Modeling, Optimization, Control and Demand Response of Electric Power and Energy Systems

ORCiD

Dongbin Lee: 0000-0002-5307-0374

Department

Electrical and Computer Engineering

Document Type

Article

Publication Title

Energies

ISSN

1996-1073

Publication Date

2024

Abstract

Energy is one of the most important never-ending needs that human beings have. Due to the exponential growth in power consumption and energy demand in the era of technology-driven societies, the necessity for more stable and efficient power system with zero-emission models is in desperate need. However, the complexity of such power systems has pushed the traditional models to the limit. Existing and emerging solutions are becoming difficult to implement due to the growing complications pertaining to on- and off-grid situations. Interests regarding the modelling of robust and resilient electric power and energy systems, with optimization scheme for existing resource utilization, and efficient control strategies, are burgeoning among researchers to meet the increasing demand of the energy. Applications to cars, storage devices, or robots are also welcomed.

The purpose of this Special Issue is to solve these problems together, collect collaborative research in various spectra, and contribute to the research globally in relation to power generation, transmission, or distribution systems modelling, optimization, and control. The bottom line of this Special Issue is to establish more reliable, sustainable, and intelligent power system and energy models to solve a complex power system. The research in this Special Issue thus includes, but is not limited to:

  1. Energy demand, uncertainties, challenges, and stability issues
  2. Novel energy and power system models
  3. Dynamic and steady-state responses in power systems
  4. Quality and stable energy based on modelling and control methodologies
  5. Generation, transmission, distribution, and energy storage
  6. On-/off-grids with clean Renewable energy sources and reduction in gas emissions
  7. Modelling of various control strategies for robust and resilient grid systems
  8. Power system automation, optimization, artificial intelligence, or sustainability
  9. Alternative energy and power system solutions
  10. Application to electric (hybrid) cars, robots, flying vehicles or their batteries

Comments

The authors were the Guest Editors of a special issue of Energies (ISSN 1996-1073). This special issue belongs to the section "F1: Electrical Power System".

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