史经新
4
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最后更新时间:2024.5.13
史经新,博士,副教授,硕士生导师,“龙山学者”引进人才。主持江苏省青年基金1项,江苏省高校面上项目1项,南信大科研启动项目1项。重点参与项目包括:1)大唐集团阜新煤制天然气项目煤化工废水零排放设计调试;2)“十三五”国家重点研发计划《低阶煤分级分质清洁高效转化利用技术开发及示范》项目;3)“十三五”国家重点研发计划《煤转化废水近零排放及资源化关键技术研究与应用示范》项目。曾荣获高廷耀环保基金会“青年博士生杰出人才奖学金”等奖项。累计发表SCI论文30余篇,其中中科院一区SCI论文20余篇(高被引1篇),授权发明专利10余项。主要讲授本科课程:水工程施工、建筑给水排水工程。
史经新老师课题组主要研究方向:污废水生物处理技术和资源化利用;有毒难降解化合物强化生物降解技术研究;地下水生态修复技术研究。课题组氛围自由轻松,学术成果丰富,热烈欢迎有以上研究兴趣的研究生和本科生参与老师的研究课题,加入我们!课题组计划每年招收硕士生2名。
指导学生情况
硕士
万宁(研二,发表SCI论文4篇,其中一区3篇);黄伟良(研一,发表SCI论文一区1篇)
本科
王晨旭(大四,合作发表SCI论文一区1篇)
王佳慧(大二,发表SCI论文一区1篇);王亚蕊(大二,发表SCI论文一区1篇);杨帆(大二,发表SCI论文一区1篇)
张潇彤(大二,合作发表SCI论文一区1篇);张玄烨(大二,合作发表SCI论文一区1篇);周鹏程(大二,合作发表SCI论文一区1篇);黄宜晖(大二,合作发表SCI论文一区1篇)
近期主要论著:
论文
一作/通讯
2023
(32) Ning Wan, Jingxin Shi*, Pengcheng Zhou, Xiaotong Zhang, Xuanye Zhang, Yihui Huang, Jingchun Liu. Efficiency of submerged ceramic flat membrane bioreactor in the treatment of coal chemical wastewater. Journal of Water Process Engineering. 2023, 53, 103638.
(31) Jingxin Shi, Fan Yang, Yarui Wang, Jiahui Wang, Weiliang Huang, Jin Wang. A case study on application and commissioning of coal pyrolysis wastewater treatment project. Journal of Cleaner Production. 2023, 392, 136324.
(30) Jingxin Shi, Weiliang Huang, Ning Wan, Jin Wang. Effects of sodium acetate, glucose, and Chlorella powder as carbon source on enhanced treatment of phenolic compounds and NO2–-N in coal pyrolysis wastewater. Fuel. 2023, 339, 126974.
(29) 史经新,徐春艳,韩洪军。聚氨酯填料强化厌氧处理煤热解废水研究。中国给水排水. 2023. 39(7), 102-106.
2022
(28) Jingxin Shi, Ning Wan, Hongjun Han. Effects of methanol, sodium citrate, and chlorella powder on enhanced anaerobic treatment of coal pyrolysis wastewater. Environmental Pollution. 2022, 311, 119932.
(27) Jingxin Shi, Jin Wang, Ning Wan, Jie Qian, Shuai Li, Lang Xu, Chenxu Wang, Hongjun Han. Treatment of phenols and NH3–N with activated carbon and polyurethane carrier in biological enrichment reactor. Journal of Cleaner Production. 2022, 369, 133251.
(26) Jingxin Shi, Ning Wan, Lucheng Li, Zhenxuan Li, Hongjun Han. Review on treatment technologies of coal gasification wastewater in China. Journal of Cleaner Production. 2022, 333, 130166.
(25) Xiumin Li, Jinlan Xu, Xianxin Luo, Jingxin Shi*, Efficient adsorption of dyes from aqueous solution using a novel functionalized magnetic biochar: Synthesis, kinetics, isotherms, adsorption mechanism, and reusability. Bioresource Technology. 2022, 360, 127526.
(24) Xiumin Li, Jinlan Xu, Jingxin Shi*, Xianxin Luo. Rapid and efficient adsorption of tetracycline from aqueous solution in a wide pH range by using iron and aminoacetic acid sequentially modified hierarchical porous biochar. Bioresource Technology. 2022, 346, 126672.
(23) Xiumin Li, Jingxin Shi*. Simultaneous adsorption of tetracycline, ammonium and phosphate from wastewater by iron and nitrogen modified biochar: Kinetics, isotherm, thermodynamic and mechanism. Chemosphere. 2022, 293, 133574.
(22) Xiumin Li, Jingxin Shi*. Xianxin Luo. Enhanced adsorption of rhodamine B from water by Fe-N co-modified biochar: Preparation, performance, mechanism and reusability. Bioresource Technology. 2022, 343, 126103.
