中法核工程与技术学院第111期学术午餐会

中法核工程与技术学院第111期学术午餐会

111^th Academic Lunch Seminar of Sino-French Institute of Nuclear Engineering and Technology

Topic 1：现代泌尿微创外科技术及临床新需求

Speaker:  戴英波 教授

Time: 2019年9月27日  星期五12:40 – 13:15

Venue: 中山大学珠海校区 教学楼F303

Language: 中文

About the speaker:

戴英波教授，现任中山大学附属第五医院泌尿外科主任医师。自2004年开始承担本科学习生临床带教，2006年开始承担本科生大课授课，2011年开始培养硕士研究生，2013年任外科教研室教学主任，承担本科生、硕士生、博士生、国际学生及住院医生规范化培训的授课，2016年开始培养博士研究生。擅长泌尿生殖系统恶性肿瘤腹腔镜及机器人辅助手术，钬激光治疗经皮肾镜、输尿管镜、输尿管镜治疗肾结石、尿路损伤修复重建，通过腹腔镜或机器人辅助腹腔镜手术进行根治性膀胱切除和尿道重建等。

主要研究方向：1.腺苷信号通路在高血压肾损伤时肾纤维化的作用机制研究；2.肾癌代谢信号通路研究。

Topic 2： Mesoscopic kinetic modeling of thermal fluid flows

Speaker:  Dr. Lin Chuandong（林传栋）

Time: 13:20 – 13:50, Friday Sep 27, 2019 

Venue: F303 in the teaching building, Zhuhai Campus, SYSU

Organizer: Sino-French Institute of Nuclear Engineering and Technology, Sun Yat-sen University

Language: English / Chinese

Abstract:

      Thermal fluid flows widely exist in nature and engineering applications. Most fluid systems involve molecular collisions at the micro-scale level and large eddies at the macro-scale level, and contain complex hydrodynamic and thermodynamic nonequilibrium behaviors, which often pose great challenges to traditional numerical simulation methods. Macroscopic models often encounter insufficient physical accuracy for nonequilibrium fluid, while microscopic particle methods are usually limited by computational resources. As a mesoscopic model based on the Boltzmann equation, the discrete Boltzmann method (DBM) could be used to solve above issues. The DBM is not only consistent with the macroscopic governing equations in the hydrodynamic limit, but also capable of describing nonequilibrium effects beyond traditional macroscopic models. In this report, the discrete Boltzmann models (DBMs) are constructed and employed to investigate both subsonic and supersonic fluid flows with or without chemical reactions. 

About the speaker:

Dr. Lin Chuandong is an associate professor and master supervisor in Sino-French Institute of Nuclear Engineering and Technology, Sun Yat-sen University now. He received his Ph.D. degree China University of Mining and Technology, Beijing, in 2016. His work mainly focuses on the construction and application of discrete Boltzmann method to fluid instabilities, combustion, and detonation, etc. His research is helpful in studying the physical mechanisms and characteristics of nonequilibrium physical systems at the micro-mesoscopic scale, and can provide reliable numerical data and theoretical bases for the improvement of traditional models.