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谭 蔚

现任职称/职务:英才教授
通讯地址:天津大学北洋园校区50楼
电子邮箱:wtan@tju.edu.cn
办公电话:13602104845

论著专利:

[1]    Tan W, Gao T, Wang Y. Influenceof Surface Potential on the Capacitive Performance of the TiO2 Thin-FilmElectrode with Different Crystalline Forms[J]. Langmuir,2020,36(14):3836-3842.

[2]    Fan, Xiantao; Guo, Kai; Jia,Zhanbin; Wang, Yang; Tan, Wei. Vibration mode and velocity interference mechanismof tandem cylinders at subcritical Reynolds number[J]. Journal of WindEngineering & Industrial Aerodynamics,2020,199:104136.

[3]    Fan D, Tan W, Zhu G. Amultiple-outlet adaptive boundary condition for Eulerian-Eulerian multiphasenumerical simulation[J]. Chemical Engineering Science,2020,214:115447.

[4]    Kai Guo , Wei Xu , Zhanbin Jia, Wei Tan. Investigation of Fluid-Elastic Instability in Tube Arrays at LowMass Damping Parameters in Cross-Flow[J]. JOURNAL OF PRESSURE VESSELTECHNOLOGY-TRANSACTIONS OF THE ASME, 2020, 142(1): 011401.

[5]    Tan W, Lü D, Liu L, et al.Suppression of methane/air explosion by water mist with potassium halideadditives driven by CO2[J]. Chinese Journal of ChemicalEngineering,2019,27(11):2742-2748.

[6]    Xin Shi, Liyan Liu, WenfengCao, Guorui Zhu, Wei Tan. ADean-flow-coupled interfacial viscoelastic fluid for microparticle separationapplied in a cell smear method[J]. Journal Citation Reports, 2019, 144(20):5934-5946.

[7]    Li B, Xin F, Tan W, et al.Mesoscopic assessment of water droplet collision with a single stainless steelfiber in oil[J]. DESALINATION AND WATER TREATMENT,2019,166:399-408.

[8]    Lv D, Tan W, Zhu G, et al.Gasoline fire extinguishing by 0.7 MPa water mist with multicomponent additivesdriven by CO2[J]. Process Safety and Environmental Protection,2019,129:168-175.

[9]    Ntakirutimana S, Tan W, Wang Y.Enhanced surface activity of activated carbon by surfactants synergism[J]. RSCAdvances,2019,9(45):26519-26531.

[10]     Li B, XinF, Zhu G, Tan, W. Asymmetric coalescence-induced droplet jumping on hydrophobicfibers[J]. Chemical Engineering Science,2019,201:298-308.

[11]     Liu L,Han L, Shi X, et al. Hydrodynamic separation by changing equilibrium positionsin contraction–expansion array channels[J]. Microfluidics andNanofluidics,2019,23(4).

[12]     Tan W, LiC, Wang K, et al. Geometric effect of buildings on the dispersion of carbondioxide cloud in idealized urban street canyons[J]. Process Safety andEnvironmental Protection,2019,122:271-280.

[13]     ChaojieLi, Liyan Liu, Wei Tan. Evaluation of RSM for Simulating Dispersion of CO2Cloud in Flat and Urban Terrains[J]. Aerosol and Air QualityResearch,2019,19(2):390-398.

[14]     LY Liu,SP Liang, HC Liu, GR Zhu, W Tan. Nitrate contamination in a coastal soil andwater system: A case study after the Tianjin Port 8·12 explosion, China[J].Human and Ecological Risk Assessment: An InternationalJournal,2019,25(8):2017-2031.

[15]     Tan W , Wu H , Zhu G . Fluid-Structure Interaction Using LatticeBoltzmann Method: Moving Boundary Treatment and Discussion of CompressibleEffect[J]. Chemical Engineering Science, 2018: 184, 273-284.

[16]     Li, B., Xin, F., Tan, W.*, Zhu, G.*. A New Theoretical Model forCoalescence-Induced Droplet Jumping on Hydrophobic Fibers[J]. Industrial &Engineering Chemistry Research, 2018, 57(24), 8299-8307.

[17]     Tan, W., Li, Z., Wu, H., Wang, Y., Zhang, Y., Zou, J., Zhu, G.*.Experiment Study on Fluidelastic Instability of Tube Bundles Consisting ofDifferent Frequency Tubes with Visual Image Processing System[J]. Journal ofPressure Vessel Technology, 2018, 140(03), 031302-031302-9.

