近期主要学术论文:
[1] Mengni Tao, Yu Kong, Shiwei Cao, Zhaoqian Jing*, Lin Guan, Qiusheng Jia, Yu-You Li. Constructed wetland – microbial fuel cell (CW-MFC) packed with suspended fillers to enhance denitrification with Acorus calamus biomass addition. Chemical Engineering Journal, 2024, 487, 150753
[2] Mengni Tao, Yu Kong, Zhaoqian Jing*, Lin Guan, Qiusheng Jia, Yiwei Shen, Meijia Hu, YuYou Li. Acorus calamus recycled as an additional carbon source in a microbial fuel cell - constructed wetland for enhanced nitrogen removal. Bioresource Technology, 2023, 384, 129324
[3] Mengni Tao, Yu Kong, Zhaoqian Jing*, Lin Guan, Qiusheng Jia, Yiwei Shen, Meijia Hu. Corncobs addition enhances the nitrogen removal in a constructed wetland for the disposal of secondary effluent from wastewater treatment plants. Journal of Water Process Engineering, 2023, 56, 104467
[4] Mengni Tao, Yu Kong, Zhaoqian Jing*, Qiusheng Jia, Zhengkai Tao, Yu-You Li. Denitrification performance, bioelectricity generation and microbial response in microbial fuel cell – constructed wetland treating carbon constraint wastewater. Bioresource Technology, 2022, 363, 127902
[5] Mengni Tao, Zhaoqian Jing*, Zhengkai Tao, Hui Luo, Simin Zuo, Yu-You Li. Efficient nitrogen removal in microbial fuel cell–constructed wetland with corncobs addition for secondary effluent treatment. Journal of Cleaner Production, 2022, 332, 130108
[6] Mengni Tao, Zhaoqian Jing*, Zhengkai Tao, Hui Luo, Simin Zuo. Improvements of nitrogen removal and electricity generation in microbial fuel cell-constructed wetland with extra corncob for carbon-limited wastewater treatment. Journal of Cleaner Production, 2021, 297, 126639
[7] Mengni Tao, Lin Guan, Zhaoqian Jing*, Zhengkai Tao, Yue Wang, Hui Luo, Yin Wang. Enhanced denitrification and power generation of municipal wastewater treatment plants (WWTPs) effluents with biomass in microbial fuel cell coupled with constructed wetland. Science of the Total Environment, 2020, 709, 136159
[8] Zhengkai Tao, Zhaoqian Jing*, Mengni Tao, Yu Kong, Lin Guan, Qiusheng Jia. A novel filtertype constructed wetland for secondary effluent treatment: Performance and its microbial mechanism. Bioresource Technology, 2023, 380,129075
[9] Zhengkai Tao, Zhaoqian Jing*, Mengni Tao, Renjie Chen. Recycled utilization of ryegrass litter in constructed wetland coupled microbial fuel cell for carbon-limited wastewater treatment, Chemosphere, 2022, 302, 134882
[10] Yuting Ma, Yutong Li, Mengni Tao, Shiwei Cao, Zhaoqian Jing*. Study on the treatment of rural sewage with microbial fuel cell-constructed wetlands enhanced by agricultural biomass, Journal of Water Process Engineering, 2024, 68, 106407
