职称:研究员
博士/硕士导师:博士生、硕士生导师
办公室电话:021-65985811
电子邮箱:shenzheng@tongji.edu.cn
主要研究方向:农村水污染控制和废弃物资源化研究、智慧环保
教育经历:
1997.09-2001.06 浙江工业大学 给水排水专业 大学本科
2002.09-2005.06 贵州大学 环境工程 工学硕士
2005.09-2009.08 同济大学 环境科学 工学博士
2007.09-2008.10 日本东北大学 联合培养博士
工作经历:
2001.07-2002.07:浙江杭州九溪水厂 技术员
2009.09-2012.02:同济大学新农村发展研究院 讲师
2012.03-2017.11:同济大学新农村发展研究院 副研究员
2011.02-2015.02:中国科学院大连化学与物理研究所 博士后
2015.08-2017.08:江苏盐城市亭湖区科技镇长团 副团长
2018.12-2019.12:科技部农村中心星火处 项目流动专员
2017.12 - 至今:同济大学新农村发展研究院 研究员
科研项目:
1. 国家自然科学基金面上项目,MgO改性催化剂的制备及其催化生物质定向产丙二醇调控机理研究(21978224),2020.01-2023.12,负责人;
2. 国家自然科学基金面上项目,无碱水相体系中A-Sn-Beta分子筛高效催化生物质产游离乳酸的研究(21676205),2017.01-2020.12,负责人
3. 国家自然科学基金面上项目,废甘油水热氢化还原二氧化碳成甲酸和制成乳酸反应机理的证明及其新型二步法工艺的研究(21376180),2014.01-2017.12,负责人
4. 国家自然科学基金青年项目,生物柴油副产物废甘油水热还原二氧化碳反应动力学研究(21006074),2011.01-2013.12,负责人
5.国家重点研发计划项目子课题,粪便快速处理与资源化关键技术研发(2018YFD1100503-4),2018.12-2022.12,负责人;
6.崇明科创中心项目,崇明生态岛“两无化”水稻降解地膜降解机制研究(2019CNK-08),20119.10-2021.06,负责人;
7.国家新闻出版署“柔版印刷绿色制版与标准化”重点实验室项目,催化湿式氧化法处理柔印废水污泥的实验研究(ZBKT201902),2019.09-2021.05,负责人;
8.国家重点研发计划项目子课题,废弃秸秆热化学制备能源化学品的路径研究(2019YFC1906701-6),2020.01-2022.12,参与人;
9.上海市科委项目,生物可降解塑料替代材料关键核心技术研发及示范应用(20dz1203601),2020.09-2023.08,参与人;
10.上海市科委课题,典型圩区农业面源污染多级过程拦截技术研究与示范(21DZ1202403),2021.08-2024.07,负责人;
11.科技部国际合作司,2020年度发展中国家技术培训班项目,“一带一路”国家农业和农村科技创新合作国际培训班(2070),2020.04-2021.12,负责人;
12.教育部新农科研究与改革实践项目,多学科交叉融合的农业工程人才培养模式机制创新与实践(202009)2020.01-2024.12,负责人;
13.驻马店市废弃矿山治理开发有限公司,驻马店市北泉寺周边废弃矿山生态修复治理后综合开发建设项目(wh0287020203485),2020.10-2021.10,负责人;
14.温岭市新河镇人民政府,温岭市省级乡村振兴集成创新示范建设方案(wh0287020204277),2020.12-2021.12,负责人;
15.德清县农业农村局,德清县省级乡村振兴集成创新示范建设方案(wh0287020210218),2020.12-2021.12,负责人;
16.龙泉市财政局,龙泉市乡村振兴集成创新示范建设方案(wh0287020204278),2020.12-2021.12,负责人;
17.嘉兴市南湖区财政局,嘉兴市南湖区乡村振兴集成创新示范建设方案(wh0287020204279),2020.12-2021.12,负责人。
代表学术论文:
[1]Xia, M;Shen, Z*;Gu, MY;Chen, WB;Dong, WJ;Zhang, Y*. Efficient catalytic conversion of microalgae residue solid waste into lactic acid over a Fe-Sn-Beta catalyst, SCIENCE OF THE TOTAL ENVIRONMENT, 2021, 771, 10.1016/j.scitotenv.2020.144891. (SCI, IF=6.551)
[2]Shen, Z; Gao, YS; Kong, L; Gu, MY; Xia, M; Dong, WJ; Zhang, W;Z hou, XF; Zhang, YL; Selective Conversion of Scenedesmus into Lactic Acid over Amine-Modified Sn-beta, ACS OMEGA, 2021, 6, 284-293. (SCI, IF=2.87)
[3]Shen, Z; Yu, YB; Wang, K; Yue, C; Miao, J; Xia, M; Gu, MY; Zhang, YL. Hydrothermal alkaline conversion of actual acrylonitrile wastewater to organic acids, PROCESS SAFETY AND ENVIRONMENTAL PROTECTION, 2020, 144, 93-99. (SCI, IF=4.966)
