Energy storage system optimization and control strategy
Submission deadline: 2024-09-30
Section Collection Editors

Section Collection Information

Dear Colleagues,


Energy storage system optimization and control strategy is a term that refers to the process of maximizing the efficiency and effectiveness of energy storage systems while ensuring their reliable operation. This involves developing and implementing strategies to optimize the performance of various types of energy storage technologies, such as electrochemical, chemical, mechanical, electrical, and thermal energy storage.


The optimization and control strategy encompasses several aspects, including engineering, control, optimization, numerical modeling, and system integration. It involves designing and implementing control algorithms and techniques to manage the charging, discharging, and overall operation of energy storage systems. The goal is to ensure that these systems operate at their highest efficiency levels, minimize losses, and extend their lifespan.


The applications of energy storage systems are diverse and encompass grid-scale electrical storage, electric vehicle transportation, traction applications, off-grid systems, uninterruptible power supplies, and portable electronic applications. Each application has specific load profiles, requirements, and management needs, which the optimization and control strategy aims to address.


Another important aspect of the strategy is the management and control of distributed storage systems as virtual large-scale storage systems. This involves integrating energy storage with various entities, such as buildings and vehicles, to create a more flexible and efficient energy infrastructure. For example, vehicle-to-grid technology enables electric vehicles to not only consume energy but also provide it back to the grid when needed.


The strategy also considers testing, evaluation, life cycle costs, life cycle assessment, and safety aspects of energy storage systems. These factors play a crucial role in ensuring the reliability, durability, and overall sustainability of energy storage technologies.


Economic, policy, and regulatory aspects are also part of the optimization and control strategy. This includes analyzing market models, market introduction concepts, and evaluating the economic viability of energy storage systems. Policy and regulatory frameworks are essential for incentivizing the deployment of energy storage technologies and creating a favorable market environment.


We look forward to receiving your contributions.

 

Dr. Mostafa Esmaeili Shayan

Section Editor

Keywords

Energy Storage; Thermal Energy Storage; Grid-Scale Electrical Storage; Electric Vehicle Transportation; Off-Grid Systems; Optimization; Uninterruptible Power Supplies; Large-Scale Storage Systems; Life Cycle Assessment.

Published Paper