[en] ACQUISITION COST ALLOCATION OF REACTIVE POWER SOURCES / [es] ASIGNACIÓN DEL CUSTO DE CAPITAL DE FUENTES DE POTENCIA REACTIVA / [pt] ALOCAÇÃO DO CUSTO DE CAPITAL DE FONTES DE POTÊNCIA REATIVA

MARCO AURELIO MOURA VIEIRA

21 September 2001

[pt] Este trabalho apresenta três métodos para a identificação dos usuários da rede de transmissão que são beneficiados por novas ou já existentes fontes de potência reativa e, em conseqüência, a repartição do custo de capital entre eles. A metodologia para se obter os fatores de alocação de custos, aplicados aos agentes beneficiados, utiliza a análise de um conjunto de contingências de transmissão com suas respectivas probabilidades de ocorrência. Cada um dos métodos propostos utiliza um diferente critério para se medir os benefícios decorrentes da presença de equipamentos de suporte de potência reativa. Os critérios mencionados são os desvios de tensão, os cortes de carga e as injeções de potência reativa, bastante utilizados em estudos de planejamento da operação e da expansão, assim como em análise de confiabilidade de sistemas de potência. A aplicação dos métodos é ilustrada através de estudos de casos com dois sistemas, um sistema simplificado de 5 barras e o IEEE-Reliability Test System (24 barras), no qual um horizonte de três anos é considerado para se fazer a remuneração do equipamento de compensação reativa. / [en] This report presents three methods to identify the transmission consumers in power systems that take advantage of new or existent reactive power sources and, consequently, to allocate its acquisition costs among these consumers. The methodology to obtain the allocation factors, applied to each of the agents, takes into account the analysis of a transmission outages set with their respective probabilities. Each one of the proposed methods uses a different criterion to measure the benefit due to the reactive support provided by such equipments. The mentioned criteria are: voltage deviation, load shedding and reactive power injection. All these methodologies are very used in operational and expansion planning studies, as well as power systems reliability analysis. The application of the methods is shown in case studies with two systems, being the first a 5 bus simplified system and the other, the IEEE-Reliability Test System (24 buses), in which a three years horizon is considered for the reactive power compensation equipment remuneration. / [es] Este trabajo presenta tres métodos para la identificación de los usuários de la red de transmisión que se benefician con las fuentes (nuevas o existenten) de potencia reactiva y, en consecuencia, la repartición del costo de capital entre eles. Hasta aqui, lla metodología para obtener los factores de alocación de costos, aplicados a los agentes beneficiados, utiliza el análisis de un conjunto de contingencias de transmisión con sus respectivas probabilidades de ocurrencia. Cada uno de los métodos propuestos utiliza un critério diferente para medir los beneficios decorrentes de la presencia de equipamentos de soporte de potencia reactiva. Los critérios mencionados son los desvíos de tensión, los cortes de carga y las inyecciones de potencia reactiva, bastante utilizados en estudios de planificación de operación y expansión, así como en análisis de confiabilidad de sistemas de potencia. La aplicación de los métodos se ilustrada a través de estudios de casos con dos sistemas, un sistema simplificado de 5 barras y el IEE Reliability Test Systiene (24 barras), en el cual se considera un horizonte de tres años para realizar la remuneración del equipo de compensación reactiva.

