Design of Power Exchange and Bidding System With ASP Technique

Huang, Cong-Hui

16 June 2003

With the deregulation of power industry and the market competition, low cost, reliable power supply, and secured system operations are major concerns of the advanced deregulation markets. It is a natural extension to revise the objectives of the traditional optimal power flow (OPF) to help dispatch the power. Maximizing social welfare to create more values of the market is becoming an interesting topic. In the deregulation environment, a user-friendly mechanism is desirable to form an auction market information framework (AMIF) for power auction and market operation. This thesis proposed a prototype system to combine internet based technology, database system, and the auction market to construct an information framework of power auction market. The Internet technology used Dynamic HTML (DHTML) in WWW website to develop a convenient bidding environment for users. The database based on MS Access used open database connection (ODBC) technology to connect database and internet. The auction market integrates auction functions and re-designed OPF to support the auction mechanism and congestion management. This research could also provide a solid foundation for Taiwan¡¦s power system deregulation in the future. The proposed mechanism and its expansion could guarantee a smooth migration process and successful market/system operation.

Congestion

Social Welfare

Optimal Power Flow

Spinning Reserve

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

Study of an Alternative Dispatch Planning for the Salvadorian Electrical Market Based on Generators Outage Risk and Optimum AGC-Performance

Adonay, Francisco

29 June 2009

A proposal for the spinning reserve assessment and allocation for El Salvador¡¦s Deregulated Electricity Market is formulated. Traditionally, the Independent System Operator calculates the spinning reserve as percentage of the forecast demand. And Automatic Generation Control (AGC) is allocated based on the partition factor. The reserve calculation neither reflects consistency achieving its main objective, reliability, nor is optimum performance control reached by the allocating mechanism. In the proposed method, the spinning reserve is estimated taking into account the generators outage ratio and AGC is allocated based on the North American Electric Reliability Corporation¡¦s Control Performance Standard-1. The allocation problem is solved with an improved Particle Swarm Optimization algorithm with a technique to modify the inertial factor on each iteration. The proposed method exhibits better results and it matches the Salvadorian technical requirements and market characteristics.

Particle Swarm Optimization

Spinning Reserve

Salvadorian Electrical Market

Outage Replacement Risk

Power System Operation

CPS1

Automatic Generation Control

Aplicação da técnica de decomposição de Benders para cálculo da reserva girante considerando a curva de capabilidade dos geradores

Aleixo, Marcelo de Souza

29 June 2018

Submitted by Renata Lopes (renatasil82@gmail.com) on 2018-11-06T17:02:42Z No. of bitstreams: 1 marcelodesouzaaleixo.pdf: 2786878 bytes, checksum: dfbd57d9b8be2153917fe637209df9f0 (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2018-11-23T13:19:16Z (GMT) No. of bitstreams: 1 marcelodesouzaaleixo.pdf: 2786878 bytes, checksum: dfbd57d9b8be2153917fe637209df9f0 (MD5) / Made available in DSpace on 2018-11-23T13:19:16Z (GMT). No. of bitstreams: 1 marcelodesouzaaleixo.pdf: 2786878 bytes, checksum: dfbd57d9b8be2153917fe637209df9f0 (MD5) Previous issue date: 2018-06-29 / Este trabalho apresenta uma metodologia para cálculo da reserva girante do sistema elétrico de potência. A proposta inclui a curva de capabilidade dos geradores bem como cenários de carga e de geração eólica bem como falhas no sistema de geração e transmissão. O fluxo de potência ótimo é utilizado para determinar as condições iniciais do sistema, caso base. A partir daí o problema é resolvido de forma interativa entre dois estágios em umaestruturamestreeescravo: Oproblemamestreutilizaprogramaçãolinearinteirapara determinar o número mínimo de unidades de geração disponíveis (ligadas); O problema escravo verifica se o número de unidades ligadas é suficiente para operação do sistema. Este problema corresponde ao Fluxo de Potência Ótimo com o objetivo de obter o mínimo corte de carga para cada condição operativa. O corte de Benders é produzido para cada cenário, altenativamente, será investigado a utilização da média dos cortes de Benders. O processo termina quando não ocorrer corte de carga. A metodologia é testada utilizando um sistema teste de 4 barras como exemplo tutorial e também aplicada nos sistemas IEEE 14, 39 e 118 barras. / This work presents a methodology for calculating the spinning reserve of the electric power system. The proposal includes the capability curve of the generators as well as errors of prediction of load, wind generation, failures in the system of generation and transmission. The optimal power flow is used to determine the initial conditions of the system, base case. From this point the problem is solved interactively between two stages in a master and slave structure: The first uses integer linear programming to determine the minimum number of available (turn on) generation units; The second corresponds to the Optimum Power Flow with the purpose of obtaining the minimum load shedding for each operative condition. The cut of Benders is produced for each scenario, alternatively, the use of the average of cuts will be investigated. The process ends when there is no load shedding. The methodology is tested using a 4-bar test system as a tutorial example and also applied in IEEE systems 14, 39 and 118 bars.

