Resilience Modeling of Interdependent Electric Power and Natural Gas Network
Resilience Modeling of Interdependent Electric Power and Natural Gas Network

Author: Wenjing Su

Publisher:

Published: 2024

Total Pages: 0

ISBN-13:

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This dissertation develops tools and provides insights for planning interdependent electric power and natural gas system against extreme weather events. More frequent and severe extreme weather events usually leads to geographically correlated component failure and present threats to energy system operation. The dependence between large-scale infrastructure system further complicates the infrastructure planning process. This dissertation addresses the pressing needs for quantitative modeling tools to improve system resilience. It also investigates the impact of network topology of interdependent infrastructure system on system resilience and sheds light on the priority of resilience planning for decision makers. Chapter 2 develop a transmission planning framework for coupled natural gas and electric power systems facing geographically correlated failures. The framework uses a stochastic optimization method incorporating uncertainty in the locations of the geographically correlated failures. We compare the proposed planning framework with the traditional N-k method which plans for geographically uncorrelated failures in terms of improving resilience effectively against geographically correlated failures. The proposed planning framework is illustrated using a small test system, but is scalable to larger system sizes and portable to other coupled-infrastructure contexts. Chapter 3 formulate a steady-state operational model for natural gas and electric transmission system that is capable of considering bidirectional interdependence. The electric transmission system depends on the gas transmission system to provide fuel to power plants for reliable operations. The gas transmission system depends on the electric transmission system to provide power for some compressors, which ensures sufficient gas deliverability. We illustrate our formulation using a gas-grid test system with realistic properties, that is based on the topology of these networks in the northeastern part of the United States. The feasibility of the model formulation is tested with one contingency scenario. Chapter 4 extends the analysis to examine the impact of spatial patterns of interde- pendency points on system reliability and resilience by subjecting this test system to N - 1 transmission failure and geographically correlated failures under different network topologies. We refer the spatial distribution of gas-fired power generation in the power grid as power topology and the spatial distribution of electric compressors in the gas transmission grid as gas topology.

Modeling and Optimization of Interdependent Energy Infrastructures
Modeling and Optimization of Interdependent Energy Infrastructures

Author: Wei Wei

Publisher: Springer Nature

Published: 2019-10-22

Total Pages: 709

ISBN-13: 3030259587

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This book opens up new ways to develop mathematical models and optimization methods for interdependent energy infrastructures, ranging from the electricity network, natural gas network, district heating network, and electrified transportation network. The authors provide methods to help analyze, design, and operate the integrated energy system more efficiently and reliably, and constitute a foundational basis for decision support tools for the next-generation energy network. Chapters present new operation models of the coupled energy infrastructure and the application of new methodologies including convex optimization, robust optimization, and equilibrium constrained optimization. Four appendices provide students and researchers with helpful tutorials on advanced optimization methods: Basics of Linear and Conic Programs; Formulation Tricks in Integer Programming; Basics of Robust Optimization; Equilibrium Problems. This book provides theoretical foundation and technical applications for energy system integration, and the the interdisciplinary research presented will be useful to readers in many fields including electrical engineering, civil engineering, and industrial engineering.

Communications, Cyber Resilience, and the Future of the U.S. Electric Power System
Communications, Cyber Resilience, and the Future of the U.S. Electric Power System

Author: National Academies of Sciences, Engineering, and Medicine

Publisher: National Academies Press

Published: 2020-08-14

Total Pages: 75

ISBN-13: 0309676800

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Electric power is a critical infrastructure that is vital to the U.S. economy and national security. Today, the nation's electric power infrastructure is threatened by malicious attacks, accidents, and failures, as well as disruptive natural events. As the electric grid evolves and becomes increasingly interdependent with other critical infrastructures, the nation is challenged to defend against these threats and to advance grid capabilities with reliable defenses. On November 1, 2019, the National Academies of Sciences, Engineering, and Medicine convened a workshop to gather diverse perspectives on current and future threats to the electric power system, activities that the subsector is pursuing to defend itself, and how this work may evolve over the coming decades. This publications summarizes the presentations and discussions from the workshop.

