Prof. Mingzhou Yu

China Jiliang University (CJLU)

Mingzhou Yu is now a full Professor at China Jiliang University (CJLU). He was selected by National Ten Thousand People Program and Humboldt Fellow. He received his PhD degree from Zhejiang University in 2008. During the time period between 2009 and 2012, he moved to Karlsruhe Institute of Technology, Germany, as a Alexander von Humboldt researcher where he worked with Prof. Gerhard Kasper and Dr. Martin Seipenbusch. From 2013 to 2018, he joined Prof. Junji Cao's research group at Key Laboratory of Aerosol Chemistry and Physics, Chinese Academy of Science as a guest Professor. He also worked in The Hongkong Polytechnic University (2013) and Universidad Autónoma de Madrid, Spain (2015-2016), as a research associate or postdoc researcher. His research mainly includes multiphase flow control, precise measurement, advanced manufacturing, Metrology Technology and Standardization.

      于明州，中国计量大学教授（二级），国家万人计划，德国洪堡学者，浙江省151第一层次，浙江省杰出青年基金获得者。2020年，获首届浙江省创新领军人才第一层次；2021年，排名第一，荣获浙江省科技进步二等奖。

      近年来，在控制、计量、检测理论与技术领域，获包括浙江省科技进步一等奖等省部级奖4项，行业协会奖1项；发表SCI论文90余篇，申请授权和公开发明专利23项，参与制定和发布国家技术标准5项。负责5项国家自然科学基金（包括国际联合）。为4个杂志的编委，包括SCI、EI、中国领军期刊；一个杂志的特邀副主编；为6个学术组织或国家标委会委员。主办中德微细颗粒技术等国际、国内会议10余次，近五年被邀请做大会报告或分会报告特邀报告20余次。

Speech Title: New methods for Nanoparticle Dynamics during Measurement and Control

Abstract: In this conference talk, I will introduce a method for resolving nanoparticle dynamics during measurement and control. I will focus the synthesis and utilization of engineered nanoparticle dynamics (ENP), which is an active industrial field that provides great opportunities for making advanced materials with unique physical-chemical and biological properties. However, regardless of the synthesis process or the utilization process, the evolution of number distribution cannot be stopped because of free moleculars’ thermal movement, even without any human’s affection, which results in particles collision, size grow and number decrease. Such micro-physics or chemical processes are actually heat and mass transfer processes between the dispersed phase and continuum phase. Whether we can control the evolution of size distribution of ENPs not only decide the final quality of ENPs’ product but also determine whether we can remove or reduce the negative effect of EPNs on human health. Therefore, the precise and high efficient mathematical model for describing the process becomes important in the chemical engineering processes and environmental engineering. We proposed two schemes for resolving the evolution of size distributions. In this talk, I will present how the method is implemented and how this method can be used to solve practical particle dynamics evolution problems