邹志翔

发布者:蒋莉发布时间:2019-10-21浏览次数:2516

 

邹志翔

职称:副研究员、硕士生导师

研究方向:智能变压器、交直流配电网、变换器建模与控制、稳定性分析

Email: zzou@seu.edu.cn

办公电话: 13913011921

 

欢迎有志于从事电力电子在电力系统中应用方向的同学与我联系。

个人简介:

邹志翔博士于201910月加入东南大学电气工程学院。他于2007年和2014年在东南大学电气工程学院分别获得工学学士和工学博士学位,于2019年在德国基尔大学电力电子研究所获得工学博士学位(特优,summa cum laude)。邹博士在2007年至2008年在国网电科院担任工程师,2014年至2019年在德国基尔大学电力电子研究所担任讲师(Lecturer)及研究员(Research fellow)。

邹博士的主要研究方向包括智能变压器/电力电子变压器,交直流配电网,功率变换器建模与控制,稳定性分析。已发表相关领域SCI/EI论文60余篇,获授权发明专利5件,为IEEE Open Journal of Power ElectronicsIEEE Access期刊副主编(Associate Editor)International Transactions on Electrical Energy SystemsMathematical Problems in Engineering期刊编委,Applied Sciences期刊客座主编。

  

论著:

-10篇代表作

[1] Z. Zou, Z. Wang and M. Cheng, Modeling, analysis, and design of multifunction grid-interfaced inverters with output LCL filter, IEEE Transactions on Power Electronics, vol. 29, no. 7, pp. 3830-3839, July 2014. (ESI高被引论文)

[2] Z. Zou, K. Zhou, Z. Wang and M. Cheng, Frequency-adaptive fractional-order repetitive control of shunt active power filters, IEEE Transactions on Industrial Electronics, vol. 62, no. 3, pp. 1659-1668, March 2015. (ESI高被引论文)

[3]Z. Zou, K. Zhou, Z. Wang and M. Cheng, Fractional-order repetitive control of programmable AC power sources, IET Power Electronics, vol. 7, no. 2, pp. 431-438, February 2014. (IET Power Electronics引用前50)

[4]Z. Zou, Z. Wang and M. Cheng, Design and analysis of operating strategies for a generalised voltage-source power supply based on internal model principle, IET Power Electronics, vol. 7, no. 2, pp. 330-339, February 2014.

[5] Z. Zou, G. De Carne, G. Buticchi and M. Liserre, Smart transformer-fed variable frequency distribution grid, IEEE Transactions on Industrial Electronics, vol. 65, no. 1, pp. 749-759, Jan. 2018.

[6]Z. Zou, G. Buticchi and M. Liserre, Analysis and stabilization of a smart transformer-fed grid, IEEE Transactions on Industrial Electronics, vol. 65, no. 2, pp. 1325-1335, Feb. 2018.

[7]Z. Zou, F. Hahn, G. Buticchi, S. Günter and M. Liserre, Interleaved operation of two neutral-point-clamped inverters with reduced circulating current, IEEE Transactions on Power Electronics, vol. 33, no. 12, pp. 10122-10134, Dec. 2018.

[8]Z. Zou, G. Buticchi and M. Liserre, Grid identification and adaptive voltage control in a smart transformer-fed grid, IEEE Transactions on Power Electronics, vol. 34, no. 3, pp. 2327-2338, March 2019.

[9]Z. Zou, R. Rosso and M. Liserre, Modeling of the phase detector of a synchronous-reference-frame phase-locked loop based on second-order approximation, IEEE Journal of Emerging and Selected Topics in Power Electronics, in press.

[10]Z. Zou and M. Liserre, Modeling phase-locked loop-based synchronization in grid-interfaced converters, IEEE Transactions on Energy Conversion, vol. 35, no. 1, pp. 394-404, March 2020.

  

  

科研:

[1] 德意志研究联合会(DFG)重大项目子课题,“Formal stability assessment of hybrid distribution grids based on the correct modeling of the effect of synchronization of the power electronics interfaces”,起止年月:2017.10-2020.9,主持;

[2] 江苏省普通高校研究生科研创新计划项目,基于内模原理的新能源发电逆变器并联控制技术,起止年月:2013.1-2013.12,主持;

[3] 德国联邦环境、自然保护、建筑和核安全部项目,“Analysis of the electrical characteristics of medium-voltage grids regarding the optimization during high energy input from wind energy systems”,起止年月:2015.7-2019.6,主要参与人;

[4] 欧盟科研基金(ERC)第七框架项目,“The Highly Efficient And Reliable smart Transformer (HEART), a new heart for the electric distribution system”,起止年月:2014.4-2019.3,主要参与人。

  

  

教学:

在东南大学期间,承担本科/研究生专业课2门:

[1] 《电工电子技术》,本科教学;

[2] 《新能源与分布式发电》,硕士专业课。

在德国基尔大学期间,承担研究生专业课3门:

[1] Renewable energy system》,硕士专业课;

[2] Grid converter for photovoltaic and wind power systems》,硕士专业课;

[3] The smart transformer》,博士专业课。

  

人才培养:

在东南大学期间,协助指导硕士研究生2人:

李楚涵(2019级)、张博伦(2020级)。

在德国基尔大学期间,已指导毕业硕士研究生3人:

[1] Yao Mi,于2015年毕业于德国基尔大学,论文题目“Comparison of DC-AC power converters for PMSM with reduced DC-link capacitor”

[2] Steffen Flacke,于2018年毕业于德国基尔大学,论文题目“Control and stability analysis of a grid impedance measurement”

[3] Behnam Daftary Besheli,于2018年毕业于德国基尔大学,论文题目“Stability assessment of active electric grid with the effect of synchornisation of power electronic interfaces”