[11] Zhengkai Tao, Zhaoqian Jing*, Yin Wang, Mengni Tao, Hui Luo. Higher nitrogen removal achieved in constructed wetland with polyethylene fillers and NaOH-heating pre-treated corn stalks for advanced treatment of low C/N sewage. Environmental Science and Pollution Research, 2021, 28(11), 13829-13841
[12] Zhengkai Tao, Zhaoqian Jing*, Mengni Tao, Hui Luo, Yin Wang. Advanced treatment of sewage plant effluent by horizontal subsurface flow constructed wetlands: effect of coupling with cellulosic carbon sources. Desalination and Water Treatment, 2020, 189, 53-56
[13] Hui Luo, Lin Guan, Zhaoqian Jing*. Influence of filter layer positions and hydraulic retention time on removal of nitrogen and phosphorus by porous asphalt pavement.Water Science & Technology,DOI: 10.2166/wst.2020.110
[14] Xie Tingyu, Jing Zhaoqian*, Hu Jing, Yuan Peng, Liu Yali, Cao Shiwei, Degradation of nitrobenzene-containing wastewater by a microbial-fuel-cell-coupled constructed wetland. Ecological Engineering, 2018,112, 65-71
[15] Dai Zheqin, Lu Xiwu*, Jing Zhaoqian, Nitrogen and phosphorus removal processes under different aeration strengths in the principal-type tank of alternate multiple tanks system and process control. Environmental technology, 2017: 1-10)
[16] Jing, Zhaoqian*,Peng, Yingyan,He, Rui,Xu, Yan,Yu, Ting,Hu, Jing,Poplar leaves reclamation for porous granules and their application in nitrobenzene removal from aqueous solution,Desalination and Water Treatment, 2016, 57(1):449-458
[17] Zhaoqian Jing*,Rui He,Yong Hu,Qigui Niu,Shiwei Cao,Yu-You Li,Practice of integrated system of biofilter and constructed wetland in highly polluted surface water treatment,Ecological Engineering, 2015, 75:462-469
[18] Jing Zhaoqian*, Li Yu-You*, Cao Shiwei, Liu Yuyu. Performance of double-layer biofilter packed with coal fly ash ceramic granules in treating highly polluted river water. Bioresource Technology, 2012,120, 212-217
[19] Jing Zhaoqian, Hu Yong, Niu Qigui, Liu Yuyu, Li Yu-You*, Wang Xiaochang C. UASB performance and electron competition between methane-producing archaea and sulfate-reducing bacteria in treating sulfate-rich wastewater containing ethanol and acetate. Bioresource Technology, 2013,137, 349-357
[20] Cao Shiwei*, Jing Zhaoqian, Yuan Peng, Wang Yue, Wang Yin.Performance of constructed wetlands with different substrates for the treated effluent from municipal sewage plants. Journal of Water Reuse and Desalination, 2019, 9(4):452-462
[21] Jingru Du,Yong Hu,Weikang Qi,Yanlong Zhang,Zhaoqian Jing,Michael Norton,Yu-You Li*,Influence of four antimicrobials on methane-producing archaea and sulfate-reducing bacteria in anaerobic granular sludge,Chemosphere,2015, 140:184-190
