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天津大学    化工学院
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个人简介

Education Background: Sep.2000-Aug.2005, Name of institute: Tianjin University, Degree level: Ph.D. Area of research: Chemical Engineering Sep.1993-Mar.1996, Name of institute: Tianjin University,Degree level: Master of Engineering, Area of research: Chemical Engineering Sep.1985-Jul.1989, Name of institute: Tianjin University, Degree level: Bachelor of Engineering, Area of institute Chemical Engineering Work Experience: Jun. 2013-Aug. 2014, Name of institute: Dept. of Agricultural and Biological Eng., College of Agricultural, Consumer & Environ. Sci. at Univ. of Illinois at Urbana-Champaign(UIUC), Position: Visiting Scholar Sep. 2001-Dec. 2009, Part-time institute: National Engineering Research Centre for Distillation Technology, Tianjin University, Area of work: Separation technology, chemical process simulation and system engineering Position: Deputy chief Engineer Jul. 1992-now, Name of institute: Chemical Engineering Research Centre, Tianjin University, Area of work: Separation technology, biological water treatment, bio-nanotechnology, CFD. Position: Engineer, Lecturer, Associate Research Fellow Jul. 1989-Jul. 1992, Name of institute: Center of Packed Column Tech., Tianjin University, Area of work: Chemical separation technology, Position: Assistant engineer 学术成就: 1.主持完成了“催化裂化吸收/解吸双塔流程模拟策略”项目,2002年获得中国科学技术发展基金会“侯祥麟石油加工科学技术奖”。 2.主持完成了“5万吨/年混和戊烷同分异构体精细分离技术及装备”项目,2005年通过天津市科委组织的技术鉴定,鉴定结论为“国内领先”水平,并且于2005年获得天津市科技进步三等奖。 3.主持完成了“甲醇精制过程强化研究与品质提升关键技术的开发应用”项目,2006年通过天津市科委组织的技术鉴定,鉴定结论为“国际先进”水平,获得“中国石油和化学工业协会”科技进步二等奖。 4.参与完成了“新型填料集成技术在催化分馏和吸收稳定系统中的开发应用”项目,2004年获得“天津市科技进步二等奖”。 5.参与完成了“大型润滑油型减压蒸馏塔内件集成技术”项目,通过天津市科委组织的技术鉴定,达到国际先进水平”,2005年该项目获得教育部提名科技进步一等奖。 6.参与完成了“炼油分离过程强化研究与关键技术系统集成”项目,入选了2005年度“中国高等学校十大科技进展”,该奖是教育部对我国高校当年科技进展最高的评价。 7.主持完成了“异戊二烯精制关键技术的开发应用”,2007年通过天津市高新技术成果转化中心鉴定为达到“国内领先”水平。 8.参与完成“稠油炼制减压分离过程大型化关键集成技术及应用”,2007年荣获“中国石油化工协会”科技进步二等奖。 9.磁场强化MTB生物膜法处理含重金属离子的有机废水(国家自然科学基金青年基金) 10. 电场作用下的生物膜传质(国家自然科学基金面上项目) 11.电生物膜反应器处理含重金属离子的有机废水(天津市自然科学基金重点基金) 12.多场-趋磁细菌处理含贵重金属离子废水(天津市自然科学基金面上项目) 13.高能效复杂烃类裂解过程中的“原子-化学键单体结构”层次动力学研究(天津大学自主创新基金) 14.微磁场下金离子在微生物表面形成纳米颗粒过程的机理研究(国家自然科学基金面上项目) 15.生物质吸附-精馏耦合分离异丙醇水溶液(天津大学自主创新基金) 科研项目: 1、 高硫高炔烃混合碳五双烯烃提取技术开发(工艺包设计) 2、 混合碳五双烯烃提取技术工艺包开发 3、 12万吨/年甲缩醛、6万吨/年异丙醇装置工艺包设计 4、 4万吨戊烷分离装置工艺包设计 5、 山西焦化40万吨/年甲醇改造工程工艺包设计 6、 河南驻马店骏化40万吨/年甲醇精馏装置工艺包 7、 DMF溶剂精制流程节能优化工艺包设计

