中国计量大学硕士生导师信息表

基本信息

姓名: 于明州 性别: 学位: 博士
职称: 教授 一级学科: 控制科学与工程 二级学科: 控制理论与控制工程
二级学院: 机电工程学院 一级学科2: 力学 二级学科2: 流体力学
研究方向: 流体工程 纳米颗粒多相流 工业过程标准化 颗粒科学与技术 办公地点:
办公电话: 移动电话: 13758136221 Email: mzyu@cjlu.edu.cn

在研课题

1 矿山新型甲烷通风防尘安全仪器计量技术研究 2017.07-2020.09 国家级重点(国家重点研发计划) 国家科技部,子课题技术负责人
2 生产作业场所灾害预警防控关键技术及应用-生产作业场所多危害因素在线监测预警技术及应用 2018.01-
2020.12 省部级重点(浙江省重点研发计划)浙江省科学技术厅,200万 参与单位单位技术负责人
3 应用于尺度谱演变问题的通用泰勒展开矩方法研究 2016.01-2019.12 省部级重点(省杰出青年基金) 浙江省自然科学基金委,40万 负责人
4 基于“相变-凝并-冷凝”过程的大气气溶胶细微颗粒两相湍流研究 2014.01-2017.12 国家级
(国基金面上) 国家自然科学基金委,86万 负责人 否
5 Mobility of nanoscale metal islands and clusters on oxide surfaces(GZ971) 2014.04-
至今 国家级(中德合作研究项目) 国家自然科学基金委&德国DFG基金会, 负责人

获奖情况

洪堡学者(德国);
教育部高校自然科学一等奖(2012年);
浙江省自然科学二等奖(2017年);
浙江省新世纪151第一、二层次人才(2016年;2012年);
浙江省杰出青年基金获得者(2016);
浙江省科学技术进步一等奖(2009年);
浙江省高校优秀成果奖二等奖(2013);

近期发表的主要成果

个人网页 https://scholar.google.com/citations?hl=en&user=98H1wVIAAAAJ&view_op=list_works&sortby=pubdate