[pt] SERVICOS ANCILARES

[en] ANCILLARY SERVICES

[pt] SUPORTE DE POTENCIA REATIVA

[en] REACTIVE POWER SUPPORT

Distribution network supports for transmission system reactive power management

Chen, Linwei

January 2015

To mitigate high voltages in transmission systems with low demands, traditional solutions often consider the installation of reactive power compensators. The deployment and tuning of numbers of VAr compensators at various locations may not be cost-effective. This thesis presents an alternative method that utilises existing parallel transformers in distribution networks to provide reactive power supports for transmission systems under low demands. The operation of parallel transformers in small different tap positions, i.e. with staggered taps, can provide a means of absorbing reactive power. The aggregated reactive power absorption from many pairs of parallel transformers could be sufficient to provide voltage support to the upstream transmission network. Network capability studies have been carried out to investigate the reactive power absorption capability through the use of tap stagger. The studies are based on a real UK High Voltage distribution network, and the tap staggering technique has been applied to primary substation transformers. The results confirm that the tap staggering method has the potential to increase the reactive power demand drawn from the transmission grid. This thesis also presents an optimal control method for tap stagger to minimise the introduced network loss as well as the number of tap switching operations involved. A genetic algorithm (GA) based procedure has been developed to solve the optimisation problem. The GA method has been compared with two alternative solution approaches, i.e. the rule-based control scheme and the branch-and-bound algorithm. The results indicate that the GA method is superior to the other two approaches. The economic and technical impacts of the tap staggering technique on the transmission system has been studied. In the economic analysis, the associated costs of applying the tap staggering method have been investigated from the perspective of transmission system operator. The IEEE Reliability Test System has been used to carry out the studies, and the results have been compared with the installation of shunt reactors. In the technical studies, the dynamic impacts of tap staggering or reactor switching on transmission system voltages have been analysed. From the results, the tap staggering technique has more economic advantages than reactors and can reduce voltage damping as well as overshoots during the transient states.

621.319

Valoração do fornecimento de serviços ancilares a partir de usinas hidroelétricas. / Ancillary services supply pricing from hydroelectric plants.

Sousa, Thales

18 September 2006

O presente trabalho propõe o desenvolvimento de uma metodologia de valoração da reserva de potência ativa e do suporte de potência reativa a partir de plantas hidroelétricas. Inicialmente foi apresentado um histórico que descreveu o que foi definido e regulamentado sobre estes serviços em diferentes mercados de energia. Em seguida, com o objetivo de valorar o serviço de reserva de potência ativa foi realizada a mensuração da perda de eficiência, resultante do fornecimento deste serviço, que após convertida em MWh foi relacionada à perda de oportunidade, caso essa energia fosse comercializada no mercado de energia. Para a valoração do suporte de potência reativa foi utilizada a teoria de Fluxo de Potência Ótimo com objetivo de minimizar as perdas do sistema e relacionar essa minimização à redução do suporte de potência reativa. Em seguida, foi apresentada uma metodologia de valoração e alocação dos custos do suporte de potência reativa entre as barras responsáveis pela necessidade adicional deste suporte. Foram realizados vários testes para validação e verificação das metodologias propostas. / The present study proposes valuation methodologies for the spinning reserve and for the reactive power support regarding hydroelectric plants. Initially, a revision describing what was defined and regulated on these services in different energy markets is presented. In order to valuate the spinning reserve service, the measurement of efficiency losses stemming from this service supply was done. Thereafter, the efficiency losses were converted into MWh and related to the opportunity loss, in case this energy was commercialized in the energy market. As for the reactive power support valuation, the Optimal Power Flow was used. The objective was to minimize the system losses and relate such a minimization to the reactive power support. Subsequently, methodologies for the reactive power support costs and for the cost allocation among the responsible buses for additional requirement of this support are also presented. Various tests to validate and verify the above mentioned methodologies were carried out.

Ancillary services

Power systems

Reactive power support

Reserva girante

Serviços ancilares

Sistemas elétricos de potência

Spinning reserve

Suporte de potência reativa

Valoração do fornecimento de serviços ancilares a partir de usinas hidroelétricas. / Ancillary services supply pricing from hydroelectric plants.

Thales Sousa

18 September 2006

O presente trabalho propõe o desenvolvimento de uma metodologia de valoração da reserva de potência ativa e do suporte de potência reativa a partir de plantas hidroelétricas. Inicialmente foi apresentado um histórico que descreveu o que foi definido e regulamentado sobre estes serviços em diferentes mercados de energia. Em seguida, com o objetivo de valorar o serviço de reserva de potência ativa foi realizada a mensuração da perda de eficiência, resultante do fornecimento deste serviço, que após convertida em MWh foi relacionada à perda de oportunidade, caso essa energia fosse comercializada no mercado de energia. Para a valoração do suporte de potência reativa foi utilizada a teoria de Fluxo de Potência Ótimo com objetivo de minimizar as perdas do sistema e relacionar essa minimização à redução do suporte de potência reativa. Em seguida, foi apresentada uma metodologia de valoração e alocação dos custos do suporte de potência reativa entre as barras responsáveis pela necessidade adicional deste suporte. Foram realizados vários testes para validação e verificação das metodologias propostas. / The present study proposes valuation methodologies for the spinning reserve and for the reactive power support regarding hydroelectric plants. Initially, a revision describing what was defined and regulated on these services in different energy markets is presented. In order to valuate the spinning reserve service, the measurement of efficiency losses stemming from this service supply was done. Thereafter, the efficiency losses were converted into MWh and related to the opportunity loss, in case this energy was commercialized in the energy market. As for the reactive power support valuation, the Optimal Power Flow was used. The objective was to minimize the system losses and relate such a minimization to the reactive power support. Subsequently, methodologies for the reactive power support costs and for the cost allocation among the responsible buses for additional requirement of this support are also presented. Various tests to validate and verify the above mentioned methodologies were carried out.