研究领域

1.过程系统工程设计、优化与强化 Process system engineering design, optimization & intensification 2.纳米材料的合成与应用 Syntheses and applications of nanomaterial 3.催化热裂解与脱氢 Catalytic pyrolysis & dehydrogenation 4.化工新型设备计算流体力学分析与借助3D打印的新型元件开发 Computational fluid dynamics(CFD) analysis & development of novel chemical equipments based on 3D printing

近期论文

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Optimization and simultaneous heat integration design of a coal-based ethylene glycol refining process by a parallel differential evolution algorithm Jiahao Wang, Hao Lyu, Daoyan Liu, Chengtian Cui & Jinsheng Sun Frontiers of Chemical Science and Engineering (2023) Optimal Synthesis of Quaternary Zeotropic Distillation Sequences Using an Array Formulation Xiaodong Zhang, Lu Jin, Hao Lyu, Jie He*, and Jinsheng Sun* Cite this: Ind. Eng. Chem. Res. 2022, 61, 51, 18821–18832 Publication Date:December 16, 2022 https://doi.org/10.1021/acs.iecr.2c03388 Comparison of coal-to-ethanol product separation strategies Liu Daoyan,Lyu Hao,Wang Jiahao,Cui Chengtian,Sun Jinsheng Page:121968 ISSN:1383-5866 2022 Container-title:Separation and Purification Technology Life cycle energy consumption, environmental impact, and costing assessment of coal to ethylene glycol processes via dimethyl oxalate and formaldehyde Jiahao Wang, Daoyan Liu & Jinsheng Sun Environmental Science and Pollution Research volume 30, pages31141–31156 (2023) Intensifying petroleum fractionators through internal partial condensation in place of pump-around Cui Chengtian,Qi Meng,Ni Haoyin,Fu Jianmin,Sun Jinsheng Page:107251 ISSN:0378-3820 2022 Container-title:Fuel Processing Technology Controllability assessment and intentional operation of extractive distillation configurations with preconcentration Zhang Xiaodong,Chen Hui,Cui Chengtian,Sun Jinsheng Page:120389 ISSN:1383-5866 2022 Container-title:Separation and Purification Technology Process synthesis and plantwide control of intensified extractive distillation with preconcentration for separating the minimum-boiling azeotropes: A case study of acetonitrile dehydration Cui Chengtian,Zhang Qingjun,Zhang Xiaodong,Sun Jinsheng,Chien I-Lung Page:120397 ISSN:1383-5866 2022 Container-title:Separation and Purification Technology In situ hydrogenation of phenol to cyclohexanone on Pd/C with phosphotungstic acid at open atmospheric condition Chen Hui,He Jie,Sun Jinsheng Page:118454 ISSN:0926-860X 2022 Container-title:Applied Catalysis A: General Adaptive superstructure for multiple-interconnection process synthesis: Eliminate unnecessary flowsheet predetermination to reduce complexity Lyu Hao,Zhang Xiaodong,Cui Chengtian,Sun Jinsheng Page:108731 ISSN:0255-2701 2022 Container-title:Chemical Engineering and Processing - Process Intensification Dynamics and control of thermal- versus electrical-driven pressure-swing distillation to separate a minimum-boiling azeotrope Cui Chengtian,Zhang Qingjun,Zhang Xiaodong,Sun Jinsheng,Chien I-Lung Page:119839 ISSN:1383-5866 2022 Container-title:Separation and Purification Technology Hao Lyu. Population-distributed stochastic optimization for distillation processes: Implementation and distribution strategy. Chemical Engineering Research and Design. 2021 Lu Jin. Simultaneous process parameters and heat integration optimization for industrial organosilicon production. Separation and Purification Technology. 