性 别
职 务
职 称
电子邮件
通讯地址
邮政编码
职 务
职 称
电子邮件
通讯地址
邮政编码
男
正高级工程师
tangzy@sari.ac.cn
上海市浦东新区海科路100号9A楼501室
200120
正高级工程师
tangzy@sari.ac.cn
上海市浦东新区海科路100号9A楼501室
200120
唐志永,男,1979年出生,博士,现任高研院研究员,中科院关键技术人员,中科院特聘研究员以及中国科技大学兼职教授。1997年入学东南大学,2006年博士毕业于东南大学洁净煤发电及燃烧技术教育部重点实验室,长期致力于能源环境领域的技术研发和工业化实施,重点针对中试到工业示范的放大风险控制和规模设计进行研究,基于多尺度模拟方法和平台进行模拟和预测分析。博士期间采用CFD平台建立了腐蚀寿命预测模型,首次对电厂尾部装置的腐蚀进行预测,2006~2010年基于CFD平台开展了湿法脱硫塔气固液三相的模拟仿真,成功开发了两种湿法脱硫技术并实现工业示范,获国家奖项三次,并完成多项专利申请和标准制订。2010年至今从宏观尺度、系统尺度和CFD尺度对中国能源战略、先进工业过程设计和反应器进行模拟研究,在能源战略研究方面,与国外专家一起对中国未来能源系统进行战略性研究;在先进工业过程尺度方面,在国内首先完成了电解制氢与加氢的过程设计及计算,为核能的非电利用下游链奠定了基础;在传统反应器模拟开发方面专注于强吸热重整反应器和气液固三相浆态床反应器的模拟和工业尺度开发,国际上首次成功开发了中试规模的二氧化碳甲烷重整反应器;同时从事连续流对于化学转化过程的强化研究,涉及新型微通道反应器的设计与先进制造,微通道中多相流动、传递现象及化学反应过程规律和3D打印技术在化工反应中的应用开发,实现高效碳转化利用和化学品的绿色合成。
流动化学与微反应器技术;多相流的过程强化研究;反应工程与系统集成及复合能源体系;关注于含碳资源转化利用领域多尺度模拟计算及低碳工程技术研发
2016年度中科院特聘研究员
2015年度中科院关键技术人才
2015年度第17届中国国际工业博览会银奖
2014年度中国科学院青年创新促进会
2010年度中国施工企业协会科技进步二等奖
2009年度中国石油化工集团公司科技进步二等奖
2008年度中国石油和化学工业联合会科技进步三等奖
1. 主持科技部项目 “燃煤工业锅炉湿法脱硫关键技术与设备开发”;
2. 主持中科院核先导子课题“核能制氢与CO2加氢系统模拟与集成”;
3. 主持荷兰壳牌公司“中国混合能源战略研究;
4. 主持中科院先导课题:无水二氧化碳压裂页岩气关键技术研究;
5. 主持中科院青年促进会项目;
6. 主持上海科委子课题 “超细煤粉悬浮燃烧应用关键技术研究与燃烧器开发”;
7. 承担课题:中科院煤先导子项目“CO2工业废气大规模重整转化制合成气关键技术与示范”;
8. 承担课题:国家科技支撑计划“CO2与CH4重整转化制备合成气关键技术与工程示范”;
9. 承担课题:重大企业研发项目,荷兰壳牌石油工业公司和潞安集团 “二氧化碳甲烷重整技术开发”;
10. 承担课题:重大企业研发项目,英国BP石油公司、CECC和潞安集团“钴基浆态床费托合成工艺研究”;
11. 承担课题:中科院STS项目“合成气直接制高碳线性α-烯烃产业化技术”。
1.文章
[1] Qianqian Chen, Lv Min, Gu Yu, Xiyi Yang, Zhiyong Tang*, Yuhan Sun*, Mianheng Jiang. Hybrid Energy System for a Coal-Based Chemical Industry[J]. Joule, 2018, 2(4):607-620. (IF=41.25)
[2] Qianqian Chen, Yu Gu, Zhiyong Tang*, Wei Wei, Yuhan Sun*. Assessment of low-carbon iron and steel production with CO2 recycling and utilization technologies: A case study in China[J]. Applied Energy, 2018, 220:192-207. 8.28. (IF=8.28)
[3] QianQian Chen, Zhiyong Tang*, Yang Lei, Yuhan Sun*, MianHeng Jiang. Feasibility analysis of nuclear–coal hybrid energy systems from the perspective of low-carbon development[J]. Applied Energy, 2015, 158:619-630. (IF=8.28)
[4] Qianqian Chen, Yu Gu, Zhiyong Tang?, Yuhan Sun. Comparative environmental and economic performance of solar energy integrated methanol production systems in China[J]. Energy Conversion and Management. 2019,187:63–75. (IF=9.71)