Reserva girante

Serviços ancilares

Sistemas elétricos de potência

Suporte de potência reativa

Ancillary services

Power systems

Reactive power support

Spinning reserve

[en] REACTIVE POWER SUPPORT COST ALLOCATION METHOD BASED ON CIRCUIT LAWS / [pt] MÉTODO DE ALOCAÇÃO DE CUSTOS DE SUPORTE DE POTÊNCIA REATIVA BASEADO EM LEIS DE CIRCUITOS

MARCELO DE MELO ARAUJO

06 September 2007

[pt] Com a implantação do novo modelo econômico nos sistemas de potência, a justa remuneração das empresas provedoras de serviços ancilares tem se tornado um assunto grande importância. O suporte de potência reativa, por se tratar também de um serviço ancilar, está inserido neste contexto. Desta forma, a factível identificação dos agentes beneficiários pelo suporte, bem como as proporções deste beneficiamento podem implicar em um mecanismo viável de remuneração para os custos de cada fonte provedora. Este trabalho apresenta um método de alocação de custos pelo suporte de potência reativa baseado nos princípios fundamentais da teoria de circuitos elétricos, buscando determinar a contribuição de potência reativa de cada fonte para cada barra de carga. Para isto, é sugerida uma modelagem de fontes de tensão, que permite levar em conta a natureza local da relação Q-V, proporcionando uma abordagem simples e clara do problema. Complementarmente é apresentado um método de alocação das perdas reativas em cada ramo de transmissão entre as fontes provedoras de potência reativa. Para validar o método proposto, são realizados testes em sistemas de potência de pequeno e médio porte, apresentado as parcelas de contribuição de cada fonte de potência reativa para cada carga, e adicionalmente para as perdas reativas em cada ramo de transmissão. Comparações são estabelecidas com um método existente, onde é constatado que o método proposto apresenta maior coerência com as propriedades elétricas dos sistemas de potência, destacando-se a verificação clara da natureza local do consumo de potência reativa. Em relação aos resultados da alocação de perdas reativas, verifica-se que o método serve como indicativo sobre o uso da rede de transmissão por parte de cada fonte de potência reativa. / [en] After implantation of power systems` new economic model, a fair remuneration strategy of ancillary services suppliers had became an important issue. Reactive power support is also an ancillary service, thus, it belongs to this context. Then, identification of service beneficiaries as well as the benefit proportions may take a feasible remuneration mechanism for each source. This work presents a reactive power support cost allocation method based on fundamental principles of circuit theory, where reactive power contribution from each source to each load is calculated. This method suggests a modeling of voltage sources, which takes into account the Q-V relationship, providing a simple and clear treatment of the problem. Additionally, a reactive loss allocation method to each branch is presented. To validate the proposed method, tests with small and medium size systems are realized. So, there are presented results of reactive power demand and transmission losses allocation into systems` sources. Comparisons with an existent method are established, when we can verify that the proposed method brings more coherence with the electrical properties of power systems and the local nature of reactive power consumption. In the other hand, results of reactive losses allocation can indicate the transmission network usage by each reactive power source.

[pt] SERVICOS ANCILARES

[en] ANCILLARY SERVICES

[pt] SUPORTE DE POTENCIA REATIVA

[en] REACTIVE POWER SUPPORT

[pt] ALOCACAO DE CUSTOS

[en] COST ALLOCATION

[pt] TEORIA DE CIRCUITOS

[en] CIRCUIT THEORY

[en] ACTUAL REACTIVE POWER CAPABILITY EVALUATION IN AN ELECTRICAL POWER PLANT / [pt] AVALIAÇÃO DA CAPACIDADE REAL DE GERAÇÃO DE POTÊNCIA REATIVA EM UMA USINA DE GERAÇÃO DE ENERGIA ELÉTRICA