[1] Xie, M., and Yu, M., 2018, “Thermodynamic Analysis of Brownian Coagulation Based on Moment Method,” Int. J. Heat Mass Transf., 122, pp. 922–928.
[2] Xiao, Y., Wang, L., Yu, M., Shui, T., Liu, L., and Liu, J., 2018, “Characteristics of Indoor/outdoor PM2.5and Related Carbonaceous Species in a Typical Severely Cold City in China during Heating Season,” Build. Environ., 129, pp. 54–64.
[3] Wang, L., Zheng, X., Stevanovic, S., Xiang, Z., Liu, J., Shi, H., Liu, J., Yu, M., and Zhu, C., 2018, “Characterizing Pollutant Emissions from Mosquito Repellents Incenses and Implications in Risk Assessment of Human Health,” Chemosphere, 191.
[4] Wang, L., Chang, J., Zheng, X., Liu, J., Yu, M., Liu, L., Yang, Y., and Zhang, H., 2018, “Survey of Ecological Environmental Conditions and Influential Factors for Public Parks in Shanghai,” Chemosphere, 190.
[5] Koivisto, A. J., Kling, K. I., Fonseca, A. S., Bluhme, A. B., Moreman, M., Yu, M., Costa, A. L., Giovanni, B., Ortelli, S., Fransman, W., Vogel, U., and Jensen, K. A., 2018, “Dip Coating of Air Purifier Ceramic Honeycombs with Photocatalytic TiO 2 Nanoparticles: A Case Study for Occupational Exposure,” Sci. Total Environ., 630, pp. 1283–1291.
[6] Yu, M., Liu, Y., and Koivisto, A. J., 2017, “An Efficient Algorithm Scheme for Implementing the TEMOM for Resolving Aerosol Dynamics,” Aerosol Sci. Eng., 1(3), pp. 119–137.
[7] Yu, M., Lin, J., Seipenbusch, M., and Cao, J., 2017, “Verification of Size-Resolved Population Balance Modeling for Engineered Nanoparticles Under High Concentration,” Chem. Eng. J., 323, pp. 592–604.
[8] Yu, M., and Lin, J., 2017, “Taylor Series Expansion Scheme Applied for Solving Population Balance Equation,” Rev. Chem. Eng., doi.org/10.
[9] Yu, M., and Lin, J., 2017, “New Scheme for Implementing the Method of Moments with Interpolative Closure,” Aerosol Sci. Technol., 51(8), pp. 956–971.
[10] Yu, M., and Lin, J., 2017, “Hybrid Method of Moments with Interpolation closure–Taylor-Series Expansion Method of Moments Scheme for Solving the Smoluchowski Coagulation Equation,” Appl. Math. Model., 10.1016/j.
[11] Xiang, Z., Wang, H., Stevanovic, S., Jing, S., Lou, S., Tao, S., Li, L., Liu, J., Yu, M., and Wang, L., 2017, “Assessing Impacts of Factors on Carbonyl Compounds Emissions Produced from Several Typical Chinese Cooking,” Build. Environ., 125.
[12] Wang, H., Xiang, Z., Wang, L., Jing, S., Lou, S., Tao, S., Liu, J., Yu, M., Li, L., Lin, L., Chen, Y., Wiedensohler, A., and Chen, C., 2017, “Emissions of Volatile Organic Compounds (VOCs) from Cooking and Their Speciation: A Case Study for Shanghai with Implications for China,” Sci. Total Environ.
[13] Yu, M., Liu, Y., Jin, G., and Jin, H., 2016, “A New Analytical Solution for Agglomerate Growth Undergoing Brownian Coagulation,” Appl. Math. Model., 40, pp. 5497–5509.
[14] LIN, J., YU, M.-Z., and NIE, D., 2016, “On the Nanoparticulate Flow,” J. Hydrodyn. Ser. B, 28(6), pp. 961–970.
[15] Zhong, M., Li, X., Long, J., Jiang, Y., Seipenbusch, M., and Yu, M., 2015, “Improvement of the Averaged Method Model on the Deposition Loss Rate Coefficient,” Huanjing Kexue Xuebao/Acta Sci. Circumstantiae, 35(3).
