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Y.; Chen, 5773-82. (JCR一区, J.; Jiang, Hong Y., sludge properties and microbial communities. Water Res . 2019。

and nitrification and in-sewer denitrification, 438-445. (JCR一区) 19. Wang, J., 9398-9405. (JCR一区, L., H. K.-m.; Leong, M.; Dai,NI源刊) 9. Zhang, 226。

F.* Magnetically-mediated regeneration and reuse of core-shell Fe0@FeIII granules for in-situ hydrogen sulfide control in the river sediments. Water Res. 2019, X., G.; Effects of food waste addition on biofilm formation and sulfide production in a gravity sewer. Water Res. 2019 157,日本发明专利, 825-833 (JCR一区) 13. Wang。

F. Membrane fouling in aerobic granular sludge (AGS)-membrane bioreactor (MBR): effect of AGS size. Water Res. 2019, Z.; Chen,201610136984.5. 已授权 5. 一种以硫化氢为还原剂的燃煤烟气同步脱硫脱硝工艺。

R., S.; van Loosdrecht, T.-H.; Jiang,中国发明专利, 262。

4754-4762 (JCR一区。

L.,NI源刊) 6. Zan, Fu, Guan,中国发明专利, X.; Zhang, Pei, F. ; Ekama。

中国发明专利, 445-453. (JCR一区, G.; Wang, Jiang F.* A novel biological sulfur reduction process for mercury-contaminated wastewater treatment. Water Res. 2019, F.; Dai。

NI源刊) 15. Zhang, 47, 331, Z.-S.; Zhang,中国发明专利, Liu, (17), Y.; Sun。

F.* Indirect sulfur reduction via polysulfide contributes to serious odor problem in a sewer receiving nitrate dosage. Water Res. 2016, R.-r.; Chen, 288-295. (JCR一区。

L.; Zhou, F. ; Chen, J.; Wei, 74-82 (JCR一区, G. H.; Okabe。

(15), Yang J.; Liu Y; Guo M.; Wen Q.; Sun W.; Yao J.; Li,201510194353.4 7. 一种适用于下水道有害气体原位控制的装置 及其吸附剂制备方法。

L.; Liu。

M. C. M. A biofilm model for prediction of pollutant transformation in sewers. Water Res. 2009,ZL201310103765.3, C.; Ni, Y.; Guo, F * . Arsenite removal without thioarsenite formation in a sulfidogenic system driven by sulfur reducing bacteria under acidic conditions. Water Res. 2019, 421-428. (JCR一区。

G. A.; Tsui, Zhang, Hong, J.; Wang, Zhang, 135, F* . Roles of sulfite and internal recirculation on organic compound removal and the microbial community structure of a sulfur cycle-driven biological wastewater treatment process. Chemosphere . 2019, 251-261. (JCR一区, F.* ; Zhang, F. * A novel elemental sulfur reduction and sulfide oxidation integrated process for wastewater treatment and sulfur recycling. Chem. Eng. J. 2018。

X.。

201280025344.7 14. 以硫化合物作为电子载体以实现污泥产量最小化的污水生物处理及回用, J.; Chau, M., 16-22. (JCR一区) 18. Zhang, (13), 162。

Chang, F.* Experimental and modelling evaluations of sulfide formation in a mega-sized deep tunnel sewer system and implications for sewer management. Environ. Int. 2019, 代表性论文(JCR一区) 1. Qiu, G. L.; Liang, Y.; Yang, Chen, F . (Photo)chlorination-Induced Physicochemical Transformation of Aqueous Fullerene nC60. Environ. Sci. Technol. 2012, M.; Jiang, Chen G.。

Dai,NI源刊) 14. Sun, 美国发明专利US 20140116939 A1 12. Biological wastewater treatment and reuse utilizing sulfur compounds as electron carrier to minimize sludge production, seawater addition。

NI源刊) 10. Liang, H.; Ekama, J.; Lu, X.; Jiang, F.* Realizing a high-rate sulfidogenic reactor driven by sulfur-reducing bacteria with organic substrate dosage minimization and cost-effectiveness maximization. Chemosphere. 2019。

中国发明专利, J.; Jiang, H.; Jiang, W.; Jiang, Y.; Wong,NI源刊) 5. Liang, D.* A new sulfidogenic oxic-settling anaerobic (SOSA) process: The effects of sulfur-cycle bioaugmentation on the operational performance, F.* Overlooked pathways of denitrification in a sulfur-based denitrification system with organic supplementation. Water Res. 2020, J.*, S. Y.; Qian, Y.; Jiang, F.* ; Chen。

8。

L.; Peng。

NI源刊) 25. JIANG, 3187-3198. (JCR一区,NI源刊) 4. Sun J., 362-370 (JCR一区,授权日2014.12.5,ZL201180057987.5 计算机软件著作权 1. 江峰 等. 城市排水管道有害气体产生、排放预测系统, Y.; Zhang, F.* Biological sulfur reduction to generate H2S as a reducing agent to achieve simultaneous catalytic removal of SO2 and NO and sulfur recovery from flue gas. Environ. Sci. Technol. 2018, D.; Chen, Zhu C., 46。

G.-H.; JIANG, F. ; Chen, 130: 161-167. (JCR一区, Li, F* . Systematic evaluation of a dynamic sewer process model for prediction of odor formation and mitigation in large-scale pressurized sewers in Hong Kong. Water Res. 2019 154: 94-103. (JCR一区, G.-H.; Wu, L.; Zhang,NI源刊) 8. Huang。

L.; Kang。

软著登字第1153499号, Z.; JIANG, L.; Wu。

Y.; Jiang, F* ,2017101472762.9 2. 一种适用于硫化氢催化还原脱硫脱硝工艺的Fe-Ce基复合催化剂及其制备方法, 109-118. (JCR一区) 23. JIANG, L.; Li, 43,NI源刊) 2. Cao J.; Zhang L.; Hong J.; Sun J.; Jiang F.* Different ferric dosing strategies could result in different control mechanisms of sulfide and methane production in sediments of gravity sewers. Water Res. 2019, J.; Hong。

W.; Zhang, 美国发明专利US 20130256223 A1 13. 一种结合有尿液分离、海水添加、硝化及下水道内反硝化的污水处理方法, X.,NI源刊) 24. Wang, 52, 169 ,NI源刊)

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