[5] Sheng Yang, Qianqian Chen, Zhiqiang Liu, Yifan Wang, Zhiyong Tang*, Yuhan Sun*. Performance analysis of the wind energy integrated with a natural-gas-to-methanol process[J]. Energy Conversion and Management, 2018, 173: 735-742. (IF=9.71)
[6] Qianqian Chen, Danfeng Wang1, Yu Gu, Sheng Yang, Zhiyong Tang*, Yuhan Sun, Qing Wu*. Techno-economic evaluation of CO2-rich natural gas dry reforming for linear alpha olefins production[J]. Energy Conversion and Management. 2020, 205:112348. (IF=9.71)
[7] Gu Yu, Qianqian Chen1, Junli Xue, Zhiyong Tang*, Yuhan Sun*, Qing Wu*. Comparative techno-economic study of solar energy integrated hydrogen supply pathways for hydrogen refueling stations in China[J]. Energy Conversion and Management, 2020, 223, 113240. (IF=9.71)
[8] Luhaibo Zhao, Gaofeng Zeng, Yu Gu, Zhiyong Tang*, Gang Wang, Tao Tang, Ying Shan, Yuhan Sun*. Nature inspired fractal tree-like photobioreactor via 3D printing for CO2 capture by microalgae[J], Chemical Engineering Science, 2019,193:6-14.
[9] Luhaibo Zhao, Min Lv, Zhiyong Tang*, Tao Tang, Ying Shan, Zhicheng Pan, Yuhan Sun*. Enhanced photo bio-reaction by multiscale bubbles[J], Chemical Engineering Journal. 2018, 354:304-313. (IF=13.27)
[10] Xiaodan Zhang, Liangshu Zhong, Gaofeng Zeng, Yu Gu, Ci Peng, Fei Yu, Zhiyong Tang*, Yuhan Sun*. Process intensification of honeycomb fractal micro-reactor for the direct production of lower olefins from syngas[J]. Chemical Engineering Journal, 2018, 351:12-21. (IF=13.27)
[11] Yaheng Zhang, Jie Zhang, Zhiyong Tang*, Qing Wu*. Regulation of Gas-liquid Taylor Flow by Pulsating Gas intake in Micro-channel [J]. Chemical Engineering Journal, 2021, 417:129055. (IF=13.27)
[12] Yuhang Chen, Yaheng Zhang, Hongwei Zou, Minglei Li, Gang Wang, Min Peng, Jie Zhang*, Zhiyong Tang*. Tuning the gas-liquid-solid segmented flow for enhanced heterogeneous photosynthesis of Azo-compounds[J], Chemical Engineering Journal, 423 (2021), 130226. (IF=13.27)
[13] Hongwei Zou, Yuhang Chen, Jie Zhang*, Zhiyong Tang*, Qing Wu*. Characteristics of liquid-liquid two-phase flow in a constructal honeycomb reactor[J], Chemical Engineering Journal, 409 (2021) 128179. (IF=13.27)
[14] Gang Wang, Yu Gu, Luhaibo Zhao, Jin Xuan, Gaofeng Zeng, Zhiyong Tang*, Yuhan Sun*. Experimental and numerical investigation of fractal-tree-like heat exchanger manufactured by 3D printing[J]. Chemical Engineering Science, 195(2019),250-261.
