A Study of Target Frequency Bond for Frequency Control Performance Score Calculations in an Isolated System

Lee, Hung-hsi

06 September 2010

Power system frequency is one of the key performance indices of system operation. Abnormal frequency deviations would incur negative impacts to power equipments and service quality. Thus, it is important to operate and regulate the system frequency within an acceptable range. North American Electric Reliability Corporation (NERC) has been using a Control Performance Standard (CPS) for frequency control performance assessment since 1997 which uses system frequency and inter--area power flow to evaluate the power system control performance. This thesis presents a design of CPS for isolated system and the results of Taiwan Power Company frequency control performance based on the proposed CPS1 formulation.

Load Frequency Control

Control Performance Standard

Automatic Generation Control

The economic analysis of relaxing frequency control

Chown, Graeme Andrew

12 August 2008

Abstract will not load on to DSpace

ancillary services

automatic generation control

balancing market

economic benefits

Frequency control ancillary services in large interconnected systems

Diouf, Edmond

January 2013

This research focuses on frequency control ancillary services in large interconnected systems. It analyses and assesses possible alternatives for optimal and innovative solutions of major frequency control issues in large interconnected systems within liberalised electricity markets. Possible improvements in the performance of frequency control are identified. A framework of frequency control ancillary services in large interconnected systems by including loads and wind generation is also proposed.The research has been motivated by the paucity of research in power system dynamics focusing on large interconnected systems such as the European synchronous system and the Eastern interconnection which experience important frequency control challenges. These challenges include:- Decline in frequency response in the Eastern interconnection - Deterministic frequency deviations observed at the top of the hours in the European synchronous systemFrequency control issues became critical when electricity markets were deregulated and frequency control became an ancillary service with a decidedly commercial focus. This commercial focus has spawned a lot of work on frequency control markets and economics whereas not much research has been devoted to dynamic simulation of large interconnected systems. Apart from this commercial focus, frequency control in large interconnected systems is still based on historical practices mainly because changes suggested in the literature can be barely applied in large interconnected systems. This is essentially because dynamic simulation studies are uncorrelated with frequency control markets and economics. More specifically, dynamic studies do not take into account the characteristics of each reserve activated and also the way the reserve is activated. With the deregulation of the electricity market, reserve is considered as a product and not necessarily a response provided by a unit. The main objectives of this research therefore are to solve critical frequency control issues in large interconnected deregulated electricity systems, which may present potential economic benefits. To achieve these objectives, frequency control in large interconnected systems is studied by considering on one hand frequency control theory and on the other hand its implementation in practice taking account of frequency control ancillary service markets as well as the economics and practical consequences of frequency control. This approach is necessary to accommodate the future evolution of frequency control in large interconnected systems. The proposed approach is illustrated through a model of frequency control in the European synchronous system, where practices are better known, are clearly standardised and also where frequency data has been obtained.

333.793

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

A methodology to enable wind farm automatic generation control

Han, Hai-Yue

03 January 2012

Over the last decade the increase in penetration of wind power and its variable nature has begun to add considerable stress to and threatened the stability of the nation's grid. In order to continue growth wind farms will need to have the ability to participate in the same grid frequency regulation as traditional generating sources. The goal of this research is to explore the use of energy storage devices to provide wind farms with a method to regulate their power output and the grid frequency. Using energy storage, this research aims to allow wind farms to participate in automatic generation control (AGC). Software simulations were performed to design an advanced energy storage controller that will allow maximum participation in AGC. A comprehensive in-lab grid was constructed to produce experimental results for this work and was used to evaluate the performance of the advanced energy storage controller. The first stage of this research aims to use super-capacitors to balance rapid excursions in frequency and wind power output while the second stage of this research will preliminarily explore the use of a zinc-bromine flow cell battery for medium-scale, sustained excursions in frequency and wind power output. Results show that wind farms are capable of participation in AGC with the addition of an energy storage device, but the amount of participation is heavily reliant on the amount of energy storage available. / Graduation date: 2012

