Building Energy Flexibility And Demand Management
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Building Energy Flexibility and Demand Management
Building Energy Flexibility and Demand Management looks at the high penetration of intermittent renewable energy sources and the need for increased flexibility. Ensuring electrical power systems adapt to dynamic energy demand and supply conditions, the book supports the transition to a renewable energy future with current fluctuating power generation. By facilitating the penetration of renewable energy sources into the building sector and balancing electricity supply with demand in real-time, this book will provide fundamental concepts, theories, and methods to understand, quantify, design and optimize building energy flexibility. In addition, the book also provides case studies with emerging technologies to enhance building energy flexibility and demonstrate how demand management strategies can utilize energy flexibility for demand reduction and load shifting. It will be useful for all those researchers and engineers working in flexible energy systems and advanced demand side management strategies. - Focuses on how renewable energy and storage technologies can be appropriately designed and optimized to increase building energy flexibility - Discusses how building energy flexibility can contribute to reduced operating costs and grid optimization - Details how to effectively implement building energy flexibility for demand response, peak demand reduction and peak load shifting
Advances in Digitalization and Machine Learning for Integrated Building-Transportation Energy Systems
Advances in Digitalization and Machine Learning for Integrated Building-Transportation Energy Systems examines the combined impact of buildings and transportation systems on energy demand and use. With a strong focus on AI and machine learning approaches, the book comprehensively discusses each part of the energy life cycle, considering source, grid, demand, storage, and usage. Opening with an introduction to smart buildings and intelligent transportation systems, the book presents the fundamentals of AI and its application in renewable energy sources, alongside the latest technological advances. Other topics presented include building occupants' behavior and vehicle driving schedule with demand prediction and analysis, hybrid energy storages in buildings with AI, smart grid with energy digitalization, and prosumer-based P2P energy trading. The book concludes with discussions on blockchain technologies, IoT in smart grid operation, and the application of big data and cloud computing in integrated smart building-transportation energy systems. A smart and flexible energy system is essential for reaching Net Zero whilst keeping energy bills affordable. This title provides critical information to students, researchers and engineers wanting to understand, design, and implement flexible energy systems to meet the rising demand in electricity. - Introduces spatiotemporal energy sharing with new energy vehicles and human-machine interactions - Discusses the potential for electrification and hydrogenation in integrated building-transportation systems for sustainable development - Highlights key topics related to traditional energy consumers, including peer-to-peer energy trading and cost-benefit business models
Communities for Clean Energy Justice and Equity in Grid Modernization
Author: Mohammadreza Daneshvar
language: en
Publisher: John Wiley & Sons
Release Date: 2025-07-29
Comprehensive blueprint to understand, develop, and implement clean energy initiatives and achieve energy justice and equity worldwide Communities for Clean Energy Justice and Equity in Grid Modernization presents fundamental theories, technologies, and solutions for real-world problems in the operation and planning of clean, safe, resilient, and efficient energy communities that deliver energy justice and equity. The initial chapters of the book focus on conceptual requirements, emphasizing the definition, structure, features, and challenges of promoting energy justice and equity through the coordinated operation of clean energy communities. Subsequent chapters explore potential technologies and systems to achieve these objectives, examining functionalities in modern energy grids, including self-healing systems, sustainable energy networks, and intelligent, multidimensional communities of agents. Edited by a team of highly qualified experts, the book explores additional topics including: Decision-making tools for optimized operation and planning of multi-energy communities Holistic energy availability frameworks capable of dealing with changes and interactions in modern energy grids The role of artificial intelligence, machine learning, citizenship, and democracy in realizing energy justice and equity Hybrid transitional energy markets, energy policy strategies, and business models related to localization of energy technologies Energy storage and trading solutions, hybrid energy technologies, and grid-edge solutions Communities for Clean Energy Justice and Equity in Grid Modernization is an essential reference on the subject for electrical, mechanical, civil, architectural, and environmental engineers, along with professionals working in power and energy utility companies and policy makers seeking a holistic understanding of the subject.