[15] Luhaibo Zhao, Ci Peng, Jie Zhang, Zhiyong Tang*. Synergistic effect of microbubble flow and light fields on a bionic tree-like photobioreactor[J], Chemical Engineering Science, 229 (2021) 116092.
[16] Xiaodan Zhang, Fei Yu, Jie Zhang*, Zhiyong Tang*, Yuhan Sun*. A novel cobalt carbide catalyst wall-coating method for FeCrAlloy microchannels exemplified on direct production of lower olefins from syngas[J]. Industrial & Engineering Chemistry Research. 2019, 58:22967-22976.
[17] Yaheng Zhang, Jie Zhang, Zhiyong Tang*, Qing Wu*. Gas-Liquid Taylor Flow Characteristics in a Fractal Micro-channel Network During Numbering-up and Sizing-up [J]. Industrial & Engineering Chemistry Research. 2021,60(21), 7935–7949.
[18] Minglei Li, Yaheng Zhang, Jie Zhang*, Min Peng, Liuming Yan, Zhiyong Tang*, Qing Wu*. Continuous Gas–Liquid–Solid Slug Flow for Sustainable Heterogeneously Catalyzed PET-RAFT Polymerization[J], Industrial & Engineering Chemistry Research, 60 (2021) 5451-5462.
[19] Sijing Wang, Jie Zhang*, Fei Peng, Zhiyong Tang*, and Yuhan Sun*. Enhanced hydroformylation in a continuous flow microreactor system[J]. Industrial & Engineering Chemistry Research. 2020, 59:88-98.
[20] Jie Zhang, Suqi Zhang, Ci Peng, Yuhang Chen, Zhiyong Tang*, Qing Wu*. Continuous synthesis of 2,5-hexanedione through direct C–C coupling of acetone in a Hilbert fractal photo microreactor[J], Reaction Chemistry & Engineering, (2020). Doi 10.1039/D0RE00247J
[21] Ci Peng, Min Lv, Shengnan Wang, Xianliang Sun, Hongjiang Liu, Zhiyong Tang*, Yuhan Sun*. Effect of fractal gas distributor on the radial distribution of particles in circulating turbulent fluidized bed[J]. Powder Technology, 2018, 326:443-453.
[22] Zhuangdian Liang, Peng Gao, Zhiyong Tang*, Min Lv, Yuhan Sun*. Three dimensional porous Cu-Zn/Al foam monolithic catalyst for CO2 hydrogenation to methanol in microreactor[J]. Journal of CO2 Utilization, 2017, 21:191-199.
[23] Qianqian Chen, Min Lv, Danfeng Wang, Zhiyong Tang*, Wei Wei, Yuhan Sun*. Eco-efficiency assessment for global warming potential of ethylene production processes: A case study of China[J]. Journal of Cleaner Production, 2017, 142:3109-3116.
[24] Qianqian Chen, Min Lv, Zhiyong Tang*, Hui Wang, Wei Wei, Yuhan Sun*. Opportunities of integrated systems with CO2 utilization technologies for green fuel & chemicals production in a carbon-constrained society[J]. Journal of CO2 Utilization, 2016, 14:1-9.
[25] Yuhang Chen, Jie Zhang*, Zhiyong Tang*, Yuhan Sun. Visible light catalyzed anti-markovnikov hydration of styrene to 2-phenylethanol: From batch to continuous[J]. Journal of Photochemistry and Photobiology A: Chemistry. 2020, 392:112340.
[26] Yue Lu, Gang Wang, Zhuangdian Liang, Jian Sun, Yu Gu, Zhiyong Tang*. Fractal Reactor in Micro-Scale for Process Intensification[J]. International Journal of Chemical Reactor Engineering. 2018, 17:20170225.
