Power Grid Modernization
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Power Grid Modernization
How can we ensure a reliable and sustainable energy future amidst aging infrastructure and increasing demand? "Power Grid Modernization" addresses this critical question by providing a comprehensive examination of the challenges and opportunities inherent in upgrading our power grids. This book focuses on the core issues of grid reliability, renewable energy integration, and technological advancements driving the modernization effort, all of which are crucial for maintaining a stable and efficient energy supply in the 21st century. The book establishes a foundational understanding of existing power grid infrastructure, highlighting the vulnerabilities and limitations of systems often decades old. It then introduces the concept of grid modernization as a necessity, driven by factors like increasing frequency and intensity of extreme weather events, the proliferation of distributed generation (solar, wind), and the increasing demand for electricity from sectors such as transportation and data centers. We argue that a proactive and strategic approach to grid modernization is paramount to avoid widespread outages and facilitate a transition to a cleaner, more resilient energy future. Our exploration begins with an analysis of the key technologies driving grid modernization, including smart grids, advanced metering infrastructure (AMI), and high-voltage direct current (HVDC) transmission. We delve into the operational principles of these technologies, outlining their potential to enhance grid efficiency, improve reliability, and enable real-time monitoring and control. The development proceeds with an in-depth look at integrating renewable energy sources into the grid, addressing challenges related to intermittency, voltage regulation, and frequency stability. We then address cybersecurity threats to the power grid and propose strategies for building robust security measures into modern grid infrastructure. The book culminates with a discussion of the economic and policy aspects of grid modernization, examining investment strategies, regulatory frameworks, and incentive programs that can accelerate the transition to a modern, reliable, and sustainable power grid. The arguments presented in this book are supported by a wealth of data and research, drawing from industry reports, case studies, and academic publications. We analyze real-world examples of successful grid modernization projects, highlighting both the benefits achieved and the lessons learned. Our analysis incorporates both empirical data and simulation models to demonstrate the impact of different grid modernization strategies on system performance. "Power Grid Modernization" connects to several other fields, including economics, policy, and environmental science. The economic implications of grid modernization are explored, including the cost-benefit analysis of different investment options and the impact on electricity prices. Connections to environmental science are vital, given the role of grid modernization in decarbonizing the energy sector and mitigating climate change. Policy perspectives are integrated, analyzing the regulatory landscape and the role of government in fostering grid modernization efforts. This book takes a balanced, objective approach, presenting both the benefits and challenges of power grid modernization. It is written in a clear and accessible style, making it suitable for a broad audience. The intended readership includes electrical engineers, utility professionals, policymakers, and anyone with an interest in the future of energy. While the book focuses on the technical aspects of grid modernization, it also addresses the social and economic factors that influence its implementation. The scope of the book is comprehensive, covering a wide range of technologies and issues related to power grid modernization. However, it does not delve into the specific design details of individual grid components, focusing instead on the broader system-level considerations. The information in this book can be applied practically by utility companies seeking to upgrade their infrastructure, policymakers developing grid modernization strategies, and engineers designing and implementing modern grid technologies. It addresses controversies, such as the cost of grid modernization and the impact on electricity rates, by presenting data-driven analyses and exploring different financing models. By providing a comprehensive and balanced overview of the field, "Power Grid Modernization" aims to inform and empower readers to contribute to a more reliable, sustainable, and secure energy future.
Reinventing the Power Grid
In this comprehensive guide for practicing engineers and students, Ertugrul explains the field of renewable energy and distributed generation technologies and describes the transformation occurring in power grids due to the rise of renewable energy sources and emerging technologies. This book covers key areas such as the status of grid transformation, photovoltaic (PV) solar energy, wind energy systems, distributed energy resources, microgrids, grid‐scale and domestic battery storage systems, e‐mobility and emerging distributed energy technologies. The text presents an equilibrium between theoretical concepts and practical applications, with each chapter emphasizing both theory and practical application. Each chapter commences with a lucid explanation of the subject matter, which is then succeeded by an investigation into its real‐world applications and implications. Supplementary material is also provided, such as real wind data files, PV data files and Matrix Laboratory (MATLAB®) and Excel codes. This includes a sample real data set from grid‐scale autonomous microgrid test platforms and household, distribution and transmission‐level power system data. The book also incorporates a section consisting of problems, quizzes and solutions. This element prompts the reader to put the theoretical knowledge to use in addressing real‐world challenges, thereby cultivating a more in‐depth grasp of the topic. Through this in‐depth approach, readers will be able to apply their comprehensive knowledge and practical understanding to decision‐making regarding future challenges in the energy industry. This book is an invaluable guide for professionals working in the field, particularly those who aim to stay updated on the latest technologies and trends. Undergraduate and postgraduate students will also benefit from the book’s comprehensive approach and inclusion of real‐world data and problems to solve, which will build their expertise and give them a solid foundation for their future careers.
Grid Modernization ─ Future Energy Network Infrastructure
Author: Mohammadreza Daneshvar
language: en
Publisher: Springer Nature
Release Date: 2021-03-08
This book presents theoretical, technical, and practical information on the modernization of future energy networks. All the basic requirements covering concepts, modeling, optimizing, and analyzing of future energy grids with various energy carriers such as electricity, gas, heat, and water, as well as their markets and contracts, are explained in detail. The main focus of the book is on modernizing both the energy consumers and the energy producers and analyzing various aspects of grid modernization such as reliability, resiliency, stability, and security. Coverage includes advanced communication protocols and solution methods for the Internet of Energy (IoE) infrastructure and energy trading in future energy grids with high/full share of renewable energy resources (RERs) within the transactive energy (TE) paradigm. Probabilistic modeling and optimizing of modern grids will be evaluated using realistic case studies considering the economic aspects of multi-carrier energy markets. This book will be welcomed as an important resource by researchers and postgraduate students studying energy systems, as well as practicing engineers working on modernizing energy grids and the design, planning, scheduling, and operation of smart power systems. Proposes practical solutions for solving the challenges of modern multi-carrier energy grids; Examines various types of energy storage systems and distributed energy resources (DERs) with an emphasis on renewable energy resources (RERs); Provides comprehensive mathematical models for optimizing of future modern multi-carrier energy grids.