Study of Applying UPFC To Power System Optimal Congestion Management

Hung, Wen-cha

30 June 2004

Congestion is always a serious problem in power system. In order to solve the kind of thorny problem, experts employ various methods for relieving congested difficulties. There are many new power-electronics-based devices using to solve the difficult problems recently. Unified Power Flow Controller (UPFC) is the most powerful device of these devices. The UPFC is capable of providing not only active and reactive control but also adaptive voltage amplitude control. By way of UPFC, power flow in power system is changed. Congestion problems are solved easily. A new model is proposed in this thesis to improve existing power-based model by using the Norton Equivalent Theorem. The proposed model can be integrated with the Equivalent Current Injection (ECI) power flow model easily. By ECI algorithm, it is much quickly and precisely to implement power flow calculations. By making use of Genetic algorithm (GA), the optimal location of UPFC in power system will be obtained. In the solution process, GA will be integrated with the nonlinear interior point OPF to select the optimal control parameters and UPFC sitting to solve congestion problems. Tests under MATLAB (The Math Works, Inc.) will be used to show the effectiveness of the proposed algorithms in solving a modified OPF problem for real congestion control under deregulation.

UPFC

OPF

Study of the UPFC Model Based on the Current-Injection Concept

Wang, Mu-Chi

28 June 2002

The unified power controller (UPFC) is, the most comprehensive device emanated so far from the FACTS (Flexible AC Transmission Systems) initiative. Installation of UPFC to control power flow has become an emerging topic in today¡¦s power industry, especially the deregulated market. By the use of UPFC, a high-speed and low-cost power electronic device, the line flows can be controlled in such a way that thermal limits are kept, losses minimized, stability increased, and contractual requirements fulfilled without violating the economic generation dispatch. To coupe with control signals to attain various control capabilities, it can be used to control both the active and reactive powers and voltage magnitudes altogether. This thesis aims to study static UPFC models for power flow calculations. Basic operation of UPFC will be briefly reviewed. A new UPFC current-based model is proposed in this paper to improve existing power-based model by using the Norton Equivalent Theorem. The proposed model can be integrated with the ECI power flow model easily. The equivalent relationships between the new model and the traditional model will also be investigated. And the proposed current-based UPFC model will provide better convergent characteristics. The Evolutionary Programming (EP) method was also proposed in this research to solve the UPFC control parameters to attain a global optimum. EP is an artificial intelligence process including reproduction, mutation, competition, and selection. Being a stochastic method, EP can avoid the local convergence problem and provide a better opportunity to reach the global or near global optimum. Using the test cases of 5-bus and Taipower systems, the test results proves that the new UPFC new model can successfully control active power and reactive power, and voltage magnitudes simultaneously with an effective process and a feasible solution.

FACTS

UPFC

ECI

EP

Investigation of small signal dynamic performance of IPFC and UPFC devices embedded in AC networks

Jiang, Shan

20 January 2011

This thesis proposes the small signal model for the Interline Power Flow Controller (IPFC). Using this model, the damping performance of the IPFC with different power system configuration is investigated and also compared with the AC Transmission System (FACTS) based controllers such as the Unified Power Flow Controller (UPFC). The IPFC and the UPFC in constant power control mode can be viewed as effectively cutting the connected transmission line. This change on the structure of the network results in a significant change on the small signal stability. This thesis also addresses issues regarding the different levels of models that are required for the investigation of the behavior of FACTS. An effective validation approach that uses a minimum sized demonstration platform is proposed. This platform is small enough for detailed EMTP validation, yet large enough to exhibit the range of transient electrical and electromechanical behavior which is the focus for FACTS devices. To demonstrate the approach, the small signal models of the system embedded with the IPFC and the UPFC are developed respectively. The results obtained from small signal analysis are validated with EMTP-type simulation and show a close agreement.

small signal analysis

EMTP

UPFC

IPFC

Investigation of small signal dynamic performance of IPFC and UPFC devices embedded in AC networks