[18]     Tan, W., Li, C., Wang, K., Zhu, G., Wang Y., Liu, L.*. Dispersion ofcarbon dioxide plume in street canyons, Process Safety and EnvironmentalProtection[J]. 2018, 116, 235-242.

[19]     Tan, W., Wang, K., Li, C., Liu, L., Wang, Y., Zhu, G.*. Experimentaland numerical study on the dispersion of heavy gases in urban environments[J].Process Safety and Environmental Protection, 2018, 116, 640-653.

[20]     谭蔚,张天保,郭凯,王一鹏.发夹式换热器管束流致振动数值模拟研究[J].压力容器,2020,37(03):15-20+49.

[21]     谭蔚,姜淞元,邹建东,贾占斌,郭凯.板式换热器波纹板片结构承载特性研究[J].化工机械,2019,46(05):519-523+560.

[22]     谭蔚,姜淞元,贾占斌,苏桐,张天保.梯形波纹板式换热器换热性能试验研究[J].压力容器,2019,36(08):1-6.

[23]     谭蔚,姜淞元,熊光明,贾占斌,郭凯.防振条间隙对蒸汽发生器U形管固有频率影响敏感性分析[J].核动力工程,2019,40(02):53-57.

[24]     刘丽艳,徐炜,谭蔚,李昭,郭凯.空间弯管管束固有频率及附加质量系数计算[J].核动力工程,2019,40(02):62-67.

[25]     谭蔚,李昭,王一鹏,贾占斌.支撑失效对折流杆换热器管束振动特性影响研究[J].化工机械,2018,45(03):282-28


专著
主编:

[1] 《化工设备设计基础》(第四版)天津大学出版社,2021年7月

[2] 《管壳式换热器流体诱发振动》,中国石化出版社,2014年3月

[3] 《化工设备设计基础》(第三版)天津大学出版社,2014年8月

[4] 《化工设备设计基础》(第二版)天津大学出版社,2007年3月
[5] 国家“十五”规划教材《压力容器安全管理工程》,化学工业出版社,2006年5月
[6] 《化工设备设计基础》,天津大学出版社,2000年9月
参编:
[1] 《换热器》(上下册),中国石化出版社,2013年1月
[2] 《机械工程师手册》(第3版),机械工业出版社,2007年3月
[3] 《固液两相过滤及分离技术》,化学工业出版社,2005年7月
[4] 《化工设备设计手册》,化学工业出版社,2004年8月
[5] 《压力容器与化工设备实用手册》,化学工业出版社,2000年6月
授权专利:
[1] 谭蔚等. 连续化海冰离心脱盐系统装置及方法:中国. 2012103847364.  2013-02-27

[1]   谭蔚等.一种塔器用防振粘滞阻尼器:中国. 201811350984.02020-11-27

[2]   谭蔚等.一种夹套式塔器固有频率的计算方法:中国. 201611033370.02019-07-09

[3]   谭蔚等.非对称转子双试重平衡法:中国. 201510881770.62019-01-15

[4]   谭蔚等.一种氧化石墨连续纯化的方法及所用的电渗析实验设备:中国. 201510757777.72018-01-16

[5]   谭蔚等.塔器防振用摆动式阻尼器:中国. 201410347429.82017-08-08

[6]   谭蔚等.塔器防振用圆柱形液体阻尼器:中国. 201410348560.62017-06-06

[7]   谭蔚等.一种浓缩机的进料井装置:中国.201410471205.82016-01-06

[8]   谭蔚等. 铜精矿加压过滤所用复丝滤布的清洗方法:中国. 2013105528419. 2015-08-09

[9]   谭蔚等. 铜精矿过滤所用滤布的清洗剂:中国. 2013105533633. 2015-05-06

[10]     谭蔚等. 连续化海冰离心脱盐系统装置及方法:中国. 2012103847364. 2013-02-27

[11]     谭蔚等.粉煤灰联产活性硅酸钙生产过程中的脱水方法:中国. 201110251049 2. 2012-04-18

[12]     谭蔚等. 砂提取液生产过程中的澄明方法:中国. 201110074505.9. 2011-09-21

[13]     谭蔚等. 橡胶硫化促进剂M生产过程中的脱水方法:中国.200810053517.1.2008-11-19

[14]     谭蔚等. 糠醇生产过程中的催化剂分离装置及方法:中国. 200810052837.5. 2008-09-17 SHAPE \* MERGEFORMAT