[4] Gu, MY; Liu, LJ; Nakagawa, Y; Li, CC; Tamura, M; Shen, Z*; Zhou, XF; Zhang, YL; Tomishige, K*. Selective Hydrogenolysis of Erythritol over Ir-ReOx/Rutile-TiO2 Catalyst, CHEMSUSCHEM, 2020, doi: 10.1002/cssc.202002357. (SCI, IF=7.962)
[5] Xia, M; Dong, WJ; Shen, Z*; Xiao, SZ; Chen, WB; Gu, MY; Zhang, YL*. Efficient production of lactic acid from biomass-derived carbohydrates under synergistic effects of indium and tin in In-Sn-Beta zeolites, SUSTAINABLE ENERGY & FUELS, 2020, 4, 5327-5338. (SCI, IF=5.503)
[6] Gu, MY; Shen, Z*; Zhang, W; Xia, M; Jiang, JK; Dong, WJ; Zhou, XF; Zhang, YL*. Hydrogenolysis of Glucose into Propylene Glycol over Pt/SiO2@Mg(OH)(2) Catalyst, CHEMCATCHEM, 2020, 12, 3447-3452. (SCI, IF=4.853)
[7] Gu, MY; Shen, Z*; Yang, L; Dong, WJ; Kong, L; Zhang, W; Peng, BY; Zhang, YL*. Reaction Route Selection for Cellulose Hydrogenolysis into C-2/C-3 Glycols by ZnO-Modified Ni-W/beta-zeolite Catalysts, SCIENTIFIC REPORTS, 2019,doi: 10.1038/s41598-019-48103-6. (SCI, IF=3.998)
[8] Xia, M; Shen, Z*; Xiao, SZ; Peng, BY; Gu, MY; Dong, WJ; Zhang, YL*. Synergistic effects and kinetic evidence of a transition metal-tin modified Beta zeolite on conversion of Miscanthus to lactic acid, APPLIED CATALYSIS A-GENERAL,2020, 583, doi: 10.1016/j.apcata.2019.117126. (SCI, IF=5.006)
[9] Shen, Z; Kong, L; Zhang, W; Gu, MY; Xia, M; Zhou, XF; Zhang, YL. Surface amino-functionalization of Sn-Beta zeolite catalyst for lactic acid production from glucose, RSC ADVANCES, 2019, 9, 18989-18995. (SCI, IF=3.119)
[10] Kong, L; Shen, Z*; Zhang, W; Xia, M; Gu, MY; Zhou, XF; Zhang, YL. Conversion of Sucrose into Lactic Acid over Functionalized Sn-Beta Zeolite Catalyst by 3-Aminopropyltrimethoxysilane, ACS OMEGA, 2018, 3, 17430-17438. (SCI, IF=2.87)
[11] Liu, SY; Tamura, M; Shen, Z; Zhang, YL; Nakagawa, Y; Tomishige, K. Hydrogenolysis of glycerol with in-situ produced H-2 by aqueous-phase reforming of glycerol using Pt-modified Ir-ReOx/SiO2 catalyst, CATALYSIS TODAY, 2018, 203, 106-116. (SCI, IF=5.825)
[12] Xia M., Dong W.J., Gu M.Y., Chang C., Shen Z.*, Zhang Y.L.*. Synergetic effects of bimetals in modified beta zeolite for lactic acid synthesis from biomass-derived carbohydrates. RSC Advances, 2018, 8 (16), 8965-8975. (SCI, IF=3.119)
