Konsekvensanalys av olika förändringar i intäktsrams-regleringen avseende hänsyn till leveranssäkerhet / Analyses of changes in the regulatory framework with respect to security of supply

Majlund, Åsa

January 2018

The distribution of electricity is a natural monopoly. The infrastructure of the electricity grid is divided into areas and the distribution system operator (DSO) has concession for the distribution of the defined area. The concession is governed by laws and regulation.The Swedish Energy Markets Inspectorate (Ei) is the national regulatory authority. The continuity of supply of electricity is a part of the regulation. The incentive is given by a revenue cap regulation which may result in a reward or penalty.The performance indicators are a measure of the continuity of supply and used in the calculation of the revenue cap regulation.The Master thesis aims to specify the possible consequences for the electricity distribution system operators and their customers utilizing the electricity grid in case of a change of the current methods used to measure the continuity of supply in Sweden.With the current methods, the Ei regulation for year 2016-2019, is the continuity of supply in the local electrical grid estimated from a view where each disruption is treated equal and therefore is SAIFI and SAIDI used. In the regional electrical grid is another method used to measure the continuity of supply, estimated from a view where the loss of supplied energy is considered, therefore uses PNS and ENS. In the documentation is the term ILE used for ENS and ILEffekt for PNS.The Master thesis is constructed to analyze new performance indicators for the local and regional distribution grid. The new performance indicator is the mathematically instrument to measure the continuity of supply and is supported by analytically advantages and disadvantages.The result shows the choice of performance indicators cause a great impact in the revenue cap regulation. AIT, AIF corresponds to ENS and PNS, respectively, divided by power. The three most important results are given by:1. Mathematical and theoretical results show that ENS, PNS are not good indicators individually or in combination with SAIDI, SAIFI and CEMI4 as power consumption within each customer group varies in the local electrical grid.In the regional electrical grid, power consumption may also vary between the norm period and the supervisory period, which means that ENS, PNS can sometimes be misleading.2. The inclusion of power disruption over 12 hours generate stronger incentives in the regulation. Because it requires long term planning to avoid interruptions exceeding 12 hours. The difference is shown mainly in local electrical grid with the indicators SAIDI, SAIFI and CEMI4 and gives a slight increase in rewards in the regulation. This affects the DSO’s and their customers with a marginal difference.3. In the short term, the introduction of AIT, AIF as quality indicators means that customers who consume more power within their customer group get higher-value interruptions. An interruption of a high-consumption customer would then be prioritized compared to a customer with a lower consumption. One way to counteract this is to use CEMI4, in order to capture these customers' interruptions in the regulation.In the long term, the regulation does not become