Jiang, Shan

20 January 2011

This thesis proposes the small signal model for the Interline Power Flow Controller (IPFC). Using this model, the damping performance of the IPFC with different power system configuration is investigated and also compared with the AC Transmission System (FACTS) based controllers such as the Unified Power Flow Controller (UPFC). The IPFC and the UPFC in constant power control mode can be viewed as effectively cutting the connected transmission line. This change on the structure of the network results in a significant change on the small signal stability. This thesis also addresses issues regarding the different levels of models that are required for the investigation of the behavior of FACTS. An effective validation approach that uses a minimum sized demonstration platform is proposed. This platform is small enough for detailed EMTP validation, yet large enough to exhibit the range of transient electrical and electromechanical behavior which is the focus for FACTS devices. To demonstrate the approach, the small signal models of the system embedded with the IPFC and the UPFC are developed respectively. The results obtained from small signal analysis are validated with EMTP-type simulation and show a close agreement.

small signal analysis

EMTP

UPFC

IPFC

Hierarchical Fuzzy Control of the UPFC and SVC located in AEP's Inez Area

Maram, Satish

09 June 2003

To reinforce its Inez network, which was operated close to its stability limits, American Electric Power (AEP) undertook two major developments, one being the installation of a Static Var Compensator (SVC) in November, 1980 and the other one being the installation of the world's first Unified Power Flow Controller (UPFC) in 1998. The controllers in the system include the Automatic Voltage Regulators (AVRs) of the generators, the controllers of the SVC, and UPFC. To coordinate the control actions of these controllers and prevent voltage instability resulting from their fighting against each other, a two level hierarchical control scheme using fuzzy logic has been developed and its performance was assessed via simulations. The second level of the hierarchy determines the set points of the local controllers of the AVRs, SVC, and UPFC and defines the switching sequences of the capacitor banks, the goal being to maximize the reactive reserve margins of the Inez subsystem. Numerous simulations were carried out on this system to determine the actions of the fuzzy controller required to prevent the occurrence of voltage collapse under double contingency. Simulations have revealed the occurrence of nonlinear interactions between the machines resulting in stable limit cycles, nonlinear oscillations undergoing period doubling leading to chaos and possible voltage collapse. The proposed fuzzy scheme provides a fast, simple and effective way to stretch the stability limit of the system for double contingency conditions, up to 175 MW in some cases. This is a significant increase in the system capacity. / Master of Science

Fuzzy control

Hierarchical control

Voltage Stability

UPFC

SVC

Estudo da estabilidade a pequenas perturbações de sistemas elétricos de potência multimáquinas sob a ação dos controladores FACTS TCSC e UPFC

Furini, Marcos Amorielle [UNESP]

25 January 2008

Made available in DSpace on 2014-06-11T19:22:35Z (GMT). No. of bitstreams: 0 Previous issue date: 2008-01-25Bitstream added on 2014-06-13T20:09:50Z : No. of bitstreams: 1 furini_ma_me_ilha.pdf: 1020610 bytes, checksum: d3a4a2f6ec4cb8559c7d3d6b770ec955 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / O objetivo desta Dissertação de Mestrado é apresentar a possibilidade de fornecer amortecimento às oscilações de baixa freqüência do sistema elétrico de potência através dos dispositivos FACTS (Flexible Alternating Current Transmission System) TCSC (Thyristor Controlled Series Capacitor) e UPFC (Unified Power Flow Controller). Para isso realiza-se o desenvolvimento e implementação do Modelo de Sensibilidade de Potência para sistemas multmáquinas. Na seqüência são introduzidos os dispositivos TCSC e UPFC, bem como os seus controladores. Apresentam-se resultados de acordo com a evolução dos modelos que representam os dispositivos FACTS, ou seja, parte-se de uma compensação fixa, passando para um modelo dinâmico de primeira ordem e por fim, é incluído o controlador POD (Power Oscillation Damping). A utilização de sinais locais e remotos para entrada do controlador POD também é analisada. Além disso são mostrados os resultados obtidos pela técnica clássica de introdução de amortecimento através de sinais suplementares (os estabilizadores de sistemas de potência – PSS: Power System Stabilizers). O projeto dos controladores POD e PSS é baseado no método da compensação de fase, utilizando a teoria de controle clássico. Fatores de participação, autovetores, autovalores e resíduos de funções de transferência são utilizados como índices para examinar a melhor alocação dos controladores POD e PSS no sistema elétrico de potência. / The objective of this work is to present the possibility to provide damping to low frequencies oscillations of the electrical power systems by FACTS devices (Flexible Alternating Current Transmission System): TCSC (Thyristor Controlled Series Capacitor) and UPFC (Unified Power Flow Controller). This is developed and implemented using the Power Sensitivity Model for multimachine systems. Afterwards, the TCSC and UPFC devices are introduced as well as the controllers. Results are presented according to the evolution of the models that represent the FACTS devices, i.e., it starts with a fixed compensation, passing through a first order dynamic model and finally, it is included a POD controller (Power Oscillation Damping). It is also analyzed the inclusion of local and remote signals for the input of the POD controller. Besides, results obtained by classical techniques of introducing damping by supplementary signals (Power Systems Stabilizer – PSS) are shown. The project of POD and PSS controllers are based on the Phase Compensation Method using the classical control theory. Participation Factor like eigenvalues, eigenvectors and transfer function residues are used as index to examine the best allocation of the POD and PSS controllers on the electrical power systems.

