Smart Grid Resilience

Badihi, Hamed

doi:10.1007/978-3-030-72322-4_94-1

Cited by 5 publications

(4 citation statements)

References 24 publications

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“…In conclusion, the future of smart grids holds great promise for further improving energy efficiency and grid operations. By embracing emerging trends and integrating smart grids with other technologies, utilities can unlock new opportunities for optimizing energy usage and building a more sustainable energy future (Badihi, 2023, Song, et. al., 2022.…”

Section: Future Directions and Opportunitiesmentioning

confidence: 99%

The Impact of Smart Grids on Energy Efficiency: A Comprehensive Review

Tosin Michael Olatunde,

Azubuike Chukwudi Okwandu,

Dorcas Oluwajuwonlo Akande

et al. 2024

Eng. sci. technol. j.

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Smart grids have emerged as a key technology in the quest for energy efficiency and sustainability. This review provides a comprehensive analysis of the impact of smart grids on energy efficiency, highlighting key findings, challenges, and future directions. Smart grids leverage advanced sensing, communication, and control technologies to optimize the generation, distribution, and consumption of electricity. By enabling two-way communication between utilities and consumers, smart grids improve grid reliability, reduce energy losses, and facilitate the integration of renewable energy sources. One of the key findings of this review is the significant impact of smart grids on energy efficiency. Studies have shown that smart grids can reduce energy consumption by enabling real-time monitoring and control of energy usage. This not only helps consumers reduce their electricity bills but also reduces the overall carbon footprint of the electricity sector. However, the deployment of smart grids faces several challenges, including high upfront costs, interoperability issues, and data privacy concerns. Addressing these challenges will be crucial for the widespread adoption of smart grid technologies. Looking ahead, the future of smart grids holds great promise for further improving energy efficiency. Emerging trends such as the Internet of Things (IoT) integration, artificial intelligence (AI) algorithms, and distributed energy resources (DERs) management are expected to drive further innovation in smart grid technologies. In conclusion, smart grids have a transformative impact on energy efficiency, offering significant benefits for consumers, utilities, and the environment. However, addressing challenges such as cost and interoperability will be crucial for realizing the full potential of smart grids. By embracing emerging trends and technologies, stakeholders can further enhance the efficiency and sustainability of the electricity sector. Keywords: Impact, Smart Grid, Energy, Efficiency, Review.

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Section: Future Directions and Opportunitiesmentioning

confidence: 99%

The Impact of Smart Grids on Energy Efficiency: A Comprehensive Review

Tosin Michael Olatunde,

Azubuike Chukwudi Okwandu,

Dorcas Oluwajuwonlo Akande

et al. 2024

Eng. sci. technol. j.

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show abstract

“…The incorporation of advanced cybersecurity measures becomes paramount [26]. This involves the deployment of intrusion detection systems, firewalls, encryption protocols, and continuous monitoring to detect and respond to anomalous activities [27].…”

Section: Power Grid Cybersecurity: a Growing Imperativementioning

confidence: 99%

Enhancing Resilience: Smart Grid Cybersecurity and Fault Diagnosis Strategies

Basharat,

Huma

2024

AJRCoS

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The increasing integration of advanced technologies within the power grid infrastructure has led to significant advancements in efficiency, reliability, and sustainability. However, this integration also introduces new vulnerabilities, particularly in the realm of cybersecurity. This paper presents an overview of smart grid cybersecurity challenges and proposes strategies for enhancing resilience through fault diagnosis techniques. Firstly, the paper examines the evolving threat landscape facing smart grids, encompassing cyber-attacks, insider threats, and natural disasters. It highlights the critical need for robust cybersecurity measures to safeguard grid operations and prevent potentially catastrophic disruptions. Next, the paper delves into various cybersecurity frameworks and standards tailored specifically for smart grids, emphasizing the importance of comprehensive risk assessment, intrusion detection systems, and secure communication protocols. Additionally, it discusses the role of machine learning and artificial intelligence in augmenting cyber defense capabilities, enabling proactive threat detection and rapid response. Furthermore, the paper explores fault diagnosis strategies aimed at maintaining grid resilience in the face of cyber incidents or physical faults. It discusses the integration of data analytics, predictive modeling, and real-time monitoring to identify and mitigate potential grid disturbances swiftly.

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“…This entails building the grid with the ability to swiftly recover from any disturbances and to survive both cyberattacks and natural catastrophes. One Abrarul Haque, Technical and Economic Challenges and Future Prospects of a Smart Grid -A Case Study strategy for enhancing grid resilience is the use of selfhealing grid systems [21].…”

Section: E Grid Reliability and Resiliencementioning

confidence: 99%

Technical and Economic Challenges and Future Prospects of a Smart Grid - A Case Study

Haque,

Hussain,

Ali

et al. 2024

Control Syst. Optim. Lett.

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In order to improve grid efficiency, dependability, and sustainability, smart grid technology is being developed and implemented at the vanguard of updating the world's electrical infrastructure. In addition to looking at the potential implications of smart grid technology, this case study analyzes the technical and financial difficulties encountered during the implementation of a smart grid. Technical issues with energy management and system stability arise when intermittent renewable energy sources are integrated into the smart grid. To make smooth transmission, sophisticated algorithms and grid management strategies are needed. Maintaining data security and privacy is crucial since smart grids mostly depend on digital technology and data exchange. It is a constant worry to defend the grid from hackers and illegal access. The installation of sensors, smart meters, and communication equipment might come with a significant initial cost when implementing a smart grid. One of the main economic challenges is financing these developments while maintaining reasonable power bills. It may be difficult to strike a balance between the interests of technology suppliers, customers, and utilities. Real-time monitoring and control are made possible by smart grids, which improve energy distribution and minimize energy waste. In addition to lowering greenhouse gas emissions, this improves overall energy efficiency. Smart grids can enable EV charging infrastructure as electric vehicle (EV) use increases, providing potential for grid optimization and new income streams for utilities. Reliability could be increased and downtime is decreased in a smart grid when defects can be promptly identified and isolated. The implementation of a smart grid is not without its technical and financial difficulties, but the future seems bright. Overcoming these obstacles may result in an electrical grid that is more sustainable, robust, and profitable for customers as well as utilities. Stakeholder cooperation, flexible regulations, and continuous technical development are needed to address these problems. By providing practical applications and real-world insights into the implementation of a smart grid, the case study acts as a link between theoretical concepts. Stakeholders obtain a comprehensive comprehension of the intricacies involved by analyzing technical and economic obstacles. To maximize the potential of smart grid technology, this knowledge is essential for fine-tuning strategies and creating focused solutions.

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Smart Grid Resilience

Cited by 5 publications

References 24 publications

The Impact of Smart Grids on Energy Efficiency: A Comprehensive Review

The Impact of Smart Grids on Energy Efficiency: A Comprehensive Review

Enhancing Resilience: Smart Grid Cybersecurity and Fault Diagnosis Strategies

Technical and Economic Challenges and Future Prospects of a Smart Grid - A Case Study

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