報(bào)告題目：Modelling, Assessment and Improvement of Resilience of Sustainable Power Systems

報(bào) 告 人：Prof. Jovica V Milanovic

會(huì)議時(shí)間：2023年5月12日 (周五)15:00

會(huì)議地點(diǎn)：騰訊會(huì)議 711-195-579

主辦單位：重慶大學(xué)、輸配電裝備及系統(tǒng)安全與新技術(shù)國(guó)家重點(diǎn)實(shí)驗(yàn)室、重慶大學(xué)溧陽(yáng)智慧城市研究院

協(xié)辦單位：四川大學(xué)、電子科技大學(xué)、西南交通大學(xué)、成都理工大學(xué)、成都中醫(yī)藥大學(xué)、四川師范大學(xué)、西華大學(xué)、西南科技大學(xué)、西南大學(xué)、重慶郵電大學(xué)、重慶科技學(xué)院

Personal Profile:

Jovica V Milanovic received Dipl. Ing. and M.Sc. degrees from the University of Belgrade, Yugoslavia, a PhD degree from the University of Newcastle, Australia, and a D.Sc. degree from The University of Manchester, UK. Currently, he is a Professor of Electrical Power Engineering and Head of the Department of Electrical and Electronic Engineering at The University of Manchester, UK, Visiting Professor at the University of Novi Sad and the University of Belgrade, Serbia and an Honorary Professor at the University of Queensland, Australia. He was chairman of 5 international conferences and editor or member of editorial/technical boards of 70+ international journals and conferences. Professor Milanovic is a Chartered Engineer in the UK a Foreign member of the Serbian Academy of Engineering Sciences. a Fellow of the IET, a Fellow of the IEEE, a Distinguished IEEE PES Lecturer, a member of the IEEE PES Industry Technical Support Leadership Committee, member of the IEEE PES Long Range Planning Committee, member of the IEEE Fellows Committee and Editor-in-Chief of IEEE Transactions on Power Systems.

Abstract:

Due to the evident climate change and environmental pressures, the future power/energy systems will have to operate, sooner rather than later, in a net-zero environment, i.e., ny carbon emissions created will have to be balanced (cancelled out) by taking the same amount of carbon out of the atmosphere so that the amount of carbon emissions added to the atmosphere should not be more than the amount taken away. The key characteristics of such a complex power/energy system, if only a few are to be picked, are increased uncertainties in system operation and parameters and much larger reliance on the use of measurement and other data collected. This will increase the controllability and observability of the system but may as a trade result in different/unexpected dynamic behaviour of the system and possibly, under some circumstances, deterioration of some aspects of its performance. This presentation aims to introduce the power system environment, both its characteristics and challenges, within which further integration of PV generation will be happening. The first part of the presentation will briefly introduce some of the key characteristics of future net-zero power systems and summarise the key challenges associated with ensuring resilience (the ability to withstand low-frequency high-impact incidents efficiently while ensuring the least possible interruption in the supply of electricity) of such systems. Following this examples of the latest research results in the areas of probabilistic stability studies of uncertain systems, data analytics, risk assessment and complex system analysis, all constituent parts of the assessment of the resilience of net-zero power systems will be discussed.