CNPQ::ENGENHARIAS

Decomposição de Benders

Curva de capabilidade

Reserva girante

Cenários operativos

Benders decomposition

Capability generation curve

Spinning reserve

Operating scenarios

Efficient Simulation Methods of Large Power Systems with High Penetration of Renewable Energy Resources : Theory and Applications

Shayesteh, Ebrahim

January 2015

Electrical energy is one of the most common forms of energy these days. Consequently, electric power system is an indispensable part of any society. However, due to the deregulation of electricity markets and the growth in the share of power generation by uncontrollable renewable energies such as wind and solar, power system simulations are more challenging than earlier. Thus, new techniques for simplifying these simulations are needed. One important example of such simplification techniques is the power system reduction. Power system reduction can be used at least for four different purposes: a) Simplifying the power system simulations, b) Reducing the computational complexity, c) Compensating the data unavailability, and d) Reducing the existing uncertainty. Due to such reasons, power system reduction is an important and necessary subject, but a challenging task to do. Power system reduction is even more essential when system operators are facing very large-scale power systems and when the renewable energy resources like hydro, wind, and solar have a high share in power generation. This thesis focuses on the topic of large-scale power system reduction with high penetration of renewable energy resources and tries to pursue the following goals: • The thesis first reviews the different methods which can be used for simplifying the power system studies, including the power system reduction. A comparison among three important simplification techniques is also performed to reveal which simplification results in less error and more simulation time decrement. • Secondly, different steps and methods for power system reduction, including network aggregation and generation aggregation, are introduced, described and discussed. • Some improvements regarding the subject of power system reduction, i.e. on both network aggregation and generation aggregation, are developed. • Finally, power system reduction is applied to some power system problems and the results of these applications are evaluated. A general conclusion is that using power system simplification techniques and specially the system reduction can provides many important advantages in studying large-scale power systems with high share of renewable energy generations. In most of applications, not only the power system reduction highly reduces the complexity of the power system study under consideration, but it also results in small errors. Therefore, it can be used as an efficient method for dealing with current bulk power systems with huge amounts of renewable and distributed generations. / <p>The Doctoral Degrees issued upon completion of the programme are issued by Comillas Pontifical University, Delft University of Technology and KTH Royal Institute of Technology. The invested degrees are official in Spain, the Netherlands and Sweden, respectively. QC 20150116</p>

Power system simplification

power system reduction

power system aggregation

power system equivalencing

renewable energy resources

wind power modelling

storage allocation problem

spinning reserve determination

multi-area power system analyses

power system operation and planning

electricity market analysis.