cyclically sensitive, meaning that reasonable rewards or penalties are made. This should benefit a long-term planning of the electrical grid, as the DSO’s do not have to compensate for this. / Det elektriska distributionsnätet är ett naturligt monopol. Infrastrukturen av nätet är uppdelat i områden och där nätägaren har nätkoncession för området som omfattas. Koncessionen är styrd av lagar och reglering.Energimarknadsinspektionen (Ei) är en tillsynsmyndighet som arbetar med uppdrag från regeringen. En del av tillsyn för energimarknaden, är reglering av leveranssäkerhet i det elektriska distributionsnätet. Incitamentet i regleringen ges av intäktsramens begränsning vilket kan resultera i en ökning eller minskning av intäktsramen.Kvalitetsindikatorer är ett matematiskt verktyg för att mäta leveranssäkerhet och används i regleringen av intäktsramen.Examensarbetet syftar till att synliggöra de möjliga konsekvenserna för nätföretagen respektive deras kunder av olika förändringar av de mätmetoder som används för att uppskatta leveranssäkerhet.De mätmetoder som används styrs av indikatorer. Indikatorer som mäter antal avbrott per totalt antal kunder kallas SAIFI. Indikatorer som mäter tid för dessa avbrott per totalt antal kunder kallas SAIDI. En annan metod är att de ingående indikatorerna ska mäta icke levererad energi eller effekt och då kallas de ILE respektive ILEffekt.Energimarknadsinspektionen har inför reglerperioden år 2016-2019 tillämpat SAIDI och SAIFI för kunder kopplade till lokalnät och ILE och ILEffekt för kunder och gränspunkter inom regionnätetExamensarbetet är utformat för att analysera nya typer av kvalitetsindikatorer i lokalnät och regionnät. De nya kvalitetsindikatorerna är olika matematiska verktyg för att mäta leveranssäkerheten och motiveras med analytiska för- och nackdelar.Resultatet visar att valet av indikator har stor betydelse i intäktsramens reglering. AIT, AIF motsvarar ILE respektive ILEffekt dividerat med effekt. De tre viktigaste resultaten ges av:1. Matematiska och teoretiska resultat visar att ILE, ILEffekt är inte bra indikatorer enskilt eller i kombination med SAIDI, SAIFI och CEMI4 då effektförbrukningen inom varje kundgrupp varierar för lokalnät.I regionnät så kan effektförbrukningen också variera mellan normperiod och tillsynsperiod vilket ger att ILE, ILEffekt ibland kan bli missvisande.2. Avbrott över 12 timmar genererar ett starkare incitament i regleringen. Eftersom det kräver långsiktig planering för att undvika avbrott som överstiger 12 timmar. Skillnaden visas främst i lokalnät med indikatorerna SAIDI, SAIFI och CEMI4 och ger en svag höjning av tillägg i regleringen sett på en systemnivå. Det påverkar nätföretagen och deras kunder med en marginell skillnad.3. På kort sikt innebär införandet av AIT, AIF som kvalitetsindikatorer att de kunder som förbrukar mer inom sin kundgrupp får högre värderade avbrott. Ett avbrott hos en kund med hög förbrukning skulle då prioriteras före en kund med lägre förbrukning. Ett sätt att motverka detta är att använda CEMI4 för att fånga upp dessa kunders avbrott i regleringen.På lång sikt innebär det att regleringen inte blir konjunkturkänslig, vilket innebär att rimliga tillägg eller avdrag görs. Det borde gynna en långsiktig planering av elnätet då elnätsföretagen inte behöver kompensera för detta inom regionnäten och lokalnäten.