FRANCISCO CARLOS SANTANNA DA SILVA

26 March 2002

[pt] As curvas de capacidade de geração de potência reativa fornecidas pelos fabricantes são elaboradas em função dos parâmetros de projeto do gerador, e geralmente não consideram as condições de operação da planta e do sistema como fatores limitantes. É sabido que as condições de operação da planta, tais como tensões nominais do terminal do gerador e das barras auxiliares, valores limites dos reguladores de tensão, potência máxima da turbina e dispositivos de limitação e proteção de sub e sobreexcitação podem ser fatores limitantes da capacidade de geração e absorção de potência reativa. Neste trabalho foi elaborado um método e desenvolvida uma ferramenta computacional para identificar a curva de capacidade real de geração de potência reativa para qualquer ponto de operação. Este trabalho pode ser estendido para qualquer gerador, conhecidas as características da usina. Nos estudos de caso apresentados pôde-se verificar que é possível ampliar a capacidade de geração reativa da usina apenas conhecendo seus reais limites, não necessitando portanto, de grandes investimentos para o aumento dessa capacidade. / [en] They show that different generator loads produce greater heating in different parts of generator. A method is described and a software is presented to evaluate the actual reactive power capability curve considering the operating condition.This paper shows that it is possible to enlarge the reactive power capability only by knowing the actual capability limitations, without raising costs and keeping operation safe.It is important to the generator agent to know its capabilities if it is desidered to provide reactive support as an ancillary service in the new competitive environment.

[pt] SUPORTE DE POTENCIA REATIVA

[en] REACTIVE POWER SUPPORT

[pt] CONTROLE DE TENSAO

[en] VOLTAGE CONTROL

[pt] LIMITE DE CAPACIDADE REAL

[en] REACTIVE POWER RESOURCES

[pt] DISPONIBILIDADE DE POTENCIA REATIVA

[en] ACTUAL CAPABILITY LIMITATIONS

[en] PRICING THE ANCILLARY SERVICES OF REACTIVE POWER SUPPLY AND GENERATION RESERVE WHEN PROVIDED BY GENERATORS / [pt] REMUNERAÇÃO DOS SERVIÇOS ANCILARES DE SUPORTE DE POTÊNCIA REATIVA E RESERVA DE POTÊNCIA QUANDO PROVIDOS POR GERADORES

PABLO MOTTA RIBEIRO

04 August 2005

[pt] Este trabalho apresenta metodologias para definir a remuneração dos geradores que provêem serviços ancilares em função do benefício proporcionado ao sistema. São analisados os serviços ancilares de suporte de potência reativa e reserva de potência. Para o serviço ancilar de suporte de potência reativa, o valor do benefício proporcionado pelos geradores é obtido por meio do custo evitado de alocação de novas fontes de potência reativa. Já para o serviço ancilar de reserva de potência, o benefício é calculado a partir da redução observada no valor esperado de energia não suprida, multiplicada pelo custo unitário de interrupção do sistema de potência. O valor de benefício proporcionado por cada serviço ancilar é determinado por meio de um algoritmo de pontos interiores em um problema de fluxo de potência ótimo. A remuneração que cabe a cada gerador é definida por meio do emprego do método de repartição de custos de Aumann-Shapley, oriundo da Teoria dos Jogos Cooperativos. A aplicação deste método garante que a repartição do benefício entre os geradores seja realizada de forma justa e eficiente. As metodologias propostas para são ilustradas em dois sistemas de potência distintos: o sistema IEEE-RTS e o sistema Sul-Sudeste Brasileiro. Os resultados obtidos são discutidos e a eficácia da metodologia é analisada. / [en] This work presents methodologies to define the remuneration of the generators that provide ancillary services to the power system as a function of the benefit provided to the system. In this work the ancillary services considered are the reactive power supply and the generation reserve. To the ancillary service of reactive power supply, the benefit provided by the generators is calculated by the avoided cost of new reactive power sources. The benefit provided by the ancillary service of generation reserve is calculated as the reduction on the expected energy not supplied, multiplied by the interruption cost of the power system. An optimum power flow is used to determine the benefit provided by each ancillary service. The remuneration of each generator is defined through the cost allocation method of Aumann-Shapley, which belongs to the Cooperative Game Theory. The Aumann-Shapley method guarantees that the payment partition among the generators is fair and efficient. The proposed methodology is applied to the IEEE-RTS power system and the Brazilian South-Southwest power system. The numerical results are discussed and the efficiency of the methodology is analyzed.

