G
Guanghao Chen
Researcher at Hong Kong University of Science and Technology
Publications - 343
Citations - 9777
Guanghao Chen is an academic researcher from Hong Kong University of Science and Technology. The author has contributed to research in topics: Sewage treatment & Denitrification. The author has an hindex of 45, co-authored 308 publications receiving 7062 citations. Previous affiliations of Guanghao Chen include Sun Yat-sen University & Chinese Academy of Sciences.
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Comparison of the cytotoxic responses of Escherichia coli (E. coli) AMC 198 to different fullerene suspensions (nC60).
TL;DR: This study investigates and compares the cell toxicity of different aqueous fullerene aggregates and found that the Tol/nC(60) suspension exhibited a cytoprotective role while the Aqu-N(2) and Aqu-O(2)/nC (60) suspensions enhanced the metabolism of E. coli.
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Life-Cycle-Based Greenhouse Gas, Energy, and Economic Analysis of Municipal Solid Waste Management Using System Dynamics Model
TL;DR: Wang et al. as mentioned in this paper conducted an evaluation that integrates system dynamics (SD) for identifying the interactions between social activities to predict future municipal solid waste (MSW) generation in the Southern Tai Lake watershed (STWL) area in China.
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Electrochemical pretreatment enhancing co-fermentation of waste activated sludge and food waste into volatile fatty acids: Performance, microbial community dynamics and metabolism.
Qingshan Lin,Xinlei Dong,Jinming Luo,Qian Zeng,Jie Ma,Zong-Sheng Wang,Guanghao Chen,Gang Guo +7 more
TL;DR: In this paper , an alternative electrochemical pretreatment (EPT) approach that can facilitate acidogenic fermentation of WAS and food waste (FW) and therefore enhance VFAs production was investigated.
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Formation and characterization of the micro-size granular sludge in denitrifying sulfur-conversion associated enhanced biological phosphorus removal (DS-EBPR) process.
TL;DR: The findings showed that the net P removal and denitrification efficiencies in DS-EBPR were 80% and 98%, respectively, and essential characterization information of DS- EBPR granular sludge can be used for future development.
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A new oxic-settling-anaerobic (NOSA®) activated sludge process for minimizing excess sludge in secondary biological treatment plants: a pilot-scale evaluation of the absorption–biodegradation process
TL;DR: Economic calculation suggests that the new process can dramatically upgrade the sludge reduction in wastewater treatment plants without a digestion device, and the investment for fundamental upgrading can be recovered in 5-6 years by cutting the costs of excess sludge dewatering and disposal treatment.