[16] Zhang, X., Yu, M. Z., Liu, Y., and Seipenbusch, M., 2015, “Verification of Expansion Orders of the Taylor- Series Expansion Method of Moment Model for Solving Population Balance Equations,” Aerosol Air Qual. Resarch, 15(6s), pp. 2475–2484.
[17] Zhang, X., Yu, M., Liu, Y., and Seipenbusch, M., 2015, “Verification of Expansion Orders of the Taylor-Series Expansion Method of Moment Model for Solving Population Balance Equations,” Aerosol Air Qual. Res., 15(6).
[18] Yu, M., Zhang, X., Jin, G., Lin, J., and Seipenbusch, M., 2015, “A New Analytical Solution for Solving the Population Balance Equation in the Continuum-Slip Regime,” J. Aerosol Sci., 80, pp. 1–10.
[19] Yu, M., Liu, Y., Lin, J., and Seipenbusch, M., 2015, “Generalized TEMOM Scheme for Solving the Population Balance Equation,” Aerosol Sci. Technol., 49(11), pp. 1021–1036.
[20] Yu, M., Lin, J., Cao, J., and Seipenbusch, M., 2015, “An Analytical Solution for the Population Balance Equation Using a Moment Method,” Particuology, 18, pp. 194–200.
[21] Yu, M., and Chan, T. L., 2015, “A Bimodal Moment Method Model for Submicron Fractal-like Agglomerates Undergoing Brownian Coagulation,” J. Aerosol Sci., 88, pp. 19–34.
[22] Liu, H., Yu, M., Yin, Z., and Jiang, Y., 2015, “Evolution of Nano-Particles within a Diesel Car Exhaust Plume via TEMOM-LES Method,” Sci. Technol. Rev., 33(6), pp. 64–68.
[23] Lin, J.-Z., Yin, Z.-Q., Lin, P.-F., Yu, M.-Z., and Ku, X.-K., 2015, “Distribution and Penetration Efficiency of Nanoparticles between 8--550nm in Pipe Bends under Laminar and Turbulent Flow Conditions,” Int. J. Heat Mass Transf., 85, pp. 61–70.
[24] Yu, M., Seipenbusch, M., Yang, J., and Jin, H., 2014, “A New Analytical Solution for Solving the Smoluchowski Equation Due to Nanoparticle Brownian Coagulation for Non-Self-Preserving System,” Aerosol Air Qual. Res., 14, pp. 1726–1737.
[25] Wu, X., Wang, L., Feng, L., Xiu, G., Zhu, C., and Yu, M., 2014, “Characteristics of Fine Particles and Black Carbon Emitted from Different Chinese Cooking Methods,” Indoor Air 2014 - 13th International Conference on Indoor Air Quality and Climate.
[26] Vogel, U., Savolainen, K., Wu, Q., van Tongeren, M., Brouwer, D., and Berges, M., 2014, Handbook of Nanosafety: Measurement, Exposure and Toxicology, Elsevier.
[27] Sigmund, S., Yu, M., Meyer, J., and Kasper, G., 2014, “An Aerosol-Based Process for Electrostatic Coating of Particle Surfaces with Nanoparticles,” Aerosol Sci. Technol., 48(2), pp. 142–149.
[28] Seipenbusch, M., Kasper, M., and Yu, M., 2014, Interdependence of Particle Number Concentration and PM 2 . 5 in Highly Polluted Urban Atmospheres The Problem?:
[29] Seipenbusch, M., Yu, M., Asbach, C., Rating, U., Kuhlbusch, T. A. J., and Lidén, G., 2014, From Source to Dose: Emission, Transport, Aerosol Dynamics and Dose Assessment for Workplace Aerosol Exposure.
[30] Liu, H., Yu, M., Yin, Z., Jiang, Y., and Chen, M., 2014, “Study on the Evolution of Nanoparticle Size Distribution due to Continuous Injection Using the Sectional Method,” Int. J. Numer. Methods Heat Fluid Flow, 24(8), pp. 1803–1812.
[31] Lin, J., Yin, Z., Gan, F., and Yu, M., 2014, “Penetration Efficiency and Distribution of Aerosol Particles in Turbulent Pipe Flow Undergoing Coagulation and Breakage,” Int. J. Multiph. Flow, 61, pp. 28–36.
