Can-Guang Zeng scite author profile

In this study, a novel aerated surface flow constructed wetland (SFCW) using exhaust gas from biological wastewater treatment was investigated. Compared with un-aerated SFCW, the introduction of exhaust gas into SFCW significantly improved NH-N, TN and COD removal efficiencies by 68.30 ± 2.06%, 24.92 ± 1.13% and 73.92 ± 2.36%, respectively. The pollutants removal mechanism was related to the microbial abundance and the highest microbial abundance was observed in the SFCW with exhaust gas because of the introduction of exhaust gas from sequencing batch reactor (SBR), and thereby optimizing nitrogen transformation processes. Moreover, SFCW would significantly mitigate the risk of exhaust gas pollution. SFCW removed 20.00 ± 1.23%, 34.78 ± 1.39%, and 59.50 ± 2.33% of HS, NH and NO in the exhaust gas, respectively. And 31.32 ± 2.23% and 32.02 ± 2.86% of bacterial and fungal aerosols in exhaust gas were also removed through passing SFCW, respectively.

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OC-0333: Long-term outcomes of radical radiotherapy with a simultaneous integrated boost in esophageal cancer

Luo¹,

Chen²,

Guo³

et al. 2020

Radiotherapy and Oncology

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Evaluation of staging agreement between CTNM and PTNM for lung cancer

Teihua

Huang

et al. 1995

Chinese Journal of Cancer Research

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Can-Guang Zeng

Elemental sulfur-driven autotrophic denitrification for advanced nitrogen removal from mature landfill leachate after PN/A pretreatment

A novel aerated surface flow constructed wetland using exhaust gas from biological wastewater treatment: Performance and mechanisms

OC-0333: Long-term outcomes of radical radiotherapy with a simultaneous integrated boost in esophageal cancer

Evaluation of staging agreement between CTNM and PTNM for lung cancer

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