Science, Japan (Aug. 2003 – Mar. 2005)

Academic Achievements

Ying Huang is the Director and Discipline Leader of the Solid Waste Treatment and Resource Recycle Laboratory at Southeast University. She is an Academic Committee member of the International Society for Waste Management and recognized as a New Century Talent by the Ministry of Education of China. Huang has published nearly 100 academic and conference papers, serves as a Guest Editor for the SCI Magazine “Separations,” and is a reviewer for multiple SCI journals. Her notable contributions include developing sludge chemical conditioning and deep dewatering technology, significantly advancing sludge treatment standards in China.

Research Focus

Ying Huang focuses on environmental engineering, particularly in solid waste treatment and resource recycling. Her research encompasses sludge treatment technologies, including chemical conditioning and deep dewatering, and the recycling of resources like oil sludge and rare metals. Huang investigates the efficiency of coagulants in sludge conditioning and the stabilization of heavy metals. Her work also includes studies on nutrient removal and sludge reduction through microbial communities. She has contributed significantly to developing and optimizing waste treatment processes, publishing extensively in high-impact journals and securing numerous patents in these areas.

Publications

1. Plasma- assisted liquid-based growth of g-C3N4/Mn2O3 p-n heterojunction with tunable valence band for photoelectrochemical application, Publication date: 2024.
2. Plasma synthesis of K-doped amorphous carbon nitride with passivated trap states for enhanced photocatalytic H2O2 production,Publication date: 2023.
3. Solvent Extraction of Dy(III) and Nd(III) with an Unsymmetrical Pentanediamide Extractant, Publication date: 2023.
4. Combination of sequencing batch reactor activated sludge process with sludge lysis using thermophilic bacterial community for minimizing excess sludge, Publication date: 2023.
5. Near-infrared light-activated g-C3N4 with effective n → π* electron transition for H2O2 production, Publication date: 2023.
6. Sludge lysis by thermophilic bacteria community enhances nutrient removal, sludge reduction, and modulates microbial community in anaerobic-anoxic-oxic process, Publication date: 2023.
7. Investigation of lysing excess sludge slurry using hydrolase secreting thermophilic bacterial communities, Publication date: 2024.
8. Sludge deep dewatering by liquefied dimethyl ether: selection of operating conditions based on response surface methodology, Publication date: 2024.
9. Research on enhancing sewage sludge lysis and bioreactor initiation through composite thermophilic strains, Publication date: 2024.