[32] Koivisto, A. J., Palom?ki, J. E., Viitanen, A.-K., Siivola, K. M., Koponen, I. K., Yu, M., Kanerva, T. S., Norppa, H., Alenius, H. T., Hussein, T., Savolainen, K. M., and H?meri, K. J., 2014, “Range-Finding Risk Assessment of Inhalation Exposure to Nanodiamonds in a Laboratory Environment.,” Int. J. Environ. Res. Public Health, 11(5), pp. 5382–402.
[33] Chen, Z., Lin, J., and Yu, M., 2014, “A Direct Expansion Method of Moments for Brownian Coagulation,” Phys. Scr., 89(12), p. 125204.
[34] Chen, Z., Lin, J., and Yu, M., 2014, “Asymptotic Behavior of the Taylor-Expansion Method of Moments for Solving a Coagulation Equation for Brownian Particles,” Particuology, 14, pp. 124–129.
[35] Chen, Z., Lin, J., and Yu, M., 2014, “Direct Expansion Method of Moments for Nanoparticle Brownian Coagulation in the Entire Size Regime,” J. Aerosol Sci., 67, pp. 28–37.
[36] Yu, M., Seipenbusch, M., Yu, M., Koivisto, A. J., and H?meri, K., 2013, “Size Dependence of the Ratio of Aerosol Coagulation to Deposition Rates for Indoor Aerosols,” Aerosol Sci. Technol., 47(4), pp. 427–434.
[37] Yu, M., and Seipenbusch, M., 2013, “Engineering Nano-Scale Aerosol Based on Measurement and Construction of Theoretical Model,” China Powder Sci. Technol., 19(5), pp. 34–38.
[38] Qian, L., Lin, J., and Yu, M., 2013, “Parametric Study on Suspension Behavior in an Inductively Coupled Plasma,” J. Therm. spray Technol., 22(6), pp. 1024–1034.
[39] Lin, J., Yu, M., Liu, Y., and Lin, P., 2013, Nanoparticle-Laden Two-Phase Flow Dynamics, Science Press, Beijing.
[40] Chen, M.-G., Jiao, Z.-W., Yu, S.-J., Yu, M.-Z., Bao, F.-B., and Nakamura, K., 2013, “Temperature Dependence of Coercivity Behavior in Fe Films on Fractal Rough Ceramics Surfaces,” Jpn. J. Appl. Phys., 52, p. 01AC13.
[41] Zhang, K., Tian, F. Z., and Yu, M. Z., 2012, “Induced-Charge Electroosmosis around Conducting and Janus Cylinder in Microchip,” Therm. Sci., 16(5), pp. 1502–1505.
[42] Zhang, K., Mi, X.-J., and Yu, M.-Z., 2012, “Design of Super-Efficient Mixer Based on Induced Charge Electroosmotic,” Therm. Sci., 16(5), pp. 1534–1538.
[43] Yu, M.-Z., and Zhang, K., 2012, “The Verification of the Taylor-Expansion Moment Method in Solving Aerosol Breakage,” Therm. Sci., 16(5), pp. 1424–1428.
[44] Xu, P., Yu, M.-Z., Qiu, S.-X., and Yu, B.-M., 2012, “Monte Carlo Simulation of a Two-Phase Flow in an Unsaturated Porous Media,” Therm. Sci., 16(5), pp. 1382–1385.
[45] Xu, P., Qiu, S., Yu, M., Qiao, X., and Mujumdar, A. S., 2012, “A Study on the Heat and Mass Transfer Properties of Multiple Pulsating Impinging Jets,” Int. Commun. Heat Mass Transf., 39(3), pp. 378–382.
[46] Xie, M.-L., Yu, M.-Z., and Wang, L.-P., 2012, “A TEMOM Model to Simulate Nanoparticle Growth in the Temporal Mixing Layer due to Brownian Coagulation,” J. Aerosol Sci., 54, pp. 32–48.
[47] Li, Z., Yang, Y. K., Qi, L. C., Xu, Y., Zhang, P., and Yu, M. Z., 2012, “A Novel Moment Method to Estimate Aerosol Emission Rate for a Source,” Adv. Mater. Res., 518–523, pp. 1839–1843.