Continuity of supply

SAIFI

SAIDI

PNS

ENS

AIF

AIT

Leveranssäkerhet

SAIDI

SAIFI

ILE

ILEffekt

AIT

AIF

Engineering and Technology

Teknik och teknologier

Substation Digitalization for Medium Voltage Urban Distribution Networks : A Techno-Economic Analysis

Molina Mendizábal, Diego

January 2023

High and medium-voltage digital substations play an essential role in the energy transition since they are part of the equipment required to deploy smart grids. With the gradual increase of smart grids, energy systems are becoming more flexible with the growing penetration of renewable energies and distributed energy generation. Simultaneously, the energy system’s efficiency increases, with load supply precisely where required and reduced losses. Medium voltage stations have not been upgraded gradually like high voltage stations; therefore, most of Stockholm’s medium voltage stations are considered old and do not include digital remote monitoring or remote-control features. These conventional stations must be retrofitted with digital technology or replaced with new digitized stations. Previous studies show the technical potential of updating non-digitized stations to reduce interruption times. Still, a systematic assessment of these types of projects’ profitability is missing. This project aims to perform a techno-economic assessment for retrofitting conventional urban medium voltage substations with digital technology, modeling different configurations of digitalization (levels 1 and 2) to suggest the most convenient set-up, balancing the technical and economic facets. Furthermore, it investigates the prospect and profitability of reducing interruption times by 50% with the digitization of substations. The methodology proposed used a reference test system based on the most representative type of network for an urban medium voltage network in Stockholm: A Double cable – open loop structure consisting of 5 single cable secondary substations. A calculation method was performed to obtain the expected results evaluating all the possible combinations of digitalized stations in the feeder line. Results suggest that the best outcome is formed by the last station retrofitted with remote control (level 2) and the other four stations with monitoring (level 1). This setup could reduce SAIDI by 71% and the total customer costs by 26.3%. To make this outcome profitable, a reduction in Omexom Labor Costs of 13.6% is required if a discount rate of 7% is used, but if this value is below 4.65%, a reduction in Labor Costs is unnecessary. Furthermore, results show that a set-up of 5 monitoring digitized stations can reduce SAIDI by 56.8%. Thus, it aligns with Ellevio’s objective to reduce by half their interruption times. A reduction of 12.9% in Labor Costs would be required to achieve this as a profitable setup; on the other hand, if the discount rate is below 4.65%, it is unnecessary. / Digitala hög- och medelspänningsstationer spelar en avgörande roll i energiomställningen eftersom de är en del av den utrustning som krävs för att implementera smarta elnät. Med den gradvisa ökningen av smarta elnät blir energisystemen mer flexibla med den ökande penetrationen av förnybar energi och distribuerad energiproduktion. Samtidigt ökar energisystemets effektivitet, med lastförsörjning precis där det behövs och minskade förluster. Medelspänningsstationerna har inte uppgraderats gradvis som högspänningsstationerna; därför anses de flesta av Stockholms medelspänningsstationer vara gamla och inkluderar inte digital fjärrövervakning eller fjärrstyrningsfunktioner. Dessa konventionella stationer måste antingen uppgraderas med digital teknik eller ersättas med nya digitaliserade stationer. Tidigare studier visar den tekniska potentialen att uppdatera icke-digitaliserade stationer för att minska avbrottstiderna, men en systematisk bedömning av lönsamheten för sådana projekt saknas. Detta projekt syftar till att utföra en teknisk-ekonomisk utvärdering för att uppgradera konventionella urbana medelspänningsstationer med digital teknik, genom att modellera olika konfigurationer av digitalisering (nivå 1 och 2) för att föreslå den mest lämpliga uppställningen, där tekniska och ekonomiska aspekter balanseras. Dessutom ska möjligheterna och lönsamheten för att minska avbrottstiderna med 50% genom digitalisering av stationer undersökas. Den föreslagna metoden använder ett referenstestsystem baserat på den mest representativa typen av nätverk för ett urbant medelspänningsnät i Stockholm: en dubbelkabel - öppen slingstruktur bestående av 5 enskilda kabelunderstationer. En beräkningsmetod användes för att få de förväntade resultaten genom att utvärdera alla möjliga kombinationer av digitaliserade stationer i matarledningen. Resultaten antyder att det bästa resultatet uppnås genom att den sista stationen uppgraderas med fjärrstyrning (nivå 2) och de andra fyra stationerna med övervakning (nivå 1). Denna uppställning kan minska SAIDI med 71% och totala kundkostnader med 26.3%. För att göra detta resultat lönsamt krävs en minskning av Omexom arbetskostnader med 13.6% om en diskonteringsränta på 7% används, men om detta värde är under 4.65% behövs ingen minskning av arbetskraftskostnader. Dessutom visar resultaten att en uppställning med 5 övervakningsdigitaliserade stationer kan minska SAIDI med 56.8%. Detta stämmer överens med Ellevios mål att halvera sina avbrottstider. En minskning av arbetskraftskostnader med 12.9% skulle krävas för att uppnå detta som en lönsam uppställning. Å andra sidan, om diskonteringsräntan är under 4.65%, finns det ingen anledning att minska arbetskraftskostnader.

Continuity of supply

incentive scheme

SAIDI

techno-economic analysis

Kontinuitet i försörjningen

incitamentsprogram

SAIDI

teknisk-ekonomisk analys

Engineering and Technology

Teknik och teknologier

[en] A DATA ENVELOPMENT ANALYSIS MODEL TO SET ELECTRICITY SUPPLY CONTINUITY STANDARDS / [pt] UM MODELO DE ANÁLISE ENVOLTÓRIA DE DADOS PARA ESTABELECIMENTO DAS METAS DE CONTINUIDADE DO FORNECIMENTO DE ENERGIA ELÉTRICA

