冯帆
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2023.10-至今 宁夏大学 9001cc金沙以诚为本 讲师
水污染控制/生物脱氮/厌氧氨氧化/环境微生物/微生物-矿物相互作用
(1)国家自然科学基金委员会,联合基金项目,U21A20294,氮磷多途径原位成矿阻控农田镉污染的基础研究,2022-01-01 至 2025-12-31,260万元,在研,参与。本人主要负责微生物驱动氮磷原位成矿作用机制的研究。
(2)国家自然科学基金委员会,面上项目,51878662,多途径电子传递强化厌氧氨氧化脱氮除Cr(VI)的机理研究,2019-01-01 至 2022-12-31,60万元,结题,参与。本人主要负责厌氧氨氧化系统Cr(VI)还原的胞外电子传递途径解析。
[1] Fan Feng, Zhi-Gong Liu, Xi Tang, Xing Wu, Cai-Yan Qu, Seow Wah How, Di Wu, Rui-Yang Xiao, Chong-Jian Tang*, Zhang Lin, Li-Yuan Chai, Guang-Hao Chen. Dosing with pyrite significantly increases anammox performance: its role in the electron transfer enhancement and the functions of the Fe-N-S cycle[J]. Water Research, 229 (2023) 119393. (SCI, IF= 13.400)
[2] Fan Feng, Cai-Yan Qu, Jia Tang, Xing Wu, Xi Tang, Fu-Bing Yao, Li-Yuan Chai, Rui-Yang Xiao, Chong-Jian Tang*. Quantification of enhanced nitrogen removal pathways of pyrite interaction with anammox sludge system[J]. Chemical Engineering Journal, 2023,459:141519. (SCI, IF= 16.744)
[3] Fan Feng, Cai-Yan Qu, Zhi-Gong Liu, Xing Wu, Xi Tang, Chong-Jian Tang*, Li-Yuan Chai. How pyrite interacts with anammox: mechanisms and application[J]. ACS ES&T Water, 2022,2,4:495-507.(SCI, IF= 5.3)
[4] Fan Feng, Xi Tang, Cai-Yan Qu, Xuan Lu, Zhi-Gong Liu, Jia Tang, Chong-Jian Tang*, Li-Yuan Chai. Hydroxylamine addition enhances fast recovery of Anammox activity suffering Cr(VI) inhibition[J]. Bioresource Technology, 2021,329(2021):124920. (SCI, IF= 11.889)
[5] Fan Feng, Cheng-Shan Duan, Xi Tang, Xi Chen, Xuan Lu, Xi-Lin Chai, Qaisar Mahmood, Chong-Jian Tang*, Li-Yuan Chai. Performance, microbial community and inhibition kinetics of long-term Cu2+ stress on an air-lift nitritation reactor with self-recirculation[J]. Journal of Environmental Sciences, 2020,91:117-127. (SCI, IF= 6.796)
[6] Fan Feng, Zhi-Gong Liu, Yu-Xia Song, Chu-Kuan Jiang, Xi-Lin Chai, Chong-Jian Tang⁎, Li-Yuan Chai. The application of aged refuse in nitrification biofilter: Process performance and characterization. Science of the Total Environment, 2019. 657(2019): 1227-1236. (SCI, IF= 10.754)
[7] 填充矿化状垃圾填埋物的短程反硝化−厌氧氨氧化反应器处理低 C/N 氨氮废水[J].环境工程学报,2022, 16(2):1-12.
[8] 长期饥饿下厌氧氨氧化反应器的启动与恢复性能[J].环境科学, 2024, 45(7): xxx
[1] Yue Wang, Jiawei Li, Fan Feng, Caiyan Qu, Chongjian Tang, Qingwei Wang, Wenchao Zhang*, Xu Yan*, Zhang Lin. Unveiling the role of pore characteristics in sludge dewatering: Visualization by Nano-CT and micromodel study[J]. Water Research, 2024, 252: 121191.