Energy Infrastructure Resilience and Economic Impacts
Energy Infrastructure Resilience and Economic Impacts

Author: Harsh Anand

Publisher:

Published: 2021

Total Pages:

ISBN-13:

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The energy infrastructure facilitates energy flows across industry sectors throughout the nation. This energy flow is susceptible to any disruptive event that threatens the functionality of the energy supply-demand network and impacts economic productivity throughout a multi-regional interdependent economy. The study on the systematic framework for analyzing energy infrastructure resilience proposes a systematic framework to analyze energy infrastructure resilience by (i) evaluating the economic vulnerability of the interdependent network of energy infrastructure and industry sectors, (ii) seeking strategies to allocate a limited budget to harden the network, and (iii) assessing the value of information in decision making under uncertainty. The proposed resilience analysis framework is implemented in a stylized case study of the U.S. energy and the industry sectors. The holistic framework helps policymakers with decisions related to enhancing energy infrastructure resilience. Such decisions include investments to (i) reduce the vulnerability of the energy infrastructure network and (ii) develop a more effective mix of generation sources (e.g., renewable vs. nonrenewable). The U.S. has defined a number of critical infrastructures, the disruption of which "would have a debilitating impact on security, national economic security, national public health or safety, or any combination of those matters." Among these critical infrastructures is the electric power network that has a crucial role in enabling the operation of societies and industries. In the past decades, the functionality of the power network has been vulnerable to numerous disruptive events, including natural hazards, human-made events, or common failures. The power network component vulnerability analysis work leverages several publicly available big data sets to lay the foundation for a comprehensive characterization and analysis of the U.S. power network in order to propose a network component vulnerability measure adopting machine learning techniques. The non-linear machine learning model is implemented to create smarter component cataloging for vulnerability analysis based on its geographic location and criticality. The findings could be useful by the grid stakeholder and policymakers to (i) evaluate network stability, (ii) understand the risk of cascading failure, and (iii) improve the resilience of the overall network and moving toward resilient smart grids. Power networks have become increasingly interconnected and complex. The resilience of the power network is crucial for the economic productivity of the states and the broader country. The power network component importance considering economic impacts study integrates a network flow formulation with an economic interdependency model to quantify the multi-industry impacts of a disruption in the power network. We aim to measure and rank the importance of components according to their impact on the network's overall resilience. During modeling, we define the measure of importance by combining the probabilistic assumptions under uncertainty. We use data-driven methods to enhance the predictability and interpretability of resilience importance measures in network planning using a Bayesian kernel technique.

Sustainable and Resilient Critical Infrastructure Systems
Sustainable and Resilient Critical Infrastructure Systems

Author: Kasthurirangan Gopalakrishnan

Publisher: Springer Science & Business Media

Published: 2010-04-13

Total Pages: 272

ISBN-13: 3642114059

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Sustainable and resilient critical infrastructure systems is an emerging paradigm in an evolving era of depleting assets in the midst of natural and man-made threats to provide a sustainable and high quality of life with optimized resources from social, economic, societal and environmental considerations. The increasing complexity and interconnectedness of civil and other interdependent infrastructure systems (electric power, energy, cyber-infrastructures, etc.) require inter- and multidisciplinary expertise required to engineer, monitor, and sustain these distributed large-scale complex adaptive infrastructure systems. This edited book is motivated by recent advances in simulation, modeling, sensing, communications/information, and intelligent and sustainable technologies that have resulted in the development of sophisticated methodologies and instruments to design, characterize, optimize, and evaluate critical infrastructure systems, their resilience, and their condition and the factors that cause their deterioration. Specific topics discussed in this book include, but are not limited to: optimal infrastructure investment allocation for sustainability, framework for manifestation of tacit critical infrastructure knowledge, interdependencies between energy and transportation systems for national long term planning, intelligent transportation infrastructure technologies, emergent research issues in infrastructure interdependence research, framework for assessing the resilience of infrastructure and economic systems, maintenance optimization for heterogeneous infrastructure systems, optimal emergency infrastructure inspection scheduling, and sustainable rehabilitation of deteriorated transportation infrastructure systems.

Handbook on Resilience of Socio-Technical Systems
Handbook on Resilience of Socio-Technical Systems

Author: Matthias Ruth

Publisher: Edward Elgar Publishing

Published:

Total Pages: 424

ISBN-13: 1786439379

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The goal to improve the resilience of social systems – communities and their economies – is increasingly adopted by decision makers. This unique and comprehensive Handbook focuses on the interdependencies of these social systems and the technologies that support them. Special attention is given to the ways in which resilience is conceptualized by different disciplines, how resilience may be assessed, and how resilience strategies are implemented. Case illustrations are presented throughout to aid understanding.