[pt] SERVICOS ANCILARES

[en] ANCILLARY SERVICES

[pt] SUPORTE DE POTENCIA REATIVA

[en] REACTIVE POWER SUPPORT

[pt] FLUXO DE POTENCIA OTIMO

[en] OPTIMAL POWER FLOW

[pt] RESERVA DE POTENCIA

[en] GENERATION RESERVE

[pt] CONFIABILIDADE COMPOSTA

[en] COMPOSITE RELIABILITY

Reactive Power Planning And Operation of Power Systems with Wind Farms for Voltage Stability Improvement

Moger, Tukaram

January 2015

In recent years, the electric power industry around the world is changing continuously due to transformation from regulated market structure to deregulated market structure. The main aim of the transformation of electric supply industry under open access environment is to overcome the some of the limitations faced by the vertically integrated system. It is believed that this transformation will bring in new technologies, integration of other sources of energy such as wind, solar, fuel cells, bio-gas, etc., which are self sustainable and competitive, and better choice for the consumers and so on. As a result, several new issues and challenges have emerged. One of the main issues in power systems is to support reactive power for maintaining the system voltage profile with an acceptable margin of security and reliability required for system operation. In this context, the thesis addresses some of the problems related to planning and operation of reactive power in power systems. Studies are mainly focused on steady state operation of grid systems, grid connected wind farms and distribution systems as well. The reactive power support and loss allocation using Y-bus approach is proposed. It computes the reactive power contribution from various reactive sources to meet the reactive load demand and losses. Further, the allocation of reactive power loss to load or sink buses is also computed. Detailed case studies are carried out on 11-bus equivalent system of Indian southern region power grid under different loading conditions and also tested on 259-bus equivalent system of Indian western region power grid. A comparative analysis is also carried out with the proportional sharing principle and one of the circuit based approach in the literature to highlight the features of the proposed approach. A new reactive power loss index is proposed for identification of weak buses in the system. The new index is computed from the proposed Y-bus approach for the system under intact condition as well as some severe contingencies cases. Fuzzy logic approach is used to select the important and severe line contingencies from the contingency list. The validation of weak load buses identification from the proposed reactive power loss index with that from other well known existing methods in the literature such as Q-V sensitivity based modal analysis and continuation power flow method is carried out to demonstrate the effectiveness of the proposed index. Then, a short-term reactive power procurement/optimal reactive power dispatch analysis is also carried out to determine the optimum size of the reactive compensation devices to be placed at the weak buses for reactive compensation performance analysis in the system. The proposed approach is illustrated on a sample 5-bus system, and tested on sample 10-bus equivalent system and 72-bus equivalent system of Indian southern region power grid. A comprehensive power flow analysis of PQ type models for wind turbine generating units is presented. The different PQ type models of fixed/semi-variable speed wind turbine generating units are considered for the studies. In addition, the variable speed wind turbine generating units are considered in fixed power factor mode of operation. Based on these models, a comparative analysis is carried out to assess the impact of wind generation on distribution and transmission systems. 27-bus equivalent distribution test system, 93-bus equivalent test system and SR 297-bus equivalent grid connected wind system are considered for the studies. Lastly, reactive power coordination for voltage stability improvement in grid connected wind farms with different types of wind turbine generating units based on fuzzy logic approach is presented. In the proposed approach, the load bus voltage deviation is minimized by changing the reactive power controllers according to their sensitivity using fuzzy set theory. The fixed/semi-variable speed wind turbine generating units are also considered in the studies because of its impact on overall system voltage performance even though they do not support the system for voltage unlike variable speed wind generators. 297-bus equivalent and 417-bus equivalent grid connected wind systems are considered to present the simulation results. A comparative analysis is also carried out with the conventional linear programming based reactive power optimization technique to highlight the features of the proposed approach.

Reactive Power

Wind Power

Wind Farms

Grid Connected Wind Farms

Distributed Power Generation

Power System Stability

Reactive Power Planning

Voltage Stability Analysis

Reactive Power Support

Power Flow Analysis

Power Loss Allocation

Wind Generator Unit

Wind Turbine Generating Unit

Electrical Engineering