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"Many cities and municipalities lack the resources to prepare for and respond to threats like extreme weather, economic volatility, and aging infrastructure. Energy systems are particularly vulnerable because of their interactions with other systems that allow communities to function and thrive, e.g., transportation, housing, and business activity. This report discusses ways in which energy efficiency can increase the resilience of energy systems and the communities they serve. It reviews the resilience-related benefits of efficiency measures, discusses the incorporation of efficiency into resilience planning, and presents four case studies showing how local governments and utilities can leverage energy efficiency to increase the resilience of their communities. Although much potential remains untapped, the report finds that energy efficiency is a clear pathway toward making communities and their residents stronger, safer, and more resilient"--Publisher's description (viewed October 6, 2015).
This book is written as a practical guide to those interested in the pursuit of energy resilience at a local scale. Energy resilience is defined as the relative ability of an institution to carry out its mission during a shock to the energy system and approach the concept on the level of a single site occupied by a single community or institution. Examples are drawn from four key community types: military bases, healthcare campuses, educational campuses, and municipal governments. The book then describes a framework for developing an energy resilience plan that applies to each. While the focus is clearly on the United States, understanding the energy resilience threat and conducting long-range energy resilience planning will benefit communities all over the globe. Divided into three main parts, Part One describes the specific energy security threats that are facing local institutions and communities and how an energy shock can affect the mission at each of the four community types and the advantages that each will enjoy in their pursuit of energy resilience. Part Two provides concrete guidance for pursuing energy resilience at a particular institution and allows managers to assess where their institution lies on the energy resilience spectrum and plot a course toward where they would like to be. Part Three describes the three main areas of energy resilience performance: energy efficiency, on-site generation, and emergency planning. Case studies are also provided.
This document highlights areas of potential community resilience improvements, especially those that relate to clean energy deployment for communities and municipalities. The National Renewable Energy Laboratory (NREL) defines resilience as "a system's ability to anticipate, prepare for, and adapt to changing conditions and withstand, respond to, and recover rapidly from disruptions through sustainable, adaptable, and holistic planning and technical solutions." This document introduces 10 categories of resilience-enhancing projects at a high level, intended for community members and decision-makers new to the topic to build their understanding of which solutions fit their community best. These categories focus primarily on community-scale measures and different options may be available at larger scales. Full implementation of the measures described here requires in-depth, site-specific considerations that go beyond the scope of this document.
Optimizing Community Infrastructure: Resilience in the Face of Shocks and Stresses examines the resilience measures being deployed within individual disciplines and sectors and how multi-stakeholder efforts can catalyze action to address global challenges in preparedness and disaster and hazard mitigation. The book provides a theoretical framework to advance thinking on creating resilient, inclusive, sustainable and safe communities. Users will find an accurate and up-to-date guide for working on the development, implementation, monitoring and assessment of policies, programs and projects related to community resilience. Provides updated information on resilience, especially on infrastructure, finance, land use, standards and policies Includes case studies that illustrate how communities have increased their resilience to natural and other disasters Analyzes the institutional, political, social and economic dimensions of resilience at the community level Illustrates the interdependencies and interconnectedness of infrastructure systems and how community resilience relies on a holistic approach Examines responses to emerging risks associated with climate change
The threats to the electricity grid are on the rise at the same time as society is increasing its dependence on electricity for every aspect of our personal, social, and economic lives. We are accelerating that dependence – looking to the electrification of transportation and buildings as a way to stem the threats of climate change. Those threats have now arrived (in the form of more extreme weather, droughts, and wildfire) and they are joined by increasing threats from an aging grid and cyberattacks. The grid we rely on is experiencing increasingly vulnerable external forces. We aren’t helpless. Effective planning around these threats can dramatically reduce the havoc they engender on the electric grid. At every level, from a single building, to a city, to the electric grid and the federal government, steps can be taken to improve our resilience to threats to the electricity system. When those efforts are coordinated, their benefits multiply. This book aims to provide every level of decision-maker with tools and best practices for reducing the risk of and from electricity loss. It is written in non-technical language, with a focus on actionable, easily implemented steps.
The interplay between economic growth and sustainable development is a recurring theme, with discussions centering around the potential effects of nutrition on developmental outcomes. Optimizing Energy Efficiency During a Global Energy Crisis is a comprehensive and scholarly examination of the factors influencing economic development and their implications. This book delves into the multifaceted aspects of economic growth, encompassing social, political, cultural, and most notably, economic dimension to heighten awareness about their effects and consequences. The book also offers insights into investment policies and their implications for industrial business organizations, as well as the intricate dynamics of the health insurance market. Drawing upon diverse fields of study such as economy, development, informatics, and policy, this book offers a wide range of topics and methodologies to enrich the existing literature. It seeks to address the gaps in understanding and unexplored territories within these domains by employing original research and innovative approaches. This book is a valuable resource for scholars, researchers, and professionals in the fields of economics, finance, and development strategies. With an academic approach, this book will appeal to those seeking a deeper understanding of the complex interactions between economic factors and their consequences. It is particularly relevant for individuals involved in related markets and industries, offering practical insights and knowledge for informed decision-making.
Best practices from around the world have proven that holistic Energy Master Planning can be the key to identifying cost-effective solutions for energy systems that depend on climate zone, density of energy users, and local resources. Energy Master Planning can be applied to various scales of communities, e.g., to a group of buildings, a campus, a city, a region, or even an entire nation. Although the integration of the energy master planning into the community master planning process may be a challenging task, it also provides significant opportunities to support energy efficiency and community resilience by increasing budgets for investments derived from energy savings, by providing more resilient and cost-effective systems, by increasing comfort and quality of life, and by stimulating local production, which boosts local economies. The Guide is designed to provide a valuable information resource for those involved in community planning: energy systems engineers, architects, energy managers, and building operators. Specifically, this Guide was developed to support the application of the Energy Master Planning process through the lens of best practices and lessons learned from case studies from around the globe. The Guide introduces concepts and metrics for energy system resilience methodologies, and discusses business and financial models for Energy Master Plans implementation. This information can help planners to establish objectives and constraints for energy planning and to select and apply available technologies and energy system architectures applicable to their diverse local energy supply and demand situations. This Guide is a result of research conducted under the International Energy Agency (IEA) Energy in Buildings and Communities (EBC) Program Annex 73 and the US Department of Defense Environmental Security Technology Certification Program (ESTCP) project EW18-5281 to support the planning of Low Energy Resilient Public Communities process that is easy to understand and execute.
Globally, nearly 3 billion people rely on traditional biomass, such as fuelwood, charcoal or animal waste, as sources of fuel for cooking and heating. The multi-sectoral challenges related to energy access make it crucial to view the issue in a broader frame. FAO's work on Safe Access to Fuel and Energy (SAFE) adopts a holistic, multi-faceted approach which takes into account the mutually reinforcing linkages between energy and nutrition, disaster risks and climate change, conflict, health, gender, protection and livelihoods. This publication aims to provide a comprehensive framework for mainstreaming energy access for crisis-affected populations as a key component of overall resilience-building.