Reviewing Power Outage Trends, Electric Reliability Indices and Smart Grid Funding

Adderly, Shawn

01 January 2016

As our electric power distribution infrastructure has aged, considerable investment has been applied to modernizing the electrical power grid through weatherization and in deployment of real-time monitoring systems. A key question is whether or not these investments are reducing the number and duration of power outages, leading to improved reliability. Statistical methods are applied to analyze electrical disturbance data (from the Department of Energy, DOE) and reliability index data (from state utility public service commission regulators) to detect signs of improvement. The number of installed smart meters provided by several utilities is used to determine whether the number of smart meters correlate with a reduction in outage frequency. Indication emerged that the number of power outages may be decreasing over time. The magnitude of power loss has decreased from 2003 to 2007, and behaves cyclically from 2008 to 2014, with a few outlier points in both groups. The duration also appears to be decreasing between 2003-2014. Large blackout events exceeding 5 GW continue to be rare, and certain power outage events are seasonally dependent. There was a linear relationship between the number of customers and the magnitude of a power outage event. However, no relationship was found between the magnitude of power outages and time to restore power. The frequency of outages maybe decreasing as the number of installed smart meters has increased. Recommendations for inclusion of additional metrics, changes to formatting and semantics of datasets currently provided by federal and state regulators are made to help aid researchers in performing more effective analysis. Confounding variables and lack of information that has made the analysis diffcult is also discussed.

Blackouts

DOE

Electrical Disturbances

Power Outage

SAIFI

Smart Gird

Electrical and Electronics

Power and Energy

Statistics and Probability

Výpadek elektrické energie z pohledu krizového štábu ORP Český Krumlov / Power outage from the perspective of the crisis staff ORP Czech Krumlov

FILIPOVÁ, Eva

January 2015

Electric energy is part of our lives. We use electric energy everyday in our lives at home or work. The use ranges from home lighting to using computers or traffic lights. Electric energy became the indispensable part of our days. Electric energy is included in the fields of critical infrastructure which is essential to maintain safety and running the country. Power cut of critical infrastructure jeopardize the common being of inhabitants and also the safety of this region. Critical infrastructure is based in the Czech law of crisis management nb. 240/2000Cl and also in government regulation nb. 432/2010Cl about criteria of dealing crisis infrastructure. It is necessary to be prepared for every aspect of power cuts in the critical infrastructure field thoroughly as power cut can endanger human society and state. Because of the serious threat human society and state is essential to the individual areas of critical infrastructure failures to adequately prepare.Readiness to electrical power outage is a main theme of this thesis. The thesis focus on region of Cesky Krumlov located in South Bohemia, Czech Republic. Theoretical part of thesis named Power outage from the perspective of the crisis staff ORP Cesky Krumlov deals the aspects of electric energy and critical infrastructure. Reader learns about production, transport and distribution of electrical energy. Reader can also find information about power outages black outs. The thesis explains the meaning of word Infrastructure and also clarifies critical infrastructure and following protection of critical infrastructure. The thesis includes more information about critical infrastructure i.e. which documents deals with the problem of critical infrastructure, when and why the protection of critical infrastructure started and who was pioneer of the field problem. The thesis also describes the field of blackouts and gives the examples of the biggest blackouts which have every occurred in the world. The thesis reveals the cause of mentioned blackouts if the cause was human error, technical problem or overload of transmission system. The thesis shows the impact of blackouts on suffering population time they spent without electricity and how many people was affected with blackout, to complete the picture of blackouts. The last chapter is about crises staff. Reader learns about meaning of crisis staff and why and in which situations is the crisis staff in session. The thesis names and describes the crisis staffs at every level and describes the structure of crisis staff on every level government crises staff, county crisis staff and region crisis staff. The researcher part of this thesis is focused on region of Cesky Krumlov. The region is divided in municipalities and its belonging townships.The thesis gives picture about region population and its average age. The thesis also gives information about main water reservoirs and watercourses in region. The thesis mentions the leading farm economies which can be jeopardize during electric power outage. The thesis defines and analyses secondary crisis situations, which can occur during long lasting electrical power outage. The conclusion focus on the thesis research question "Is crises staff of region CeskýKrumlov prepared for the crises of electrical power outage?" The answer for the research question was ascertain by methods of risk analysing-the Checklist analysis and SWOT analysis. The research question was answered, based on these two analyses. One method was used to check the readiness for electrical power outage and following protection of region population of crisis staff of region CeskýKrumlov. The second method marks off strong and weak parts, opportunities and threats from the electrical power cut point of view. Following percentage calculation shows, what is the biggest danger for region of Cesky Krumlov in the moment of electrical power outage.