[2] Jiahui Wu, Meiqing Shi*, Fan Feng, Junting Hao, Di Zhao, Xinya Wang, Jiawei Li, Wenchao Zhang, Qingwei Wang, Yong Ke, Xu Yan*, Zhang Lin, and Liyuan Chai*. Recent Advances in Magnetite Crystallization: Pathway, Modulation, and Characterization. Crystal Growth and Design, 2023, 23(8): 6201–6218
[3] Wu, Xing, Liu, Zhigong, Gao, Tianyu, Li, Zhizhuo, Song, Zhenhui), Tang, Jia, Feng, Fan, Qu, Caiyan, Yao, Fubing*, Tang, Chongjian*. Boosting Electrocatalytic Reduction of Nitrate to Ammonia over Co3O4 Nanosheets with Oxygen Vacancies[J]Metals, 2023, 13(4): 799.
[4] Cai-Yan Qu, Lu-Shan Li, Fan Feng, Kai-Nian Jiang, Xing Wu, Mu-Chuan Qin, Jia Tang, Xi Tang, Rui-Yang Xiao, Di Wu, Chong-Jian Tang*. Enhancement of extracellular Cr(VI) reduction for anammox recovery using hydrazine: performance, pathways, and mechanism[J]. Frontiers of Environmental Science & Engineering, 2023,17(9):115.
[5] Caiyan Qu, Fan Feng, Jia Tang, Xi Tang*, Di Wu*, Ruiyang Xiao, Xiaobo Min, Chong-Jian Tang.* A review of quorum sensing regulating heavy metal resistance in anammox process: Relations, mechanisms and prospects[J]. Critical Reviews in Environmental Science and Technology, 2023,54(5):369-384.
[6] Chu-Kuan Jiang, Xi Tang, Fan Feng, Jiang-Wei Zhao, Zhi-Gong Liu, Cai-Yan Qu, Keshab K. Adhikary, Di Wu, Chong-Jian Tang*. Distinct membrane fouling characteristics of anammox MBR with low NO2−-N/NH4+-N ratio[J]. Science of The Total Environment, 2022, 817:152994.
[7] Caiyan Qu, Chengshan Duan, Weimin Li, Xing Wu, Zhigong Liu, Fan Feng, Xi Tang*, Xilin Chai, Chong-Jian Tang*. Understanding the slight inhibition of high As(III) stress on nitritation process: Insights from arsenic speciation and microbial community analyses[J]. Journal of Hazardous Materials, 2022, 435, 128957
[8] Chong-Jian Tang, Xi Chen, Fan Feng, Zhi-Gong Liu, Yu-Xia Song, Yun-Yan Wang, Xi Tang*. Roles of bacterial cell and extracellular polymeric substance on adsorption of Cu(II) in activated sludges: A comparative study[J]. Journal of Water Process Engineering, 2021, 41, 102094.
[9] Zhi-Gong Liu, Xiao-Bo Min, Fan Feng, Xi Tang, Wan-Chao Li, Cong Peng, Tian-Yu Gao, Xi-Lin Chai, Chong-Jian Tang*. Development and simulation of a struvite crystallization fluidized bed reactor with enhanced external recirculation for phosphorous and ammonium recovery[J]. Science of The Total Environment, 2021, 760, 144311.
[10] Yu-Xia Song, Ali M, Fan Feng, Xi-Lin Chai, Shuo Wang, Yun-Yan Wang, Chong-Jian Tang*. Performance of a high-rate anammox reactor under high hydraulic loadings: Physicochemical properties, microbial structure and process kinetics[J]. Journal of Central South University, 2020,27(4): 1197-1210.
[11] Chong-Jian Tang, Lin Zhang, Fan Feng, Lei Xiong, Qaisar Mahmood, Wei-Zhi Zeng, Xi-Lin Chai, Yun-Yan Wang*. Long-term domestication to Mn stresses alleviates the inhibition on anammox process[J]. Water Environment Research, 2020, 92(11), 1966-1974.
[12] Hao Tan, Yunyan Wang, Xi Tang, Lushan Li, Fan Feng, Qaisar Mahmood, Di Wu, Chong-Jian Tang*. Quantitative determination of cavitation formation and sludge flotation in Anammox granules by using a new diffusion-reaction integrated mathematical model[J]. Water Research, 2020, 174:115632.