2021
(21) Jingxin Shi, Yuxing Han, Hongjun Han. Pollution control of wastewater from the coal chemical industry in China: environmental management policy and technical standards. Renewable & Sustainable Energy Reviews. 2021.143, 110883.(高被引SCI, 14.982/一区TOP)
2020
(20) Jingxin Shi, Yuxing Han, Chunyan Xu, Hongjun Han. Enhanced anaerobic degradation of nitrogen heterocyclic compounds with methanol, sodium citrate, chlorella, spirulina, and carboxymethylcellulose as co-metabolic substances. Journal of Hazardous Materials. 2020, 121496.(SCI, 10.588/一区TOP)
(19) Jingxin Shi, Yuxing Han, Chunyan Xu, Hongjun Han. Enhanced anaerobic degradation of quinoline and indole with dried Chlorella pyrenoidosa powder as co-metabolic substance. Journal of Cleaner Production. 2020. 285. 124909.(SCI, 9.297/一区TOP)
(18) Jingxin Shi*, Yuxing Han, Hongjun Han. The concept of anaerobic hydrolysis to produce clean and stable energy from the case study of utilization of three types of pollutants in coal pyrolysis wastewater. Bioresource Technology. 2020.(SCI, 9.642/一区TOP)
(17) Jingxin Shi, Chunyan Xu, Yuxing Han, Hongjun Han. Enhanced anaerobic degradation of quinoline and indole with the coupling of sodium citrate and polyurethane. Environmental Technology. 2020(SCI, 2.213/四区)
(16) Mengqi Zheng, Jingxin Shi, Chunyan Xu. Ecological and functional research into microbiomes for targeted phenolic removal in anoxic carbon-based fluidized bed reactor (CBFBR) treating coal pyrolysis wastewater (CPW). Bioresource Technology. 2020, 308, 123308.(共同一作. SCI, 7.539/一区TOP)
(15) Mengqi Zheng, Jingxin Shi, Chunyan Xu. Insights into electroactive biofilms for enhanced phenolic degradation of coal pyrolysis wastewater (CPW) by magnetic activated coke (MAC): Metagenomic analysis in attached biofilm and suspended sludge. Journal of Hazardous Materials. 2020, 122688.(共同一作. SCI, 9.038/一区TOP)
(14) Jingxin Shi, Yuxing Han, Chunyan Xu, Hongjun Han. Enhanced biodegradation of quinoline and indole with a novel symbiotic system of Polyurethane-chlorella-bacteria. Journal of Water Process Engineering. 2020.(SCI, 5.485/二区)
(13) Jingxin Shi, Chunyan Xu, Hongjun Han. Review on treatment technology of salt wastewater in coal chemical industry of China. Desalination. 2020.(SCI, 9.501/一区TOP)
2019
(12) Jingxin Shi, Chunyan Xu, Yuxing Han, Hongjun Han. Enhanced anaerobic biodegradation efficiency and mechanism of quinoline, pyridine, and indole in coal gasification wastewater. Chemical Engineering Journal. 2019, 361: 1019-1029.(SCI, 10.652/一区TOP)
(11) Jingxin Shi, Yuxing Han, Chunyan Xu, Hongjun Han. Anaerobic bioaugmentation hydrolysis of selected nitrogen heterocyclic compound in coal gasification wastewater. Bioresource Technology. 2019, 278: 223-230.(SCI, 7.539/一区TOP)
(10) Jingxin Shi, Yuxing Han, Chunyan Xu, Hongjun Han. Enhanced biodegradation of coal gasification wastewater with anaerobic biofilm on polyurethane (PU), powdered activated carbon (PAC), and biochar. Bioresource Technology. 2019, 289: 121487.(SCI, 7.539/一区TOP)
(9) Kun Li, Jingxin Shi*, Yuxing Han, Chunyan Xu, Hongjun Han. Enhanced anaerobic degradation of quinoline, pyriding, and indole with polyurethane (PU), Fe3O4@PU, powdered activated carbon (PAC), Fe(OH)3@PAC, biochar, and Fe(OH)3@biochar and analysis of microbial succession in different reactors. Bioresource Technology. 2019, 289: 121487. (SCI, 7.539/一区TOP)
(8) Jingxin Shi, Yuxing Han, Chunyan Xu, Hongjun Han. Case study on wastewater treatment technology of coal chemical industry in China. Critical Reviews in Environmental Science and Technology. 2019(SCI, 12.561/一区TOP)
(7) Jingxin Shi, Hongjun Han, Chunyan Xu. A novel enhanced anaerobic biodegradation method using biochar and Fe(OH)3@biochar for the removal of nitrogen heterocyclic compounds from coal gasification wastewater. Science of The Total Environment. 2019, 697: 134052.(SCI, 6.551/一区TOP)
(6) Jingxin Shi, Yuxing Han, Chunyan Xu, Hongjun Han. Enhanced anaerobic degradation of selected nitrogen heterocyclic compounds with the assistance of carboxymethyl cellulose. Science of the Total Environment. 2019, 689: 781-788.(SCI, 6.551/一区TOP)
2016~2018
(5) Jingxin Shi, Yuxing Han, Chunyan Xu, Hongjun Han. Biological coupling process for treatment of toxic and refractory compounds in coal gasification wastewater. Reviews in Environmental Science and Bio/Technology. 2018, 17: 765-790.(SCI, 5.716/二区TOP)
(4) Su, J. F., Jingxin Shi, Huang, T. L., Ma, F., & Deng, L. Y. Aerobic denitrification and biomineralization by a novel heterotrophic bacterium, Acinetobacter sp. H36. Marine Pollution Bulletin. 2017, 116, 209-215.(SCI, 3.241/一区TOP)
(3) Su, J. F., Jingxin Shi, Huang, T. L.,Ma, F. . Kinetic analysis of simultaneous denitrification and biomineralization of novel acinetobacter, sp. cn86. Marine Pollution Bulletin. 2016, 109(1), 87-94.(SCI, 3.241/一区TOP)
(2) Su, J. F., Jingxin Shi, Huang, T. L., Ma, F., Lu, J. S., & Yang, S. F. Effect of nitrate concentration, ph, and hydraulic retention time on autotrophic denitrification efficiency with iron(ii) and mn(ii) as electron donors. Water Science & Technology. 2016, 74, 1185-1192. (SCI, 1.247/四区)
(1) 和宁, 史经新。利用细菌同步去除地下水中硬度和硝酸盐的方法研究。工业微生物.