Dopady výpadku elektrické energie ve velkých potravinářských podnicích v Jihočeském kraji / Impacts of a power outage in great food - processing companies in South Bohemia county

HÁSKOVÁ, Michaela

January 2014

Indispensability of electricity in all areas of life, including industry, requires enterprises to be prepared for possible power outages, which would minimize impacts on the population. The aim of this thesis titled "Impacts of a power outage in great food - processing companies in the South Bohemia county" is to analyze possible impacts of power cuts in the awareness system of large food enterprises and to assess the effects it would have on the protection of the population when power outage occurs. To obtain the data for the thesis, I used a qualitative research in the form of structured interviews with employees of five large food enterprises, who are responsible for the given area. SWOT analyse was used to evaluate the interviews and a KARS method was used for the analysis of the most significant impacts of an electric power outage in the system of awareness of enterprises and in the protection of the population. The results of the research revealed a basic fact that electricity outage would mean an immediate interruption of production for the food enterprises in South Bohemia. None of the enterprises surveyed owns a standby electric power source, so the sustainability of the standby energy supply does not exist. This fact is alarming mainly from the point of view of the crisis management, because two of the surveyed enterprises are included in the Crises plan of South Bohemia and implement corresponding measures. An important factor influencing the current state of food enterprises awareness for electricity outage is undoubtedly the fact that there is no legislation in the Czech Republic at the moment, which would impose an obligation for food enterprises to prepare for electric power outages. To increase the awareness of the food enterprises for electricity outage, for example in the form back up power sources, would require considerable investments. I hope that this thesis will serve not only as a study material, but also will be a subject of discussion for food enterprises, presenting a model for a case of electric power outage.

Přístup k zajištění informovanosti obyvatelstva v rámci výpadků elektrické energie ve vybraných státech / Approach to secure the population knowledge of power outages in chosen states

STANĚK, Jakub

January 2018

Today's globalized world is much more vulnerable than we are often willing to admit. We live in a society which is considerably dependent on a stable supply of electricity. Potential large power outage also called blackout may be a very dangerous situation for our community. Usually we don't realize all consequences there can be for our everyday life, people's health, the security and the economy of the country. Despite the efforts of the responsible authorities, the complications for the population can be very serious. The effects of such unfortunate event can be reduced in a variety of ways. An option is to support an informed society that can take care of itself in times of crisis. This text is focused on the current approach to raising and maintaining awareness of the people for masive power outage not only in the Czech Republic. The aim of the thesis is to compare the information environment of the Czech Republic with the situation in neighboring Germany. It is important to keep on mind that many important systems serving under normal conditions to inform the population will not work when such an event occurs. It can be necessary to proceed with alternative solutions and communication channels. In the education context, it's realisic to inform the majority of the population only about the most important measures and appropriate patterns of blackout behavior. With the restoration of energy supplies, the task of informing the population doesn't end. By selecting key information, this work could contribute to the society.

Power Outage Management using Social Sensing

Khan, Sifat Shahriar

02 July 2019

No description available.

Artificial Intelligence

Computer Science

Electrical Engineering

A Generalized Accelerated Failure Time Model to Predict Restoration Time from Power Outages

Jamal, Tasnuba Binte

01 January 2023

Major disasters such as wildfire, tornado, hurricane, tropical storm, flooding cause disruptions in infrastructure systems such as power outage, disruption to water supply system, wastewater management, telecommunication failures, and transportation facilities. Disruptions in electricity infrastructures have negative impacts on sectors throughout a region, including education, medical services, financial, and recreation sectors. In this study, we introduce a novel approach to investigate the factors which can be associated with longer restoration time of power service after a hurricane. Considering restoration time as the dependent variable and utilizing a comprehensive set of county-level data, we have estimated a Generalized Accelerated Failure Time (GAFT) model that accounts for spatial dependence among observations for time to event data. The model fit improved by 12% after considering the effects of spatial correlation in time to event data. Using GAFT model and Hurricane Irma's impact on Florida as a case study, we examined: (1) differences in electric power outages and restoration rates among different types of power companies: investor-owned power companies, rural and municipal cooperatives; (2) the relationship between the duration of power outage and power system variables; (3) the relationship between the duration of power outage and socioeconomic attributes. The findings of this study indicate that counties with a higher percentage of customers served by investor-owned electric companies and lower median household income, faced power outage for a longer time. This paper identifies the key factors to predict restoration time of hurricane-induced power outages, allowing disaster management agencies to adopt strategies required for restoration process.

