REIG2021: Renewable Energy Integration to the Grid: A Probabilistic Perspective |
Submission link | https://easychair.org/conferences/?conf=reig2021 |
Abstract registration deadline | August 15, 2020 |
Submission deadline | August 15, 2020 |
REIG2021 is a Call for Book Chapters (with no publication fee).
Submission Guidelines
All Chapters must be original and not simultaneously submitted to another Book, journal or conference.
Important Dates:
Abstract submission:- 15th August 2020
Acceptance/Rejection:- 25 August 2020
Full chapter submission:- 15 October 2020
Acceptance/Rejection/Review Comments:- 5 November 2020
Final Submission Due: 10 December
Final acceptance Due: 25 December
List of Topics
Chapter 1: Renewable energy scenario of the world and future pattern
- Region wise analysis of different renewable energy resources
- Available Technologies and Ongoing Developments
- Future pattern of renewable energy resources.
Chapter 2: Technical challenges in renewable generations and their integration to grid
- Technical challeges with the installations of renewable generations.
- Some case studies of mitigation of technical chellenges achieved.
- Problems associated with integration at transmission and distribution voltage level.
- Protection issues related to integration.
- Case studies.
Chapter 3: Renewable energy integration issues from consumer and utility perceptive
- Power system parameter issues to consumer and utility.
- Mitigation of issues to consumer and utility.
- Financial implications to consumer and utility.
- Case studies
Chapter 4: Reactive power management in power systems integrated with renewable generations
- Voltage issues in power networks with remnewable power integration.
- The use of FACTS devices for reactive power management.
Chapter 5: Optimum scheduling and dispatch of power systems with renewable generations
- Strategy for optimum schedling of power sysrem with renewable generations
- Dispatch strategy of power systems with renewable energy generations.
Chapter 6: Analysis and modeling of renewable generation uncertainty for planning and operation
- Uncertainty characterization
- Collection of historical data
- Data preprocessing
- Model development
- Performance comparison
Chapter 7: Role of stochastic optimization for power system operation and decision making
- Stochastic optimization
- Power system operation with stochastic optimization.
- Robust optimization
- Chance constrained programming.
Chapter 8: Dependence modeling of multi-site renewable generations
- Dependence structure
- Challenges in dependence modeling
- Dependence modeling approaches
- Spatiotemporal dependence modeling
Chapter 9: Probabilistic steady-state analysis of power systems integrated with renewable generations
- State of the art in probabilistic load flow
- Power system models for probabilistic load flow
- Methods to solve probabilistic load flow
- Applications of probabilistic load flow
Chapter 10: System risk assessment under higher penetrations of renewable generations.
- Importance of risk-based system analysis
- System model description
- Uncertainty handing methods
- System over-limit risk indices
- Interpretation of probabilistic steady-state analysis results
Committees
Editors
- Dr. Neeraj Gupta, SMIEEE, Assistant Professor, EED, NIT Srinagar, J&K
- Dr. Anuradha Tomar, SMIEEE, Postdoc Researcher* & Asso. Prof. **, * indhoven University of Technology, The Netherlands. ** JSS Academy of Technical Education, Noida.
- Dr. B Rajanarayan Prusty, Assistant Professor, SEE, VIT, Vellore, TN
- Dr. Pankaj Gupta, Assistant Professor, DE&C IGDTUW, Delhi.
Publication
REIG2021 is call for book chapters and would be published in- CRC Press, Taylor & Francis Group.
Contact
All questions about submissions should be emailed to ... neeraj5822@gmail.com; eranu28@gmail.com