专利
(1) 苏俊峰;史经新;卢金锁;邓林煜;邵思成;郑胜晨;马民;程策;罗贤新.一种去除地下水暂时硬度的生物方法 [P]. 中国专利:CN105439291A,2016-03-30.
(2) 卢金锁;苏俊峰;史经新;华家;吴东升;崔红军;王峰慧;黄传昊.一种一体化去除水垢设备 [P]. 中国专利:CN105314769A,2016-02-10.
(3) 卢金锁;袁志明;苏俊峰;史经新;华家;闫涛;张文林;黄传昊.一种协同去除地表水中浊度和暂时硬度的方法及其构筑物 [P]. 中国专利:CN105481138A,2016-04-13.
(4) 卢金锁;张文林;苏俊峰;华家;史经新;崔红军.一种负压除碳除水中暂时硬度设备 [P]. 中国专利:CN105585141A,2016-05-18.
(5) 卢金锁;黄传昊;崔红军;苏俊峰;吴东升;史经新;王峰慧;华家.一种去除水硬度方法及其装置 [P]. 中国专利:CN105314768A,2016-02-10.
(6) 吴东升;卢金锁;崔红军;苏俊峰;赵海亮;张文林;张利梅;华家;史经新.一种塔式跌水除水中暂时硬度设备 [P]. 中国专利:CN105481108A,2016-04-13.
[7]韩洪军,史经新,徐春艳. 一种小球藻厌氧共代谢处理煤热解废水的方法[P]. 黑龙江省:CN112551690A,2021-03-26.
[8]吴东升,卢金锁,崔红军,苏俊峰,赵海亮,张文林,张利梅,华家,史经新. 一种塔式跌水除水中暂时硬度设备[P]. 陕西省:CN105481108B,2019-01-08.
[9]卢金锁,黄传昊,崔红军,苏俊峰,吴东升,史经新,王峰慧,华家. 一种去除水硬度方法及其装置[P]. 陕西:CN105314768A,2016-02-10.
[10]吴东升,卢金锁,崔红军,苏俊峰,赵海亮,张文林,张利梅,华家,史经新. 一种塔式跌水除水中暂时硬度设备[P]. 陕西:CN105481108A,2016-04-13.
主持和参与科研项目
[7] 南信大科研启动项目,30万,2022-2024 (主持)
[6] 江苏省高校面上项目,5万,2022-2023(主持)
[5] 江苏省自科青年项目,20万,2023-2025(主持)
[4] 大唐集团阜新煤制天然气项目煤化工废水零排放设计调试 (参与)
[3] “十三五”国家重点研发计划《低阶煤分级分质清洁高效转化利用技术开发及示范》项目(参与)
[2] “十三五”国家重点研发计划《煤转化废水近零排放及资源化关键技术研究与应用示范》项目(参与)
[1] 国家自然科学基金委员会,面上项目,51678471,锰自养反硝化电子传递途径及代谢机制研究,2017-2020, 62万。(参与)
通讯/办公地址 : 环科院C403
移动电话 : 17314991862
邮箱 : shijingxin2018@163.com
2017.9 -- 2021.7
哈尔滨工业大学
市政工程
博士研究生
博士学位
2021.7 -- 至今
南京信息工程大学 环科院
2020.10 -- 2021.9
担任Renewable & Sustainable Energy Reviews, Chemical Engineering Journal, Bioresource Technology, Journal of Hazardous Materials, Journal of Cleaner Production, Critical Reviews in Environmental Science and Technology, Reviews in Environmental Science and Bio/Technology, Science of The Total Environment, Desalination等期刊审稿人
废水生物处理技术和资源化利用;有毒难降解化合物强化生物降解技术研究;地下水生态修复技术研究