[13] Cheng Yu, Lu-Shan Li, Chu-Kuan Jiang, Xi Tang, Fan Feng, Jia Tang, Chong-Jian Tang⁎, Li-Yuan Chai. Insights into Anammox activity inhibition under trivalent and hexavalent chromium stresses[J]. Biochemical Engineering Journal, 2019. 147: 118-125.
[14] Chu-Kuan Jiang, Xi Tang, Hao Tan, Fan Feng, Zhao-Meng Xu, Qaisar Mahmood, Weizhi Zeng, Xiao-Bo Min, Chong-Jian Tang*. Effect of scrubbing by NaClO backwashing on membrane fouling in anammox MBR[J]. Science of The Total Environment, 2019. 670(2019): 149-157.
[1] 唐崇俭, 冯帆, 柴立元, 等. 一种基于矿化填料的高效微生物菌团一体化脱氮装置. 中国:ZL 2017 1 0526514.4 [P]. 2023-03-14
[2] 柴喜林, 唐崇俭, 龙先辉, 冯帆, 姜楚宽. 基于GY-4型填料基质的垃圾渗滤液的处理方法。中国:ZL2019 1 0120635.8 [P]. 2022-02-08
[3] 柴喜林, 唐崇俭, 龙先辉, 冯帆. 一种用于处理垃圾渗滤液的填料基质及其应用. 中国:ZL2019 1 0120407.0 [P]. 2022-01-18
[4] 柴喜林, 唐崇俭, 柴立元, 冯帆. 快速高效启动并强化处理垃圾渗滤液的方法及系统. 中国:ZL2019 1 0123557.7 [P]. 2021-08-24
[5] 唐崇俭, 刘治功, 柴立元, 闵小波, 张林, 姜楚宽, 冯帆. 一种气液流化强化鸟粪石结晶成粒装置. 中国:ZL2017 1 0786075.0[P]. 2020-12-25
[6] 唐崇俭, 唐溪, 周倩, 柴立元, 闵小波, 柴喜林, 冯帆, 瞿才燕, 刘治功, 肖睿洋. 一种内碳源驱动的硝化反硝化污泥驯化处理方法. 中国:ZL2021 1 0242092.4[P]. 2022-06-21
[1] 唐崇俭, 冯帆, 柴立元, 等. 一种基于矿化填料的高效微生物菌团一体化脱氮装置. 中国:ZL 2017 2 0783641.8 [P]. 2018-03-27
[1] 唐崇俭, 谭浩, 唐溪, 柴立元, 闵小波, 程义, 王云燕, 冯帆, 刘治功. 一种评价厌氧氨氧化颗粒污泥上浮的方法. 中国:ZL2020 1 0130190.4[P]. 2023-06-02
[2] 唐崇俭, 姜楚宽, 闵小波, 柴立元, 冯帆, 刘治功, 张林. 一种厌氧反应器的进水装置及方法. 中国: CN2017 1 0801914.1[P]. 2017-11-24
[3] 唐崇俭, 刘治功, 闵小波, 柴立元, 唐溪, 林璋, 姚福兵, 吴星, 冯帆, 肖睿洋, 杨志辉, 王海鹰, 李青竹, 王庆伟. 含氨的重金属废水的测定方法. 中国: CN2022 1 0978152.3[P]. 2022-11-11
[4] 颜旭, 王月, 黎佳未, 李垦, 彭苏怡, 冯帆, 林璋, 唐崇俭, 王海鹰, 柯勇. 一种污泥脱水性能的微观定量化分析方法和系统. 中国: CN2021 1 1460477.4[P]. 2022-02-15
[1] 国家级,科技创新类项目《废水同步脱氮除铬技术》,第二届全国大学生冶金科技竞赛一等奖,2019.
[2] 国家级,科技创新类项目《短程硝化同步脱氮除砷技术》,第三届全国大学生冶金科技竞赛三等奖,2020.