Applications of energy storage systems in power grids with and without renewable energy integration — A comprehensive review

Rana, Masud; Uddin, Moslem; Sarkar, Md Rasel; Meraj, Sheikh Tanzim; Shafiullah, GM; Muyeen, S. M.; Islam, Md. Ariful; Jamal, Taskin

doi:10.1016/j.est.2023.107811

Cited by 81 publications

(12 citation statements)

References 112 publications

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“…When islanding occurs, the passive island detection approach searches for a sudden change in variables such as voltage, current, frequency, and active or reactive power. The passive technique works well for extensive power systems when the enormous parameter drift is apparent [21].…”

Section: Unplanned Islandingmentioning

confidence: 99%

A Comprehensive Review: Mitigating Techniques for Power Variability Due to Integration of Renewable Energy Sources With Grid

Sharma,

Garg,

Sharma

et al. 2023

J. Electron. Electric. Eng.

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Renewable energy sources like solar panels and wind turbines are becoming more important for generating power. The inconsistent and unreliable output of solar panels and wind turbines is due to factors like clouds, weather conditions, and wind speed that cause their energy production to fluctuate. Connecting intermittent sources to the utility grid creates difficulties in different technical areas, such as ensuring a steady and reliable power supply, protecting the system from disruptions, controlling the distribution of generated power, and maintaining a consistent level of power quality. In this situation, adjusting the amount of electricity produced by an intermittent energy source to keep the power grid stable is essential. This issue must be resolved as soon as possible. The extension to these locations diminishes the grid's strength. It leads to a scenario where a solar power plant is integrated into a subpar electric grid. However, integrating solar power into a shoddy AC infrastructure has problems with power quality (PQ) problems, which restricts penetration levels. This review article suggests various FACTS devices and various conventional, adaptive, and AI-based algorithms to reduce PQ issues brought on by a weak grid and increase renewable energy source (RES) penetration levels. This paper discusses the PQ issues that occur when RES like solar power plants (SPP) and wind power plants (WPP) or both as hybrid are connected to the electrical grid. It also explores different ways to reduce the fluctuation in power output from the solar panels. It analyzes the numerous power quality issues that arise with solar penetration and PQ mitigation methods using several FACTS devices and control algorithms, including traditional control, adaptive control, and AI-based control algorithms. For the benefit of engineers and academics working in this field of study, various research publications have been carefully evaluated, organized, and placed on this paper for convenient reference. It also briefly discusses the plan for controlling battery storage system for solve this problem.

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Section: Unplanned Islandingmentioning

confidence: 99%

A Comprehensive Review: Mitigating Techniques for Power Variability Due to Integration of Renewable Energy Sources With Grid

Sharma,

Garg,

Sharma

et al. 2023

J. Electron. Electric. Eng.

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“…1,2 The integration of intermittent sources like solar and wind power into the energy grid necessitates efficient and reliable energy storage. 3–5 While lithium-ion batteries have played a pivotal role in the portable electronics and automotive sectors, challenges such as high costs, lithium resource depletion, toxic electrolytes, and security concerns have prompted the exploration of alternative energy storage technologies. 6,7…”

Section: Introductionmentioning

confidence: 99%

Critical insights into the recent advancements and future prospects of zinc ion battery electrolytes in aqueous systems

Kou,

Wang,

Song

et al. 2024

Inorg. Chem. Front.

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“…In order to integrate renewable energy with electrochemical energy storage, innovative, secure, and affordable large-scale energy storage technologies must be developed . For large-scale energy storage system applications, lead acid batteries, redox-flow batteries, and lithium-ion batteries (LIBs) are now the most common electrochemical energy storage technologies. , The cost, security, and sustainability of energy storage systems are crucial for large-scale applications. , The large-scale implementation of LIBs is constrained by a shortage of lithium supplies, volatile organic electrolytes, and security concerns . Although lead acid batteries are safe and reasonably priced, their short cycle life and low power density limit their application in large-scale storage systems .…”

Section: Introductionmentioning

confidence: 99%

“… 2 , 3 The cost, security, and sustainability of energy storage systems are crucial for large-scale applications. 4 , 5 The large-scale implementation of LIBs is constrained by a shortage of lithium supplies, volatile organic electrolytes, and security concerns. 6 Although lead acid batteries are safe and reasonably priced, their short cycle life and low power density limit their application in large-scale storage systems.…”

Section: Introductionmentioning

confidence: 99%

Achieving Long Cycle Life of Zn-Ion Batteries through Three-Dimensional Copper Foam

Çamurcu,

Demirbaş,

Ateş

2024

ACS Appl. Mater. Interfaces

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Metallic zinc anodes in aqueous zinc-ion batteries (ZIBs) suffer from dendritic growth, low Coulombic efficiency, and high polarization during cycling. To mitigate these challenges, current collectors based on three-dimensional (3D) commercial copper foam (CCuF) are generally preferred. However, their utilization is constrained by their thickness, low electroactive surface area, and increased manufacturing expenses. In this study, the synthesis of cost-effective current collectors with exceptionally large surface areas designed for ZIBs that can be cycled hundreds of times is reported. A zinc-coated CuF anode (Zn/CuF) was prepared with a 3D porous CuF current collector produced by the dynamic hydrogen bubble template (DHBT) method. Electrochemically generated copper foam could be obtained within seconds while offering a thickness as low as 30−40 μm (CuF5 achieved a thickness of ∼38 μm in 5 s) via the DHBT method. The excellent electrical conductivity and open pore structure of the 3D porous copper scaffold ensured the uniform deposition/stripping of Zn during cycling. During the 500 h Zn deposition/stripping process, the as-synthesized CuF5 current collector offered fast electrochemical kinetics and low polarization as well as a relatively high average Coulombic efficiency of 99% (at a current density of 5 mA cm −2 and a capacity of 1 mAh cm −2 ). Furthermore, the symmetric cell exhibited low voltage polarization and a stable voltage profile for 1000 h at a current density of 0.1 mA cm −2 . In addition, full cells containing the Zn/CuF anode coupled with an assynthesized α-MnO 2 nanoneedle cathode in aqueous electrolyte were also prepared. Capacities of 266 mAh g −1 at 0.1 A g −1 and 94 mAh g −1 at 2 A g −1 were achieved after 200 charge/discharge cycles with a stable Coulombic efficiency value close to 99.9%.

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Applications of energy storage systems in power grids with and without renewable energy integration — A comprehensive review

Cited by 81 publications

References 112 publications

A Comprehensive Review: Mitigating Techniques for Power Variability Due to Integration of Renewable Energy Sources With Grid

A Comprehensive Review: Mitigating Techniques for Power Variability Due to Integration of Renewable Energy Sources With Grid

Critical insights into the recent advancements and future prospects of zinc ion battery electrolytes in aqueous systems

Achieving Long Cycle Life of Zn-Ion Batteries through Three-Dimensional Copper Foam

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