JOSE FRANCISCO MOREIRA PESSANHA

01 September 2006

[pt] No Setor Elétrico Brasileiro (SEB), a revisão das tarifas de distribuição é realizada com base na regulação por preço-teto. Este esquema de regulação tarifária cria incentivos à redução de custos que podem ser nocivos à qualidade do fornecimento. Neste contexto, torna-se necessário um aparato regulatório complementar que fixe padrões mínimos de qualidade a serem observados pelas concessionárias, sob risco de sanções e penalidades. Entre os aspectos da qualidade do fornecimento destaca-se o da continuidade, avaliado com base nos indicadores DEC e FEC que expressam, respectivamente, a duração e a freqüência das interrupções do fornecimento de energia elétrica. Esta Tese propõe uma nova implementação da regulação por comparação de desempenho na definição dos níveis toleráveis de DEC e FEC, ou metas de continuidade, para as concessionárias de distribuição e seus conjuntos de unidades consumidoras. Na abordagem proposta combinam-se modelos de Análise Envoltória de Dados (DEA) em um processo com dois estágios: primeiro um modelo DEA estabelece quanto cada distribuidora deve melhorar globalmente os seus indicadores de continuidade, em seguida, por meio de um modelo para alocação de recursos baseado em DEA, comparam-se os desempenhos dos conjuntos em uma mesma distribuidora e definem-se metas locais de continuidade para cada conjunto, compatíveis com a meta global da concessionária. Apresentam-se metas globais de continuidade para as distribuidoras do SEB e metas locais para os conjuntos de unidades consumidoras das duas principais concessionárias que atendem o Estado do Rio de Janeiro. / [en] In the Brazilian electric power sector, the distribution tariff revision is made by the price cap method. Since this approach encourages the cost reduction, the quality of supply can suffer deterioration. In this context, a quality supply regulation becomes more important. The continuity of supply regulation consists in setting upper limits or standards to the number and the duration of outages and penalities for any violation of these standards. The main dimension of the electricity quality is the supply continuity, evaluated by indices SAIDI (System Average Interruption Duration Index) and SAIFI (System Average Interruption Frequency Index). This Thesis presents a new implementation of the yardstick competition in the setting of the continuity standards for the electricity distribution utilities and their groups of consumption units. The approach proposed combines two Data Envelopment Analysis models (DEA) in a framework with two stages. First, a classical DEA model performs a comparative analysis between utilities, in order to define global standards for each utility. Then, in order to set the local standards for each consumption units group, a model for resource allocation, based on DEA, performs a comparative analysis between groups in a same utility. Global standards for Brazilian distribution utilities and local standards for consumption units groups of the two main distribution utilities in the Rio de Janeiro State are presented.

[pt] ANALISE DA ENVOLTORIA DE DADOS

[en] DATA ENVELOPMENT ANALYSIS

[pt] DISTRIBUICAO DE ENERGIA

[en] ENERGY DISTRIBUTION

[pt] REGULACAO DA QUALIDADE

[en] QUALITY REGULATION

[pt] CONTINUIDADE DO FORNECIMENTO

[en] CONTINUITY OF SUPPLY

Optimal Allocation Of Sectionalizing Switches In Rural Distribution Systems

Daldal, Mustafa

01 February 2012

The distribution system which forms the final connection between customers and power source plays a vital role in an electrical network. Different studies show that substantial proportion of the customer interruptions occurs due to the failures on distribution network. The ongoing privatization process of the electrical distribution services in Turkey raises the importance of reliable and continuous electricity supply significantly. The new regulations come up with this privatization process and the electrical distribution companies are strictly required to comply with these regulations to ensure the reliability of the distribution network. The legal framework and severe punishments applied to the electrical distribution companies exceeding the continuity of supply indices force them to invest on their network in order to increase the reliability of their system. As the reliability of electricity supplied increases, investment cost also increases. However, low system reliability causes higher outage frequency and duration which will increase the damage of these outages to customers and also increases the cost of the distribution company as a result of the penalty payments. This tradeoff between Outage Cost and Utility Cost requires consideration of an optimization when determining the optimal reliability level. In rural areas where electrical distribution network consists of long radial overhead lines in arborescent structure, continuity of supply is a major problem due to the high failure rates. The implementation of protection devices having reclosing capability and automated sectionalizing switches enhances the continuity of supply on rural networks substantially. The balance between the cost associated with installation of switches and the reduction on Outage Cost is an important optimization issue for distribution network operators. In this thesis study an algorithm is developed in order to determine the optimum number and locations of the sectionalizing switches on a rural electrical distribution network in Turkey which gives an optimum investment level with an optimum Outage Cost.

