Principle Investigators
唐盛伟
邮箱: tangdynasty@scu.edu.cn
职位: 教授
联系电话: 028-85408098

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欢迎光临反应分离与工程强化研究组 !

研究生招生

硕士招生: 化学工艺

招生数量:2~4

招生对象: 热爱专业、专心科研、勤奋踏实、具有良好的专业知识背景、心理健康的化学化工类相关专业本科生

博士招生:化学工艺

招生数量:1~2

招生对象: 热爱专业、专心科研、勤奋踏实、具有良好的专业知识背景、心理健康的化工类相关专业硕士生

研究简介 [top]
1.化工过程及新工艺开发

  针对现有化工生产过程的强化进行研究,对现有化工产品生产进行工艺改进,对新产品进行工艺开发。

  目前在该方向的研究领域涉及石油化工中的烃类液相氧化过程、烷基化生产过程、烟气脱硫技术、尾气处理技术、化工产品脱色与分离提纯、烟气脱硝关键技术、废硫酸应用技术、氯化铵综合利用、复合肥生产新工艺、纤维素醚类产品开发与应用、离子液体应用研究、硫磷钛资源高效转化与清洁利用等。

2.石油化工过程

 针对石油化工过程中的分离与过程强化进行研究。

  目前在该方向的研究领域涉及石油化工中的烃类液相氧化过程、烷基化生产过程、石油化工产品脱色与分离提纯、离子液体应用研究等。

3.新型反应技术

 对反应器集成与微型化进行研究,通过反应器的构型设计和新催化技术来强化反应效率和提高反应过程安全性,通过反应流程的优化设计与参数优化实现反应过程强化。

 目前在该方向的研究领域涉及烃类液相富氧氧化技术、新型烷基化技术、氯化铵转化制无水氯化氢技术、氨法烟气脱硫、离子液体催化技术、纤维素醚类产品开发与应用、固体酸催化剂的设计与应用、微反应技术开发等。

4.化工分离技术

 研究工业体系的分离方法和工艺。

 目前在该方向的研究领域涉及氨法烟气脱硫、放空尾气的处理与分离回收利用、石油化工产品脱色与分离提纯、三废非常规处理技术等。

研究成果 [top]
先后承担和参与了包括国家自然科学基金重点项目、国家自然科学基金面上项目、教育部重点项目、教育部新教师基金、企业委托项目等科研项目30余项。

对化学反应技术、分离技术、化工过程强化有着深刻的理解和工业应用实践。

1. 开发了尿素水解制氨反应器并成功用于电厂烟气脱硝;

2. 建立了8万吨/年发烟硫酸生产装置,产品完全为发烟硫酸,不副产低浓度酸,为低浓度工业废酸的再利用探索了新途径;

3. 针对不同生产过程在相关企业的工业装置上完成了多项技术改造项目;

4. 长期从事烃类液相氧化反应技术、C4烷基化过程、离子液体制备与应用、硫磷钛等资源清洁高效转化与利用、纤维素醚类产品开发、CO2矿化与利用、微流体技术、三废非常规处理技术等领域的相关基础研究。目前已经发表论文70余篇,申请国家发明专利10余项,美国专利1项。

Selected Journal Articles

1. Yaling Li, Tao Zhang, Shengwei Tang*, Adsorption/desorption of 2,2,4-trimethylpentane on MCM-36 zeolite functionalized by acidic ionic liquid. Adsorption, 2018. 24(2):179-190

2. Yaling Yang, Tao Zhang, Xinlong Wang, Shengwei Tang*, An investigation on the solid–liquid phase equilibrium of the quaternary system KH2PO4–H3PO4–CH2OHCH2OH–H2O. Fluid Phase Equilibria, 2018. 464: 12-21

3. Dan wang, Tao Zhang, Yongchang Yang, Shengwei Tang*. Simulation and design microreactor configured with micromixers to intensify the isobutane/1-butene alkylation process. Journal of the Taiwan Institute of Chemical Engineers, 2018 (in press)

4. Tao Zhang, Jing Hu, Shengwei Tang*. Densities and Surface Tensions of Ionic Liquids/Sulfuric Acid Binary Mixtures. Chinese Journal of Chemical Engineering, 2018

5. Hangbiao Hu, Tao Zhang, Shaojun Yuan, Shengwei Tang*. Functionalization of multi-walled carbon nanotubes with phenylenediamine for enhanced CO2 adsorption. Adsorption. 2017, 23(1):73-85