Estabilidade dinâmica

TCSC

UPFC

Electric power systems

Small signal stability

Electromechanical oscillations

TCSC

UPFC

Power oscillation damping

Otimização de fluxo de potência em redes elétricas com o UPFC. / Optimization of the power flow at electrical networks with the UPFC.

Pereira, Marcos

24 October 2008

Neste trabalho abordamos o equipamento UPFC, pertencente à família FACTS, adequado ao estudo do regime permanente de sistemas de potência, sendo descritos modelos com diferentes níveis de detalhamento, assim como sua associação com a rede elétrica. Uma proposição alternativa para o modelamento do UPFC foi apresentada, sendo discutidos seus aspectos e particularidades por meio da análise nodal modificada (ANM), cujo tratamento permite obter a corrente nos conversores série de maneira direta. Desenvolvemos um programa de otimização de fluxo de potência, utilizando o método dos pontos interiores, sendo também elaborado um programa de otimização baseado no método Quase-Newton, permitindo uma análise comparativa de métodos e de modelos. Várias condições operativas de uma rede de pequeno porte, com apenas quatro barras e de uma rede de médio porte, com 39 barras, foram estudadas do ponto de vista de otimização e de limites de tensões e fluxos, observando-se a influência do UPFC no controle de variáveis da rede elétrica. / In this work we deal with the UPFC device which belongs to the FACTS family and is suitable to study the steady state of power systems. We describe models with different levels of detail, as well as their association with the electric network. One alternative proposition to the model of the UPFC is shown. The aspects and particularities are discussed by means of modified nodal analysis (ANM), which treatment allows us to get directly the current in series converters. We developed an optimization program of load flow, using the interior points method, and also worked out an optimization program based on the Quasi-Newton method, allowing a comparative analysis of methods and models. Several operating conditions of a small size network, with only 4 bars and of a medium size network, with 39 bars, were studied from the point of view of the optimization and of the voltage and of the flow limits, observing the influence of the UPFC on control of variables of the electric network.

FACTS

Interior points method

Optimal power flow

Transmissão de energia elétrica

UPFC

Otimização de fluxo de potência em redes elétricas com o UPFC. / Optimization of the power flow at electrical networks with the UPFC.

Marcos Pereira

24 October 2008

Neste trabalho abordamos o equipamento UPFC, pertencente à família FACTS, adequado ao estudo do regime permanente de sistemas de potência, sendo descritos modelos com diferentes níveis de detalhamento, assim como sua associação com a rede elétrica. Uma proposição alternativa para o modelamento do UPFC foi apresentada, sendo discutidos seus aspectos e particularidades por meio da análise nodal modificada (ANM), cujo tratamento permite obter a corrente nos conversores série de maneira direta. Desenvolvemos um programa de otimização de fluxo de potência, utilizando o método dos pontos interiores, sendo também elaborado um programa de otimização baseado no método Quase-Newton, permitindo uma análise comparativa de métodos e de modelos. Várias condições operativas de uma rede de pequeno porte, com apenas quatro barras e de uma rede de médio porte, com 39 barras, foram estudadas do ponto de vista de otimização e de limites de tensões e fluxos, observando-se a influência do UPFC no controle de variáveis da rede elétrica. / In this work we deal with the UPFC device which belongs to the FACTS family and is suitable to study the steady state of power systems. We describe models with different levels of detail, as well as their association with the electric network. One alternative proposition to the model of the UPFC is shown. The aspects and particularities are discussed by means of modified nodal analysis (ANM), which treatment allows us to get directly the current in series converters. We developed an optimization program of load flow, using the interior points method, and also worked out an optimization program based on the Quasi-Newton method, allowing a comparative analysis of methods and models. Several operating conditions of a small size network, with only 4 bars and of a medium size network, with 39 bars, were studied from the point of view of the optimization and of the voltage and of the flow limits, observing the influence of the UPFC on control of variables of the electric network.