[13] Gu M.Y., Shen Z.*, Yang L., Peng B.Y., Dong W.J., Zhang W., Zhang Y.L.*. The Effect of Catalytic Structure Modification on Hydrogenolysis of Glycerol into 1,3-Propanediol over Platinum Nanoparticles and Ordered Mesoporous Alumina Assembled Catalysts. Industrial & Engineering Chemistry Research. 2017, 46, 13572-13581. (SCI, IF=3.573)
[14] Dong W.J., Shen Z.*, Peng B.Y., Gu M.Y., Zhou X.F., Xiang B., Zhang Y.L*. Selective chemical conversion of sugars in aqueous solutions without alkali to lactic acid over a Zn-Sn-Beta Lewis acid-base catalyst, Scientific Reports, 2016, 6, 26713:doi: 10.1038/srep26713. (SCI, IF=3.998)
[15] Yalei Zhang, Zheng Shen*, Xuefei Zhou, Min Zhang, Ke Wang, Fangmin Jin*; Solvent isotope effect and mechanism for the production of hydrogen and lactic acid from glycerol under hydrothermal alkaline conditions. Green Chemistry, 2012, 14, 3285-3288. (SCI, IF=9.125)
[16] Zheng Shen, Yalei Zhang, Fangming Jin; From NaHCO3 into Formate and from Isopropanol into Acetone: Hydrogen-transfer Reduction of NaHCO3 with Isopropanol in High-temperature Water. Green Chemistry. 2011, 13, 820-823. (SCI, IF=9.125)
[17] Zheng Shen, Jingfei zhou, Xuefei Zhou, Yalei Zhang; The production of acetic acid from microalgae under hydrothermal conditions. Applied Energy. 2011, 88, 3444–3447. (SCI, IF=7.182)
[18] Zheng Shen, Fangming Jin, Yalei Zhang, Bing Wu, Atsushi Kishita, Kazuyuki Tohji, Hisanori Kishida; Effect of alkaline catalysts on hydrothermal conversion of glycerin into lactic acid. Industrial & Engineering Chemistry Research. 2009, 48, 8920–8925. (SCI, IF=2.2)
代表专利:
[1] 张亚雷;沈峥;董文杰;周雪飞。A method of transforming biomass into lactic acid with modified beta zeolites.美国发明专利,授权号:US9464022 B2 (2016)
[2] 张亚雷;沈峥;周雪飞;张敏;周婧斐。PROCESS FOR PRODUCING FORMIC ACID BY HYDROTHERMAL OXIDATION REACTION WITH GLYCEROL AND THEIR EQUIPMENT;美国发明专利,授权号:US8772538 B2 (2014)
[3] 张亚雷;匡志平;陈翼孙;黄永宽;陈谷;周雪飞;黄维;沈峥。The Modular Integrated Water-purifying Device;美国发明专利,授权号:US8349176 B2 (2013)
[4] 沈峥,张亚雷,董文杰,周雪飞。改性β分子筛催化转化生物质为乳酸的方法. 中国发明专利,授权号:CN201410620383.2
[5] 沈峥,张亚雷,顾敏燕,董文杰,张敏,桑文静,周雪飞。一种金属水热还原甘油产丙二醇的方法. 中国发明专利,授权号:CN201410342528.7
[6] 金放鸣,张亚雷,沈峥。甘油水热还原CO2生产甲酸的方法.中国发明专利,授权号:ZL200810039421.X
[7] 张亚雷;张选军;张合平;沈峥。一种适用于地震灾害后便携式净水器。中国发明专利,授权号:ZL201010105636.4
[8] 张亚雷、周雪飞、毕东苏、贾晓竞、沈峥。厌氧好氧一体化高密度生物填料反应器,中国发明专利,授权号: ZL201010276554.6。
[9] 沈峥,金放鸣,张亚雷。异丙醇水热还原CO2生产甲酸和制成丙酮的方法中国发明专利,授权号:ZL201010564623.3
[10] 张亚雷,沈峥,周雪飞,周婧斐。一种藻类水热氧化产乙酸的方法,中国发明专利,授权号:ZL201110000265.8
研究生毕业去向:直博、设计院和环保公司等;
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