power outage

restoration time

hurricanes

investor-owned power companies

median income.

Civil Engineering

Construction Engineering and Management

Integration av BESS för förstärkt elnätsstabilitet på Ekerö / Integration of BESS for enhanced electricity grid stability in Ekerö

Ahmad, Mohemmad

January 2024

Denna rapport undersöker implementeringen av batterienergilagringssystem (BESS) som en strategisk åtgärd för att hantera de återkommande instabiliteterna i elnätet i Ekerö kommun. Den lokala elkraftsinfrastrukturen drabbas ofta av frekventa och långvariga avbrott, huvudsakligen på grund av sitt beroende av sårbara luftledningar. Integrationen av BESS erbjuder en dubbel fördel: förbättrad nätstabilitet och tillhandahållande av nödvändiga stödtjänster under perioder med hög efterfrågan. Studien inleds med en analys av de nuvarande förhållandena i Ekerös elnät, där de ekonomiska och operativa utmaningarna med den befintliga infrastrukturen belyses. Luftledningarna är särskilt utsatta för miljöpåfrestningar, vilket resulterar i betydande tjänsteavbrott som påverkar både hushåll och kommersiella konsumenter. De ekonomiska konsekvenserna är betydligt viktiga, inte bara på grund av de direkta kostnaderna för reparationer, utan också på grund av de ersättningar som krävs enligt regulatoriska standarder vid tjänstefel. Som en lösning på dessa utmaningar föreslås en strategisk placering av BESS-enheter i kommunen. Dessa system kan lagra överskottsenergi som genereras under perioder med låg efterfrågan, såsom nattetid eller under perioder med låg belastning, och frigöra den under perioder med hög efterfrågan eller när nätet inte kan möta belastningskraven. Denna kapacitet bidrar inte bara till reservkraft och stabilisering av elnätet, utan säkerställer även en mer effektiv användning av genererad energi, vilket minskar spill och potentiellt sänker elkostnaderna för kommunen. För att besvara frågeställningarna kring den optimala kapaciteten och placeringen av BESS har HOMER Pro använts. HOMER Pro är en mjukvara för optimering av mikronät. Med HOMER Pro har olika scenarier simulerats för att hitta den mest effektiva lösningen baserat på Ekerös specifika energibehov och nätförhållanden. Simuleringarna har resulterat i en rekommendation om att implementera en total kapacitet av cirka 52 MWh batterilagring vid samtliga nätstationer för att tillgodose kommunens energibehov under avbrott och hög belastning. Vidare beskriver rapporten de tekniska specifikationerna och de operativa mekanismerna för BESS, inklusive de batterityper som övervägs (t.ex. litiumjon, bly-syra), deras förväntade livslängd, kapacitet och effektivitet. Den undersöker också potentiella platser för installation, bedömer deras inverkan på den övergripande nätstabiliteten och de logistiska övervägandena vid distribution och underhåll av dessa system. Slutligen förespråkar rapporten antagandet av BESS i Ekerö som ett kritiskt steg mot en mer motståndskraftig och ekonomiskt hållbar energiinfrastruktur. Genom att minska effekterna av strömavbrott och optimera användningen av elektrisk energi kan BESS avsevärt förbättra servicenivån för Ekerös invånare och företag, och sätta en standard för andra kommuner med liknande utmaningar. / This report investigates the implementation of Battery Energy Storage Systems (BESS) as a strategic measure to address the recurring electrical grid instabilities in the municipality of Ekerö. The local power infrastructure frequently experiences outages due to its reliance on vulnerable overhead power lines. The integration of BESS offers dual benefits: improved grid stability and the provision of essential support services during periods of high demand. The study begins with an analysis of the current conditions of the electrical grid of Ekerö, highlighting the economic and operational challenges posed by the existing infrastructure. Overhead lines are particularly susceptible to weather conditions, which lead to significant service interruptions that impact both residential and commercial consumers. The economic implications are substantial, not only due to direct repair costs but also due to compensations required by regulatory standards for service failures. In response to these challenges, the report proposes the strategic placement of BESS units throughout the municipality. These systems can store excess energy generated during periods of low demand, such as nighttime or off-peak hours, and release it during periods of high demand or when the grid cannot meet the load requirements. This capability not only stabilizes the grid but also ensures more efficient use of generated power, reducing wastage and potentially lowering electricity costs for the municipality. To address questions regarding the optimal capacity and placement of BESS, the report utilizes HOMER Pro software for microgrid optimization. Various scenarios were simulated using HOMER Pro to determine the most effective solution based on Ekerö’s specific energy needs and grid conditions. The simulations resulted in a recommendation to implement a total capacity of approximately 52 MWh of battery storage across all substations to meet the municipality’s energy needs during outages and periods of high demand. Furthermore, the report details the technical specifications and operational mechanisms of BESS, including the types of batteries considered (e.g., lithium-ion, lead-acid), their expected lifespan, capacity, and efficiency levels. It also examines potential installation sites, assessing their impact on overall grid stability and the logistical considerations involved in deploying and maintaining these systems. In conclusion, the report advocates for the adoption of BESS in Ekerö as a critical step towards a more resilient and economically sustainable energy framework. By mitigating the impact of power outages and optimizing the use of electrical energy, BESS can significantly enhance the quality of service provided to Ekerö’s residents and businesses, setting a precedent for other municipalities facing similar challenges.