Transmissão de energia elétrica

FACTS

Interior points method

Optimal power flow

UPFC

Control Lyapunov Functions : A Control Strategy for Damping of Power Oscillations in Large Power Systems

Ghandhari, Mehrdad

January 2000

In the present climate of deregulation and privatisation, theutilities are often separated into generation, transmission anddistribution companies so as to help promote economic efficiencyand encourage competition. Also, environmental concerns,right-of-way and cost problems have delayed the construction ofboth generation facilities and new transmission lines while thedemand for electric power has continued to grow, which must bemet by increased loading of available lines. A consequence isthat power system damping is often reduced which leads to a poordamping of electromechanical power oscillations and/or impairmentof transient stability. The aim of this thesis is to examine theability of Controllable Series Devices (CSDs), such as Unified Power Flow Controller (UPFC)   Controllable Series Capacitor (CSC)   Quadrature Boosting Transformer (QBT)   for improving transient stability and damping ofelectromechanical oscillations in a power system. For these devices, a general model is used in power systemanalysis. This model is referred to as injection model which isvalid for load flow and angle stability analysis. The model isalso helpful for understanding the impact of the CSDs on powersystem stability. A control strategy for damping of electromechanical poweroscillations is also derived based on Lyapunov theory. Lyapunovtheory deals with dynamical systems without input. For thisreason, it has traditionally been applied only to closed-loopcontrol systems, that is, systems for which the input has beeneliminated through the substitution of a predetermined feedbackcontrol. However, in this thesis, Lyapunov function candidatesare used in feedback design itself by making the Lyapunovderivative negative when choosing the control. This controlstrategy is called Control Lyapunov Function (CLF) for systemswith control input. / QC 20100609

UPFC

CSC

QBT

Lyapunov function

Control Lyapunov Function

SIME

Sliding mode

Electric power engineering

Elkraftteknik

Aplicação do controlador UPFC para o amortecimento de oscilações eletromecanicas em sistemas eletricos de potencia / Application of UPFC controller for damping electromechanical oscillations in electric power systems

Ayres, Hugo Murici

12 July 2005

Orientador: Vivaldo Fernando da Costa / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Eletrica e de Computação / Made available in DSpace on 2018-08-06T02:46:18Z (GMT). No. of bitstreams: 1 Ayres_HugoMurici_M.pdf: 1495982 bytes, checksum: e8c830648b4338fd4c90f9c0921c63d5 (MD5) Previous issue date: 2005 / Resumo: Essa dissertação apresenta um estudo que avalia a e?ciência do controlador UPFC (Uni?ed Power Flow Controller) para o amortecimento de oscilações eletromecânicas sob condições de pequenas e grandes perturbações.Um modelo de injeção de potência utilizado para representar o UPFC é implementado no Modelo de Sensibilidade de Potência (MSP). As análises no domínio do tempo são realizadas com o programa PSAT (Power System Analysis Toolbox), no qual também são implementados os modelos do UPFC e do controlador POD (Power Oscillation Damping).Diversos controladores POD são projetados para a modulação de diferentes parâmetros do UPFC. A análise da estabilidade e o projeto dos estabilizadores são baseados em técnicas de resposta em freqüência e no tempo, assim como na técnica de análise modal. Os resultados obtidos revelam que o UPFC possui um grande potencial para a manutenção da estabilidade de ângulo de sistemas de potência quando equipado com controladores POD / Abstract: This dissertation presents a study assessing the effectiveness of the Unified Power Flow Controller (UPFC) for damping electromechanical oscillation under small-signal and large disturbances. A UPFC power injection model is implemented in the Power Sensitivity Model (PSM). The time domain analysis is carried out with the Power System Analysis Toolbox (PSAT) considering the UPFC and the POD controller models implemented. A number of Power Oscillation Damping (POD) controllers are designed in order to modulate different parameters of the UPFC. The stability analysis and the design of POD controllers are based on time and frequency response techniques. Modal analysis technique is also utilized. Results obtained reveal that the UPFC has a great potential to maintain the power system angle stability when it is equipped with POD controller / Mestrado / Energia Eletrica / Mestre em Engenharia Elétrica

Sistemas de energia elétrica

Estabilidade

Angle stability

Electromechanical oscillations

POD

PSM

PSAT

UPFC