[27] Suqi Zhang, Yue Lu, Yu Gu, Xiaodan Zhang, Zhiyong Tang*. The process intensification of CO2 absorption in honeycomb fractal reactor fabricated by 3D printer[J]. Chemical Engineering and Processing - Process Intensification, 2018, 132:42-47.
[28] Suqi Zhang, Yue Lu, Jian Sun, Yu Gu, Xiaodan Zhang, Zhiyong Tang. The process intensification of CO2 absorption in Hilbert fractal reactor fabricated by 3D printer[J]. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects. 2019,41:481-492.
[29] Shian Fei, Yaheng Zhang, Jie Zhang*, Zhiyong Tang*, Qing Wu*, Continuous synthesis of monodisperse silica microspheres over 1 μm size[J], Journal of Flow Chemistry, (2021).
[30] Suqi Zhang, Jie Zhang*, Jian Sun, Zhiyong Tang*. Capillary microphotoreactor packed with TiO2-coated glass beads: An efficient tool for photocatalytic reaction[J]. Chemical Engineering & Processing: Process Intensification. 2020, 147:107746.
[31] Luhaibo Zhao, Yu Gu, Ci Peng*, Zhiyong Tang*. Scale up of the cross-flow flat-plate airlift photobioreactor[J]. Asia-Pacific Journal of Chemical Engineering, 2020, 1932-2135.
[32] Fei Peng, Jie Zhang*, Zhiyong Tang*, Yuhan Sun*. Enhanced hydroformylation of 1‐hexene in microbubble media[J]. Asia-Pacific Journal of Chemical Engineering, 2020: e2484.
2. 专利
[1] 耦合夹套式的分形分叉结构换热器,发明专利,CN 201611076660.3
[2] 具有分形结构的气液管式反应器、气液反应系统及其应用,发明专利,CN 201710375007.5
[3] 柱式耦合金字塔管式光生反应器、应用及培养方法,发明专利,CN201610536468.1
[4] 具有仿生分形树状结构的光生反应器、应用及培养方法,发明专利,CN201610536948.8
[5] 二氧化碳-甲烷自热重整生产直接还原铁的方法及系统,发明专利,CN 201810077703.2
[6] 具有分形结构的管壳式换热器,发明专利,CN 201510791796.1
[7] 微波热解生物质实时全景温度监测调控系统及方法,发明专利,CN 201610165220.9
[8] 一种合成气直接制烯烃的油相产物分离加工系统,实用新型,CN 201720171128.3
[9] 流化床反应器,实用新型,CN 201720586491.1
[10] 一种连续式高效谷物微波干燥机及其结构优化方法,发明专利,CN 201510705591.7
[11] 一种多层连续式高效谷物微波干燥设备,发明专利,CN 201610080809.9
[12] 镁法脱硫副产物亚硫酸镁煅烧回用技术,发明专利,CN 200810040265.9
[13] 一种氨法烟气脱硫方法及其设备,发明专利,CN 200810207663.5
[14] 微波热解生物质与生物炭混合样品瞬态温度的模拟方法,发明专利,CN 201610172179.8
[15] 二氧化碳-甲烷自热重整反应器,实用新型,CN 201320023796.3
[16] 褐煤微波热解利用的方法,发明专利, CN 201410028331.6
[17] 利用零碳或负碳排放系统制备合成气的工艺方法,发明专利,CN 201310683298.6
[18] 高温电解水蒸气制氢反应器,实用新型,CN 201520637812.7
[19] 自清洁螺旋气升式内环流光生物反应器,发明专利,CN 201510351140.8
[20] 平板式光生物反应器,发明专利,CN 201510349644.6
[21] 振荡射流微气泡光生物反应器,发明专利,CN 201510349664.3
[22] 浆态床内环流反应器,发明专利,CN 201410048868.9