Energy Storage in Energy Markets
Energy Storage in Energy Markets

Author: Behnam Mohammadi-Ivatloo

Publisher: Academic Press

Published: 2021-04-30

Total Pages: 452

ISBN-13: 0128203838

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Energy Storage in Energy Markets reviews the modeling, design, analysis, optimization and impact of energy storage systems in energy markets in a way that is ideal for an audience of researchers and practitioners. The book provides deep insights on potential benefits and revenues, economic evaluation, investment challenges, risk analysis, technical requirements, and the impacts of energy storage integration. Heavily referenced and easily accessible to policymakers, developers, engineer, researchers and students alike, this comprehensive resource aims to fill the gap in the role of energy storage in pool/local energy/ancillary service markets and other multi-market commerce. Chapters elaborate on energy market fundamentals, operations, energy storage fundamentals, components, and the role and impact of storage systems on energy systems from different aspects, such as environmental, technical and economics, the role of storage devices in uncertainty handling in energy systems and their contributions in resiliency and reliability improvement. Provides integrated techno-economic analysis of energy storage systems and the energy markets Reviews impacts of electric vehicles as moving energy storage and loads on the electricity market Analyzes the role and impact of energy storage systems in the energy, ancillary, reserve and regulatory multi-market business Applies advanced methods to the economic integration of large-scale energy storage systems Develops an evaluation framework for energy market storage systems

Enhancing the Resilience of the Nation's Electricity System
Enhancing the Resilience of the Nation's Electricity System

Author: National Academies of Sciences, Engineering, and Medicine

Publisher: National Academies Press

Published: 2017-10-25

Total Pages: 171

ISBN-13: 0309463076

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Americans' safety, productivity, comfort, and convenience depend on the reliable supply of electric power. The electric power system is a complex "cyber-physical" system composed of a network of millions of components spread out across the continent. These components are owned, operated, and regulated by thousands of different entities. Power system operators work hard to assure safe and reliable service, but large outages occasionally happen. Given the nature of the system, there is simply no way that outages can be completely avoided, no matter how much time and money is devoted to such an effort. The system's reliability and resilience can be improved but never made perfect. Thus, system owners, operators, and regulators must prioritize their investments based on potential benefits. Enhancing the Resilience of the Nation's Electricity System focuses on identifying, developing, and implementing strategies to increase the power system's resilience in the face of events that can cause large-area, long-duration outages: blackouts that extend over multiple service areas and last several days or longer. Resilience is not just about lessening the likelihood that these outages will occur. It is also about limiting the scope and impact of outages when they do occur, restoring power rapidly afterwards, and learning from these experiences to better deal with events in the future.

The Resilience of the Electric Power Delivery System in Response to Terrorism and Natural Disasters
The Resilience of the Electric Power Delivery System in Response to Terrorism and Natural Disasters

Author: National Research Council

Publisher: National Academies Press

Published: 2013-10-22

Total Pages: 61

ISBN-13: 0309293987

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The Resilience of the Electric Power Delivery System in Response to Terrorism and Natural Disasters is the summary of a workshop convened in February 2013 as a follow-up to the release of the National Research Council report Terrorism and the Electric Power Delivery System. That report had been written in 2007 for the Department of Homeland Security, but publication was delayed because of security concerns. While most of the committee's findings were still relevant, many developments affecting vulnerability had occurred in the interval. The 2013 workshop was a discussion of the committee\'s results, what had changed in recent years, and how lessons learned about the grid's resilience to terrorism could be applied to other threats to the grid resulting from natural disasters. The purpose was not to translate the entire report into the present, but to focus on key issues relevant to making the grid sufficiently robust that it could handle inevitable failures without disastrous impact. The workshop focused on five key areas: physical vulnerabilities of the grid; cybersecurity; mitigation and response to outages; community resilience and the provision of critical services; and future technologies and policies that could enhance the resilience of the electric power delivery system. The electric power transmission and distribution system (the grid) is an extraordinarily complex network of wires, transformers, and associated equipment and control software designed to transmit electricity from where it is generated, usually in centralized power plants, to commercial, residential, and industrial users. Because the U.S. infrastructure has become increasingly dependent on electricity, vulnerabilities in the grid have the potential to cascade well beyond whether the lights turn on, impacting among other basic services such as the fueling infrastructure, the economic system, and emergency services. The Resilience of the Electric Power Delivery System in Response to Terrorism and Natural Disasters discusses physical vulnerabilities and the cybersecurity of the grid, ways in which communities respond to widespread outages and how to minimize these impacts, the grid of tomorrow, and how resilience can be encouraged and built into the grid in the future.