[48] Joonas Koivisto, A., Yu, M., H?meri, K., and Seipenbusch, M., 2012, “Size Resolved Particle Emission Rates from an Evolving Indoor Aerosol System,” J. Aerosol Sci., 47, pp. 58–69.
[49] Chen, M.-G., Yu, S.-J., Jiao, Z.-W., Yu, M.-Z., and Bao, F.-B., 2012, “Deposition-Rate Dependence of Granular Size Distribution in Cu Aggregate on Liquid Substrate Studied by Atomic Force Microscopy,” Philos. Mag. Lett., 92(3), pp. 122–127.
[50] Anand, S., Mayya, Y. S., Yu, M., Seipenbusch, M., and Kasper, G., 2012, “A Numerical Study of Coagulation of Nanoparticle Aerosols Injected Continuously into a Large, Well Stirred Chamber,” J. Aerosol Sci., 52, pp. 18–32.
[51] Yu, M., Lin, J., Jin, H., and Jiang, Y., 2011, “The Verification of the Taylor-Expansion Moment Method for the Nanoparticle Coagulation in the Entire Size Regime due to Brownian Motion,” J. Nanoparticle Res., 13(5), pp. 2007–2020.
[52] Yu, M., Jiang, Y., and Zhang, K., 2011, “The Study on Micro-Scale Particle Coagulation due to Turbulence Shear Mechanism Using TEMOM Model,” Chinese J. Theor. Appl. Mech., 43(3), pp. 447–453.
[53] Lin, P., Wu, D., Yu, M., Wang, C., Zhang, L., and Zhu, Z., 2011, “Large Eddy Simulation of the Particle Coagulation in High Concentration Particle-Laden Planar Jet Flow,” CHINESE J. Mech. Eng. Ed., 24(6), pp. 947–956.
[54] Lin, P., Yu, M., Wang, C., Zhang, L., and Zhu, Z., 2011, “Evolution of High Concentration Particle Diffusion and Coagulation in Planar Jet Flow,” 2011 2nd International Conference on Mechanic Automation and Control Engineering, MACE 2011 - Proceedings.
[55] Lin, P., Wu, D., Yu, M., Wang, C., Zhang, L., and Zhu, Z., 2011, “Large Eddy Simulation of the Particle Coagulation in High Concentration Particle-Laden Planar Jet Flow,” Chinese J. Mech. Eng. (English Ed., 24(6).
[56] Zhang, K., Lin, J., and Yu, M., 2010, “Comparison of Micro- and Nano-Size Particle Transport and Depositions in 90 Degree Bend Microchannel,” Proceedings of the ASME Micro/Nanoscale Heat and Mass Transfer International Conference 2009, MNHMT2009.
[57] Yu, M., and Seipenbusch, M., 2010, “A Bimodal Moment Method for Aerosol Coagulation Using TEMOM Model,” International Aerosol Conference 2010, Helsinki, Finland, p. 1.
[58] Yu, M., and Lin, J., 2010, “The Dynamics of Nanoparticle-Laden Multiphase Flow and Its Application,” Mech. Eng., 3, pp. 1–9.
[59] Yu, M., and Lin, J., 2010, “Nanoparticle-Laden Flows via Moment Method: A Review,” Int. J. Multiph. Flow, 36(2), pp. 144–151.
[60] Yu, M., and Lin, J., 2010, “Binary Homogeneous Nucleation and Growth of Water–sulfuric Acid Nanoparticles Using a TEMOM Model,” Int. J. Heat Mass Transf., 53(4), pp. 635–644.
[61] Yu, M., Lin, J., Zhang, K., and Zhang, G., 2010, “Two-Way Coupling Model for Fractal-like Agglomerate-Laden Multiphase Flow,” Proceedings of the ASME Micro/Nanoscale Heat and Mass Transfer International Conference 2009, MNHMT2009.
[62] Lin, J., Lin, P., Yu, M., and Chen, H., 2010, “Nanoparticle Transport and Coagulation in Bends of Circular Cross Section via a New Moment Method,” Chinese J. Chem. Eng., 18(1), pp. 1–9.
[63] Gan, F., Lin, J., and Yu, M., 2010, “Particle Size Distribution in a Planar Jet Flow Under-Going Shear-Induced Coagulation and Breakage,” J. Hydrodyn. Ser. B, 22(4), pp. 445–455.