6. Yong Zhang, Shengwei Tang , Tao Zhang. Homogeneous alkalization of cellulose in N-methylmorpholine-N-oxide/water solution, Cellulose, 2017, 24(3):1235-1245

7. Shuai Zhang, Tao Zhang, Shengwei Tang*. Determination of the Hammett Acidity Functions of Triflic Acid/Ionic Liquid Binary Mixtures by the 13C NMR-Probe Method. Journal of Chemical & Engineering Data. 2016, 61(6): 2088-2097

8. Hongxia Li, Tao Zhang, Shaojun Yuan, Shengwei Tang*. MCM-36 Zeolites Tailored with Acidic Ionic Liquid to Regulate Adsorption Properties of Isobutane and 1-Butene. Chinese Journal of Chemical Engineering. 2016,24(12):1703-1711

9. Hai Gong, Shengwei Tang , Tao Zhang. Catalytic hydrolysis of waste residue from the melamine process and the kinetics of melamine hydrolysis in NaOH solution. Reaction Kinetics, Mechanisms and Catalysis. 2016, 118(2):377-391

10. Yuan Zhang, Tao Zhang, Panxue Gan, Hongxia Li, Ming Zhang, Keting Jin, and Shengwei Tang*. Solubility of Isobutane in Ionic Liquids [BMIm][PF6], [BMIm][BF4], and [BMIm][Tf2N] [J]. Journal of Chemical & Engineering Data. 2015, 60(6): 1706-171

11. Keting Jin, Tao Zhang, Junyi Ji, Ming Zhang, Yuan Zhang, Shengwei Tang*. Functionalization of MCM-22 by Dual Acidic Ionic Liquid and Its Paraffin Absorption Modulation Properties. Industrial & Engineering Chemistry Research, 2015 , 54 (1)

12. Yan Meng, Bin Liang, Shengwei Tang*. A study on the liquid-phase oxidation of toluene in ionic liquids [J]. Applied Catalysis A: General. 2012,439-440:1-7 (IF=3.903) EI:20123415363997

13. Shaojun Yuan, Shengwei Tang,Li Lv,Bin Liang,Cleo Choong,Simo Olavi Pehkonen. Poly(4-vinylaniline)-Polyaniline Bilayer-Modified Stainless Steels for the Mitigation of Biocorrosion by Sulfate-Reducing Bacteria (SRB) in Seawater [J]. Industrial & Engineering Chemistry Research. 2012,51(45):14738-14751.(SCI: 000311191600016, EI:20124815711989)

14. Haiguang Zhang, Shengwei Tang, Bin Liang, Residence time distribution in two-phase flow mini-channel reactor [J]. Chemical Engineering Journal.2011,174(2-3):652-659(SCI:000297569600020,EI:20114314450434)

15. Pinghua Tan, Shengwei Tang, Bin Liang. Kinetic models for liquid-phase catalytic oxidation of toluene to benzoic acid with pure oxygen. Chemical Engineering Communications, 2010,197(7):953-962 (SCI:000277461500004,EI:20101112770678)

16. Shengwei Tang, Aaron M. Scurto, Bala Subramaniam. Improved 1-butene/isobutane alkylation with acidic ionic liquids and tunable acid/ionic liquid mixtures. Journal of Catalysis. 2009, 268:243-250. (IF=5.167) (SCI:000272899900007,EI20111213847898)

17. Shengwei Tang, Wen Shen, Bin Liang. Influences of [Co2+] / [Co3+] on the Process of Liquid-phase Oxidation of Toluene by Air. Chinese Journal of Chemical Engineering. 2009, 17(4):613-617(SCI:000269784100011,EI:20095112562782)

18. Shengwei Tang, Bin Liang. Scale Formation and Its Mechanism in the Liquid-Phase Oxidation of Toluene by Air. Industrial & Engineering Chemistry Research. 2007, 46(23), 7826-7829(SCI:000250584100046,EI:074810953023)

19. Shengwei Tang, Bin Liang. Kinetics of the Liquid-Phase Oxidation of Toluene by Air. Industrial & Engineering Chemistry Research. 2007, 46(20), 6442-6448(SCI:000249610000010,EI:074310886449)

20. Shengwei Tang, Guo Hui, Ying Jiankang, Liang Bin. Physicochemical Properties of Acidic Ammonium Phosphate Slurries. Industrial & Engineering Chemistry Research. 2004, 43(12), 3194-3199 (SCI:000221859100037,EI:EI04258222291)

小组成员[top]
教 授: 唐盛伟 
讲 师: 张涛