FMDNR2022: Future Modern Distribution Networks Resilience: From Passive Operation to Strategic Active Paradigms |
Website | https://www.researchgate.net/publication/364118079_Call_for_Book_Chapters_-_Future_Modern_Distribution_Networks_Resilience_From_Passive_Operation_to_Strategic_Active_Paradigms |
Submission link | https://easychair.org/conferences/?conf=fmdnr2022 |
Poster | download |
Abstract registration deadline | November 30, 2022 |
Submission deadline | March 15, 2023 |
Abstract
Nowadays, due to the growing advancement of power systems information, communication technology, and the integration of distributed energy resources, modern distribution grids can be described as complex cyber-physical systems. Growing smart equipment, penetration of distributed energy sources, and load demand have made these grids more vulnerable to cyber and man-made disasters. Moreover, increasing the frequency of natural hazards affecting critical infrastructures such as power systems has necessitated upgrading planning and operation strategies to cope with such issues. Considering the harmful consequences of power outages, the resilience of the power grid to low-probability and high-impact events is vital. This book is aimed to evaluate workable solutions for reducing the vulnerability of power grids. It is targeted to cover the risk and vulnerability analysis, hazard modelling, optimization and assessment of the resilient-oriented strategies before, during, and after a sudden disaster.
Table of Contents
First Part: A conceptual introduction and review of power system resilience
- Introduction and literature review of resilience concept in power systems
- Risk and vulnerability assessment in power systems: A comprehensive review of challenges and outlook
- A literature review of resilience metrics in power systems and their differences with reliability indices
- A survey on the role of coordinating electricity and gas distribution systems for enhancing the power grid resilience
- Power systems operation and planning: a literature review on smart resilience enhancement strategies
Second Part: Vulnerability modelling, resilience evaluation indices and cost-benefit analysis
- Modelling of natural phenomena and extreme events in the study of power systems resilience
- Vulnerability and risk modelling methods: A comprehensive framework from the resilience perspective
- Resilience metrics: Assessment of distribution systems performance
- Decision-making approach for power system resilience upgrades based on cost-benefit analysis
Third Part: Infrastructure and operational strategies to improve power system resilience
- Robust grid hardening strategies for improving the resilience of electricity systems
- Improving power system resilience with mobile energy storage and electric vehicles
- Resilient energy management: networked microgrids and renewable energy resource
- Application of recovery techniques to enhance the resilience of energy systems
- The role of machine learning in improving distribution systems resilience
- Future perspectives and research areas for improving the power system resilience
Editors
- Mohammad Taghi Ameli
- Kamran Jalilpoor
- Sasan Azad
- Mohammadreza Daneshvar
- Mohammad Sadegh Sepasian
- Behnam Mohammadi-Ivatloo
- Miadreza Shafie-Khah
Submission Guidelines
All chapters must be original and not simultaneously submitted to another journal or conference. Submitted manuscripts should conform to the standard guidelines of the Elsevier book chapter format. Manuscripts must be prepared using latex or word. Manuscripts that do not follow the formatting rules will be ignored.
Important Dates
Book Chapter Proposal: October 31, 2022
Accept/Reject Notification: November 15, 2022
Full Chapter Submission: February 15, 2023
Accept/Revise/Reject Notification: March 30, 2023
Revised Chapter Submission: April 30, 2023
Final Print Version: May 30, 2023
Contact
All questions about submissions should be emailed to Jalilpoor.kamran@gmail.com and sa_azad@sbu.ac.ir