[22] Niu Qigui,Kubota Kengo,Qiao Wei,Jing Zhaoqian,Zhang Yanlong,Li Yu-You*,Effect of ammonia inhibition on microbial community dynamic and process functional resilience in mesophilic methane fermentation of chicken manure,Journal of Chemical Technology and Biotechnology, 2015, 90(12): 2161-2169
[23] Hu Yong,Jing Zhaoqian,Sudo Yuta,Niu Qigui,Du Jingru,Wu Jiang,Li Yu-You*,Effect of influent COD/SO42− ratios on UASB treatment of a synthetic sulfate-containing wastewater,Chemosphere, 2015, 130(130):24-33
[24] Wang Zheng*, Jing Zhaoqian, Cheng Lili, Shen Wei, Kong Yu. Adsorption of Cr (VI) by Attapulgite-Zeolite composite ceramisite from aqueous solution. Research Journal of Chemistry and Environment, 2009,13(4): 13-17
[25] Liu Yali*, Kang Xiaorong, Li Xin, Wang Zheng, Jing Zhaoqian. Performance and mechanism of sludge dewaterability enhanced by potassium ferrate pretreatment and calcium chloride addition. Journal of Water Reuse and Desalination,2017,7(2): 136-141
[26] Chen Lei*, Wang Zheng, Jing Zhaoqian,Wang Zhulai, Cao Shiwei, Yu Ting. Accumulation and Risk of Triclosan in Surface Sediments Near the Outfalls of Municipal Wastewater Treatment Plants. Bulletin of Environmental Contamination and Toxicology,2015,95(4): 525-529
[27] 刘明辉,丁陈龙,朱敏,李仪,吴俊康*,荆肇乾,余冉. 温度及外源CaCO3对砂滤微生物氨氮降解的影响特性.中国环境科学, 2023, 43(9):4896-4904
[28] 陶正凯,荆肇乾*,王郑.纳米纤维素材料在重金属废水治理中的应用.材料导报, 2023, 37(6):210-217
[29] 陶梦妮,陶正凯,王印,王玥,谢婷玉,荆肇乾*. 人工湿地复合生物燃料电池强化脱氮研究. 应用化工, 2018, 47(10): 2212-2216
[30] 王玥,秦帆,唐燕华, 陈治, 黄亚楠, 荆肇乾*. 农业废弃物作为反硝化脱氮外加碳源的研究.林业科技开发, 2019, 4(5):146-151
[31] 骆辉, 管凛, 荆肇乾*, 胡小波, 章泽宇,王印. 路面径流生态阻控技术研究——以改性麦饭石透水沥青路面为例. 环境科学学报, 2019, 39(10): 3458-3468
[32] 陈仁杰,谢禹,荆肇乾*.污水新型生物脱氮强化技术研究进展. 应用化工, 2020, 49(8) : 2075-2079
[33] 陈忱, 骆辉, 曹馨月,荆肇乾*. 不同改性沸石强化去除雨水径流氮磷机制. 净水技术, 2020, 39(6): 141-149
[34] 陈帅全, 张驰, 王印,荆肇乾*. 碱热处理生物质碳源材料比选研究. 森林工程, 2020, 36 (5): 99-105
[35] 曹馨月,骆辉,陈忱,王重皓,丁子杰,荆肇乾..生物滞留系统生态削减路面径流污染技术.净水技术, 2020, 39(6):150-157
[36] 陈仁杰,荆肇乾*,谢禹,等.污水生物强化磷回收技术研究.应用化工, 2021, 50(5):1377-1381
[37] 陶正凯,陶梦妮,王印,左思敏,荆肇乾*.NaOH改性玉米秸秆强化尾水脱氮特性研究.林业工程学报, 2019,4(6):91-97
[38] 陶正凯,管凛,荆肇乾, 蒋欣彤,陶梦妮,左思敏..人工湿地处理含抗生素水的微生物响应研究进展[J].水处理技术, 2021,47(9):12-17+31
授权专利:
1. 发明专利:一种利用道路雨水培养植物美化道路的装置, ZL201811301298.4
2. 发明专利:单污泥反硝化除磷脱氮装置及方法, ZL200910030057.5
3. 发明专利:一种吸附可生物降解污染物饱和的活性炭再生系统及方法, ZL201810481167.2
4. 发明专利:一种电絮凝、磁絮凝及多级氧化一体化的污水处理系统及方法, ZL201810676396.X
5. 发明专利:一种电絮凝、磁絮凝及磁分离一体化的污水处理装置及方法, ZL201810676398.9
6. 发明专利:具有自我保护效应的多功能TiO2固定膜催化剂制备方法, ZL201210169979.6
7. 发明专利:填料组合式生物转盘片, ZL200510038212.X
8. 发明专利:立体型生态浮床及其净水方法, ZLCN200510123145.1
9. 发明专利:厌氧跌水充氧人工湿地组合污水除磷脱氮方法, ZL200510123147.0
10. 发明专利:多点交替进水活性污泥除磷脱氮方法, ZL200510123146.6
11. 发明专利:一种太阳能固定膜双层薄板光催化氧化水处理装置, ZL201110061859.X
12. 发明专利:组合式自回流脱氮生物转盘, ZL 200510037863.7