[64] Chen, M.-G., Yu, S.-J., Feng, Y.-X., Jiao, Z.-W., Yu, M.-Z., and Yang, B., 2010, “Microstructure and Growth Mechanism of Cu Ramified Aggregates on Silicone Oil Surfaces,” Thin Solid Films, 518(10).
[65] Zhang, K., Lin, J., and Yu, M., 2009, “Comparison of Micro-and Nano-Size Particle Transport and Depositions in 90 Degree Bend Microchannel,” Proceedings of the ASME 2009 2nd Micro/Nanoscale Heat & Mass Transfer International Conference, ASME, pp. 1–6.
[66] Yu, M., Lin, J., and Chan, T., 2009, “Numerical Simulation for Nucleated Vehicle Exhaust Particulate Matters via the TEMOM/LES Method,” Int. J. Mod. Phys. C, 20(3), pp. 399–421.
[67] Yu, M., and Lin, J., 2009, “Solution of the Agglomerate Brownian Coagulation Using Taylor-Expansion Moment Method,” J. Colloid Interface Sci., 336(1), pp. 142–9.
[68] Yu, M., and Lin, J., 2009, “Taylor-Expansion Moment Method for Agglomerate Coagulation due to Brownian Motion in the Entire Size Regime,” J. Aerosol Sci., 40(6), pp. 549–562.
[69] Yu, M., Lin, J., Zhang, K., and Zhang, G., 2009, “Two-Way Coupling Model for Fractal-Like Agglomerate-Laden Multiphase Flow,” Proceedings of the ASME 2009 2nd Micro/Nanoscale Heat & Mass Transfer International Conference, ASME, pp. 1–7.
[70] 于明州, 2008, “纳米粒子多相流矩方法研究,” Zhejiang University.
[71] Yu, M., Lin, J., and Chan, T., 2008, “A New Moment Method for Solving the Coagulation Equation for Particles in Brownian Motion,” Aerosol Sci. Technol., 42(9), pp. 705–713.
[72] Yu, M., Lin, J., and Chan, T., 2008, “Numerical Simulation of Nanoparticle Synthesis in Diffusion Flame Reactor,” Powder Technol., 181(1), pp. 9–20.
[73] Yu, M., Lin, J., and Chan, T., 2008, “Effect of Precursor Loading on Non-Spherical TiO2 Nanoparticle Synthesis in a Diffusion Flame Reactor,” Chem. Eng. Sci., 63(9), pp. 2317–2329.
[74] 于明州, 林建忠, and 陈丽华, 2007, “平面射流中纳米粒子积聚的矩方法,” 应用数学和力学, 28(11), pp. 1287–1295.
[75] Yu, M., Lin, J., and Xiong, H., 2007, “Quadrature Method of Moments for Nanoparticle Coagulation and Diffusion in the Planar Impinging Jet Flow,” Chinese J. Chem. Eng., 15(2005), pp. 828–836.
[76] Yu, M., Lin, J., and Chen, L., 2007, “Nanoparticle Coagulation in a Planar Jet via Moment Method,” Appl. Math. Mech., 28(2005), pp. 1445–1453.
[77] YU, M., LIN, J., and XIONG, H., 2007, “Quadrature Method of Moments for Nanoparticle Coagulation and Diffusion in the Planar Impinging Jet Flow* * Supported by the Ministry of Science and Technology of China (No.2005CCA06900).,” Chinese J. Chem. Eng., 15(6).
[78] Yu, M., Lin, J., Chen, L., and Chan, T., 2006, “Large Eddy Simulation of a Planar Jet Flow with Nanoparticle Coagulation,” Acta Mech. Sin., 22(4), pp. 293–300.
[79] Yu, M., Chen, L., and Shao, X., 2006, “Large Eddy Simulation of Secondary Eddy for Impinging Jet,” J. Zhejiang Univ. (Engineering Sci., 40(9), pp. 1624–1628.
[80] Yu, M., Jin, H., Chen, L., Fan, J., and Cen, K., 2005, “Large Eddy Simulation of the Dispersion of Dust Particles in Air,” Acta Sci. Circumstantiae, 25(7), pp. 891–895.
[81] Yu, M., Chen, L., Jin, H., and Fan, J., 2005, “Large Eddy Simulation of Coherent Structure of Impinging Jet,” J. Therm. Sci., 14(2), pp. 150–155.