2021 Xiaodong Zhang. A self-adaptive multi-objective dynamic differential evolution algorithm and its application in chemical engineering. Applied Soft Computing Journal. 2021 Xiaodong Zhang. A systematic process synthesis method towards sustainable extractive distillation processes with pre-concentration for separating the binary minimum azeotropes. Chemical Engineering Science. 2020 Baiwen Kong. Optimal design and effective control of Kaibel column with liquid-only transfer streams for quaternary distillation. Separation and Purification Technology. 2020 Hui Chen. Selective hydrogenation of phenol for cyclohexanone: A review. Journal of Industrial and Engineering Chemistry. 2020 Hao Lyu. Superstructure modeling and stochastic optimization of side-stream extractive distillation processes for the industrial separation of benzene/ cyclohexane/cyclohexene. Separation and Purification Technology. 2020 Chengtian Cui. Electrical-driven self-heat recuperative pressure-swing azeotropic distillation to minimize process cost and CO2 emission: Process electrification and simultaneous optimization. Energy,195(2020) Chengtian Cui. Eliminating the vapor split in dividing wall columns through controllable double liquid-only side-stream distillation configuration. Separation and Purification Technology,116837 Siyao Liu. Optimal integration of methanol-to-gasoline process with organic Rankine cycle. Chemical Engineering Research and Design,154 Chengtian Cui. Cui C, Sun J*: Rigorous design and simultaneous optimization of extractive distillation systems considering the effect of column pressures[J]. Chemical Engineering and Processing-Process Intensification, 2019, 139: 68-77.. Chemical Engineering and Processing-Process Intensification,139 Chengtian Cui. Cui C, Zhang X, Sun J*: Design and optimization of energy-efficient liquid-only side-stream distillation configurations using stochastic algorithm[J]. Chemical Engineering Research and Design, 2019.. Chemical Engineering Research and Design Chengtian Cui. Cui C, Xi Z, Liu S, Sun J*: An enumeration-based synthesis framework for multi-effect distillation processes[J]. Chemical Engineering Research and Design, 2019, 144: 216-227.. Chemical Engineering Research and Design,144 Hongdan Wang, Chengtian Cui,. Wang H, Cui C, Lyu H, Sun J*: Design and economic evaluation of energy-saving industrial distillation processes for separating close-boiling cyclohexanone-cyclohexanol mixture[J]. Separation and Purification Technology, 2019, 211: 279-289.. Separation and Purification Technology,211 甲醇双效精馏节能设备及方法,CN1760164(已授权).第一发明人 甲醇双效精馏节能节水系统及工艺,CN1817836(已授权).第一发明人 高纯度甲醇的精馏工艺及设备,CN1861553(已公开,一审已通过).第一发明人 颗粒污泥的培养方法及利用其从含金废液中回收金的方法,CN1872992(已公开).第一发明人 微型导向浮阀,CN1792405(已公开).第一发明人 甲醇双效精馏节能设备及方法,CN1817835(已公开).第一发明人 催化裂化吸收稳定系统分步冷凝及其复合工艺,200510014443.7,CN1710028(已公开)第三发明人 立体浮阀体,200510014859.9,CN1748828(已公开),第四发明人 模块化液体分布器,200610013528.8(已公开),第一发明人 金属复合填料(实用新型专利),CN02285270.0,CN2645760,第一发明人 重金属离子废水的趋磁性细菌分离装置,200510013345.1,CN1693223(已公开),第一发明人 双层折返流气体分布器,CN1887400A,第三发明人 组合式分布器,CN2604224Y,第五发明人 一种碳五馏分萃取溶剂变压气提的方法, CN201010166031.6,第一发明人 复合式气体分布器,CN200910069666.1,第一发明人 节能节水型有机硅单体精馏方法,CN201010132940.8,第一发明人 甲醇精馏去除轻油杂质的系统及操作方法,CN101560141(已公开),第四发明人 差压低能耗精馏方法及设备,CN101239247(已公开),第九发明人 催化裂化吸收稳定系统复合工艺,CN1919976(已公开),第三发明人 催化裂化装置下游分离系统提高液化气收率的方法,CN101602959(已公开),第一发明人

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