BESS

Energy supply

Power outage Ekerö

BESS

Bateri energilagringssystem

Elnätsstöd

Energiförsörjning

Strömavbrott Ekerö

Engineering and Technology

Teknik och teknologier

An analysis of new functionalities enabled by the second generation of smart meters in Sweden / Analys av nya funktioner möjliggjort av andra generationen smarta mätare i Sverige

Drummond, Jose

January 2021

It is commonly agreed among energy experts that smart meters (SMs) are the key component that will facilitate the transition towards the smart grid. Fast-peace innovations in the smart metering infrastructure (AMI) are exposing countless benefits that network operators can obtain when they integrate SMs applications into their daily operations.  Following the amendment in 2017, where the Swedish government dictated that all SMs should now include new features such as remote control, higher time resolution for the energy readings and a friendly interface for customers to access their own data; network operators in Sweden are currently replacing their SMs for a new model, also called the second generation of SMs. While the replacement of meters is in progress, many utilities like Hemab are trying to reveal which technical and financial benefits the new generation of SMs will bring to their operations.    As a first step, this thesis presents the results of a series of interviews carried out with different network operators in Sweden. It is studied which functionalities have the potential to succeed in the near future, as well as those functionalities that are already being tested or fully implemeneted by some utilities in Sweden. Furthermore, this thesis analyses those obstacles and barriers that utilities encounter when trying to implement new applications using the new SMs. In a second stage, an alarm system for power interruptions and voltage-quality events (e.g., overvoltage and undervoltage) using VisionAir software and OMNIPOWER 3-phase meters is evaluated. The results from the evaluation are divided into three sections: a description of the settings and functionalities of the alarm, the outcomes from the test, and a final discussion of potential applications. This study has revealed that alarm functions, data analytics (including several methods such as load forecasting, customer segmentation and non-technical losses analysis), power quality monitoring, dynamic pricing, and load shedding have the biggest potential to succeed in Sweden in the coming years. Furthermore, it can be stated that the lack of time, prioritization of other projects in the grid and the integration of those new applications into the current system seem to be the main barrier for Swedish utilities nowadays. Regarding the alarm system, it was found that the real benefits for network operators arrive when the information coming from an alarm system is combined with a topology interface of the network and a customer notifications server. Both applications could improve customer satisfaction by significantly reducing outage time and providing customers with real-time and precise information about the problems in the grid.

Smart meter

network operator

functionalities

data analytics

alarm system

power quality

dynamic pricing

load shedding

power grid

consumers

communication

operation department

power outage

voltage events

alarms

integration

interface

Annan elektroteknik och elektronik