Risk-averse probabilistic framework for scheduling of virtual power plants considering demand response and uncertainties-Reference-Cited by-同舟云学术

Risk-averse probabilistic framework for scheduling of virtual power plants considering demand response and uncertainties

Published:2020-10 Issue: Volume:121 Page:106126
ISSN:0142-0615
Container-title:International Journal of Electrical Power & Energy Systems
language:en
Short-container-title:International Journal of Electrical Power & Energy Systems

Author:

Vahedipour-Dahraie Mostafa,Rashidizadeh-Kermani Homa,Anvari-Moghaddam Amjad,Siano Pierluigi

Publisher

Elsevier BV

Subject

Electrical and Electronic Engineering,Energy Engineering and Power Technology

Reference33 articles.

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3. A CVaR-robust-based multi-objective optimization model and three-stage solution algorithm for a virtual power plant considering uncertainties and carbon emission allowances;Ju;Int J Electric Power Energy Syst,2019

4. A bi-level risk-constrained offering strategy of a wind power producer considering demand side resources;Rashidizadeh-Kermani;Int J Electric Power Energy Syst,2019

5. Stochastic risk-constrained scheduling of renewable-powered autonomous microgrids with demand response actions: reliability and economic implications;Vahedipour-Dahraie;IEEE Trans Industry Appl,2019

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1. Selection of an economics-energy-environment scheduling strategy for a community virtual power plant considering decision-makers’ risk attitudes based on improved information gap decision theory;Energy;2024-07

2. Review of virtual power plant operations: Resource coordination and multidimensional interaction;Applied Energy;2024-03

3. Dominance Constraints for Risk Control of a VPP’s Optimal Bidding Strategy;IEEE Access;2024

4. Customer-Centric Assessment of Potential Benefits in Virtual Power Plant Participation - A Case Study in Hawaii;2023 Asia Meeting on Environment and Electrical Engineering (EEE-AM);2023-11-13

5. Co-optimization of multiple virtual power plants considering electricity-heat-carbon trading: A Stackelberg game strategy;International Journal of Electrical Power & Energy Systems;2023-11