Modelagem e análise das cadeias de suprimentos globais e resilientes baseadas em rede de Petri. / Modeling and analysis of global and resilient supply chain based on Petri Net.

Kano, Célia Hanako

16 June 2015

Em um cenário de aumento de competitividade, crescente expectativa por inovações do produto e necessidade de atender diferentes perfis de consumidores, o conceito de gerenciamento de cadeias de suprimentos globais (GSCM) surge como uma estratégia para coordenar mais eficazmente as atividades dispersas geograficamente dos sistemas produtivos. Na adoção do GSCM, as organizações devem lidar com rupturas que impactam no gerenciamento das suas atividades, tais como a interrupção de vias de transporte, pane no fornecimento de energia, desastres naturais e até ataques terroristas. Nesse contexto, o trabalho introduz um procedimento sistematizado para modelagem das cadeias de suprimentos visto como um sistema a eventos discretos e sua análise por simulação das atividades do GSCM baseada em técnicas formais como a rede de Petri (PN) e o Production Flow Schema (PFS). Um exemplo é também apresentado para ilustrar e comprovar as vantagens do método proposto na análise do GSCM. / In a context of increasing competition, rising of expectations for product innovations and need to satisfy different consumer needs, the concept of global supply chain management (GSCM) emerges as a strategy to more efficiently coordinate the geographically dispersed activities of production systems. Adopting GSCM, organizations have to deal with external disruptions that impact management activities, such as transport interruption, power supply failure, natural disasters and terrorist attacks. In this way, a systematized procedure for modeling supply chains as a discrete event system and simulation analysis of GSCM activities based on formal techniques, such as Petri net (PN) and Production Flow Schema (PFS) is introduced. An example is also presented to illustrate and confirm the advantages of the proposed method for GSCM analysis.

Discrete event system

Dispersed production system

Global supply chain management

Petri Net

Plano de continuidade de negócios

Redes de Petri

Resiliência de cadeia de suprimentos

Ruptura de cadeia de suprimentos

Sistema a eventos discretos

Sistema produtivo disperso

Supply chain disruption

Modelagem e análise das cadeias de suprimentos globais e resilientes baseadas em rede de Petri. / Modeling and analysis of global and resilient supply chain based on Petri Net.

Célia Hanako Kano

16 June 2015

Em um cenário de aumento de competitividade, crescente expectativa por inovações do produto e necessidade de atender diferentes perfis de consumidores, o conceito de gerenciamento de cadeias de suprimentos globais (GSCM) surge como uma estratégia para coordenar mais eficazmente as atividades dispersas geograficamente dos sistemas produtivos. Na adoção do GSCM, as organizações devem lidar com rupturas que impactam no gerenciamento das suas atividades, tais como a interrupção de vias de transporte, pane no fornecimento de energia, desastres naturais e até ataques terroristas. Nesse contexto, o trabalho introduz um procedimento sistematizado para modelagem das cadeias de suprimentos visto como um sistema a eventos discretos e sua análise por simulação das atividades do GSCM baseada em técnicas formais como a rede de Petri (PN) e o Production Flow Schema (PFS). Um exemplo é também apresentado para ilustrar e comprovar as vantagens do método proposto na análise do GSCM. / In a context of increasing competition, rising of expectations for product innovations and need to satisfy different consumer needs, the concept of global supply chain management (GSCM) emerges as a strategy to more efficiently coordinate the geographically dispersed activities of production systems. Adopting GSCM, organizations have to deal with external disruptions that impact management activities, such as transport interruption, power supply failure, natural disasters and terrorist attacks. In this way, a systematized procedure for modeling supply chains as a discrete event system and simulation analysis of GSCM activities based on formal techniques, such as Petri net (PN) and Production Flow Schema (PFS) is introduced. An example is also presented to illustrate and confirm the advantages of the proposed method for GSCM analysis.

Plano de continuidade de negócios

Redes de Petri

Resiliência de cadeia de suprimentos

Ruptura de cadeia de suprimentos

Sistema a eventos discretos

Sistema produtivo disperso

Discrete event system

Dispersed production system

Global supply chain management

Petri Net

Supply chain disruption