主持完成的科研项目



个人简历

(A)工作简历
2003/09-2008/06 浙江大学,硕博研究生
2008/03-至今 中国计量大学,讲师-教授
2017/08-2017/09 德国斯图加特大学,访问研究员
2015/02-2016/03 西班牙UAM凝聚态物理研究中心,博士后研究员
2014/06-2014/09 德国KIT过程工程和力学系,访问研究员
2013/06-2013/12 香港理工大学机械系,Research Associate
2009/10-2012/06 德国KIT过程工程和力学系,洪堡学者
2009/04-2009/06 澳大利亚QUT化学/物理/机械工程学院,访问研究员
2013/05-至今    中科院地球环境研究所客座教授

(B)社会职务
1. 浙江省颗粒学会(建设)秘书长;
2. Journal of Hydrodynamics编委;
3. 《水动力学研究与进展》编委;
4. Journal of nanotechnology客座副主编;
5. 中国力学学会多相流体力学专业组委员;
6. 中国颗粒学会理事;
7. 中国颗粒学会团体标准化工作委员会委员;
8. 全国颗粒表征与筛检标准化委员会委员;
9. 欧洲 GAeF 协会、美国气溶胶协会、A & WMA 会员;
10. 第一届中德微细颗粒技术‘CME-FPT2013’国际研讨会组织委员会主席;
11. International Aerosol Conference(韩国,2013), World Conference Particle Technology(北京,2014)等著名国际会议分会主席;
12. 中国力学大会(2017)、第十一届全国颗粒测试技术应用研讨会(2017)学术委员会委员;
13. 中国力学大会 “离散介质多相流体力学专题研讨会”(2013)、“多相流计算方法与应用专题研讨会”(2017)等共同主席;
14. 第三届全国青年地学论坛“气溶胶与大气污染”专题召集人;
15.     全国纳米材料标准化技术委员会 观察员。

(C)邀请报告
a) 2018年
1. 矩方法在颗粒水动力方面的研究进展,第二十八届水动力学研讨会(中国力学学会、《水动力学研究与进展》编委会、中国造船工程学会、江苏大学联合主办),2018.8.24-2018.8.26,江苏镇江,特邀30分钟分会场主题报告.

b) 2017年
1. Taylor-series expansion method of moments (泰勒展开矩方法),中国力学大会-流体力学(北京,2017.08.13-2017.08.16)(3000人以上),大会特邀报告;
2. Taylor-series Expansion Method of Moments,北京应用物理与计算数学研究所-复杂流动跨尺度建模与模拟研究系列(2017.05.04),特邀报告;
3. Methods of Moments for Resolving Aerosol Dynamics,第十三届全国气溶胶大会(石家庄,2017.11.21-2017.11.24),邀请大会报告(分会场);
4. Taylor-series expansion method of moments,第一届国际海洋颗粒动力学研讨会(浙江大学,2017.08.18-2017.08.20),特邀报告

c) 2016年
5. Taylor-series Expansion Method of Moments (TEMOM) Applied for solving Population Balance Equation,The European Community on Computational Methods in Applied Sciences(2016),邀请报告;
6. 泰勒展开矩方法,首届多相流体力学青年论坛(2016),邀请报告。
c) 2015-
7. The Coupling between CFD and Population Balance Equation,Turbulent Particle-Laden Flow and Coal Combustion conference(2013),邀请报告;
8. Numerical studies on nanoparticle mobility on the plate surface due to high temperature,CME-FPT2013,邀请报告;
9. 第六、七、八、九届全国流体力学青年研讨会,国家自然科学基金委力学处,邀请报告;
10. A New Analytical Model for Aerosol Brownian Coagulation in Atmospheric Aerosols, International Aerosol Conference (2014),口头报告,分会主席;

(D)学校工作
中国计量大学科学技术处(人文社科处)副处长(挂职);中国计量大学机电工程学院机械系副主任;中国计量大学机电工程学院教授委员会副主任。

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