[en] OPERATING RESERVE ASSESSMENT IN MULTI-AREA SYSTEMS WITH RENEWABLE SOURCES VIA CROSS ENTROPY METHOD / [pt] PLANEJAMENTO DA RESERVA OPERATIVA EM SISTEMAS MULTIÁREA COM FONTES RENOVÁVEIS VIA MÉTODO DA ENTROPIA CRUZADA

JOSÉ FILHO DA COSTA CASTRO

11 January 2019

[pt] A reserva girante é a parcela da reserva operativa provida por geradores sincronizados, e interligados à rede de transmissão, aptos a suprir a demanda na ocorrência de falhas de unidades de geração, erros na previsão da demanda, variações de capacidade de fontes renováveis ou qualquer outro fator inesperado. Dada sua característica estocástica, essa parcela da reserva operativa é mais adequadamente avaliada por meio de métodos capazes de representar as incertezas inerentes ao seu dimensionamento e planejamento. Por meio do risco de corte de carga é possível comparar e classificar distintas configurações do sistema elétrico, garantindo a não violação dos requisitos de confiabilidade. Sistemas com elevada penetração de fontes renováveis apresentam comportamento mais complexo devido ao aumento das incertezas envolvidas, à forte dependência de fatores energético-climáticos e às variações de capacidade destas fontes. Para avaliar as correlações temporais e representar a cronologia de ocorrência dos eventos no curto-prazo, um estimador baseado na Simulação Monte Carlo Quase Sequencial é apresentado. Nos estudos de planejamento da operação de curto-prazo o horizonte em análise é de minutos a algumas horas. Nestes casos, a ocorrência de falhas em equipamentos pode apresentar baixa probabilidade e contingências que causam corte de carga podem ser raras. Considerando a raridade destes eventos, as avaliações de risco são baseadas em técnicas de amostragem por importância. Os parâmetros de simulação são obtidos por um processo numérico adaptativo de otimização estocástica, utilizando os conceitos de Entropia Cruzada. Este trabalho apresenta uma metodologia de avaliação dos montantes de reserva girante em sistemas com participação de fontes renováveis, em uma abordagem multiárea. O risco de perda de carga é estimado considerando falhas nos sistemas de geração e transmissão, observando as restrições de transporte e os limites de intercâmbio de potência entre as diversas áreas elétricas. / [en] The spinning reserve is the portion of the operational reserve provided by synchronized generators and connected to the transmission network, capable of supplying the demand considering generating unit failures, errors in load forecasting, capacity intermittency of renewable sources or any other unexpected factor. Given its stochastic characteristic, this portion of the operating reserve is more adequately evaluated through methods capable of modeling the uncertainties inherent in its design and planning. Based on the loss of load risk, it is possible to compare different configurations of the electrical system, ensuring the non-violation of reliability requirements. Systems with high penetration of renewable sources present a more complex behavior due to the number of uncertainties involved, strong dependence of energy-climatic factors and variations in the capacity of these sources. In order to evaluate the temporal correlations and to represent the chronology of occurrence of events in the short term, an estimator based on quasi-sequential Monte Carlo simulation is presented. In short-term operation planning studies, the horizon under analysis is from minutes to a few hours. In these cases, the occurrence of equipment failures may present low probability and contingencies that cause load shedding may be rare. Considering the rarity of these events, risk assessments are based on importance sampling techniques. The simulation parameters are obtained by an adaptive numerical process of stochastic optimization, using the concept of Cross Entropy. This thesis presents a methodology for evaluating the amounts of spinning reserve in systems with high penetration of renewable sources, in a multi-area approach. The risk of loss of load is estimated considering failures in the generation and transmission systems, observing the network restrictions and the power exchange limits between the different electric areas.

[en] RELIABILITY OF POWER SYSTEMS

[pt] RESERVA GIRANTE

[en] SPINNING RESERVE

[pt] RESERVA OPERATIVA

[en] OPERATING RESERVE

[pt] RISCO DE CORTE DE CARGA

[en] LOSS OF LOAD RISK

[en] MONTE CARLO SIMULATION

[pt] METODO DA ENTROPIA CRUZADA

[en] CROSS-ENTROPY METHOD

[pt] PLANEJAMENTO DA OPERACAO

[en] OPERATION PLANNING