AGC

wind power

automatic generation control

energy storage

frequency

forecast

Wind power -- Automatic control

Energy storage -- Automatic control

Research About The Laws And System Of The Electricity Liberalization In Taiwan

Chang, Chun-Te

30 July 2005

Electricity power is an irreplaceable resource in industry for a country. Enough and steady-offered electricity is also the support to develop not only traditional industry but high technology industry. Taiwan is a place, where is lacking of natural resources. There is only 3 % of which can be self ¡Vcontained. In fact, electricity power plays one of important roles in achieving ¡§Economic Miracle of Taiwan.¡¨ Basically, electricity power embraces three parts of power generation, power transmission, and distribution. And it is managed by the way of vertically integration. Traditionally, electricity power is assorted into public utility because of its huge principal and social resources, even concerning with the economy and society of the country and is governed and controlled by the government. Whatever country promotes electricity liberalization, the government and the academic put their eye on foster the total efficiency of management through market mechanisms. Electricity liberalization has been working for more than twenty years. Of course, there are some successful cases, for example, like England, Australia, and etc. They do benefit from increasing the occurrence, the efficiency, and decrease the price after operating electricity liberalization. As to Taiwan, the government has the same policy on it, too. The amendments are under discussion in The Legislative Yuan. By referencing to electricity liberalization of other countries and comparing their experiences with Taiwan, the questions below are searched in this thesis. First, does the policy in Taiwan really satisfy the essence of electricity liberalization? Second, could power generation, power transmission, and distribution of the electricity industry be operated by vertically integrated way? After electricity liberalization, it is important that how to do could get good combined with competition of the market, the offer of steady electricity and the society justice. If not, how to modify the rules would satisfy the needs of country development and expectations of the society.

Public Utility

Electricity Liberalization

Natural Monopoly

ISO(Independent System Operator)

IPP(Independent Power Plant)

AGC(Auto Generation Control)

FERC(Federal Energy Regulator Commision)

Vertically Integrated

Aplicação do software scicoslab para análise do controle automático de geração de sistemas elétricos de potência / Application of ScicosLab software for analysis of automatic generation control of electric power systems

Oda, George

22 June 2012

The purpose of this paper is to show that the software ScicosLab can be used as an interesting and effective computational tool to analyze the automatic generation control of electric power systems. Firstly it is presented the software and, afterwards, the concepts and definitions of rotational movements in order to develop mathematical models for the generators equipped with steam turbines or hydraulic turbines and speed governors, and for their electrical loads. For the studies it is used a system comprised by two distinct interconnected areas where a load increase in one area is simulated without/with the tieline, ignoring, and then considering the primary and supplementary controls. Finally, it is analyzed a more realistic system with three distinct areas extracted from the Brazilian power system. The computational results show graphically the variations of the two main quantities of interest: the frequency of each area of the system and the tieline power. These quantities allow the evaluation of the system behavior after a disturbance that affects the generation-load balance. Within the above context, it is verified that the ScicosLab computer package effectively models and simulates the load-frequency control of power systems, qualifying, therefore, as an excellent alternative to replace any similar program which requires license payment. / A proposta deste trabalho é mostrar que o software ScicosLab pode ser utilizado como uma ferramenta computacional, interessante e eficaz, para analisar o controle automático de geração de sistemas elétricos de potência. Inicialmente é apresentado o software e, em seguida, os conceitos de movimentos rotativos que permitem desenvolver os modelos matemáticos para os geradores equipados com turbinas a vapor ou hidráulica e reguladores de velocidade, e para suas cargas elétricas. Para possibilitar os estudos é utilizado um sistema constituído por duas áreas distintas interligadas, onde é simulado um aumento de carga em uma destas áreas, sem e com a linha de interligação, desconsiderando e, em seguida, considerando os controles primário e suplementar. Finalmente, analisa-se um sistema mais realístico com três áreas distintas extraído do sistema elétrico brasileiro. Os resultados computacionais mostram graficamente as variações das duas principais grandezas de interesse: a frequência de cada área do sistema e a potência da linha de interligação. Estas grandezas permitem avaliar o comportamento do sistema após uma perturbação que afeta o balanço geração-carga. Considerando o exposto acima, constata-se que o pacote computacional ScicosLab modela e simula eficazmente o controle carga-frequência de sistemas elétricos de potência, qualificando-se, portanto, como uma excelente alternativa para substituir qualquer programa similar que exige pagamento de licença. / Mestre em Ciências

Controle automático de geração

Controle carga-frequência

Dinâmica

ScicosLab

Sistema elétrico de potência

Automatic generation control

Load-frequency control

Dynamics

ScicosLab

Electric power system

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Generation Control in Small IsolatedPower Systems

Haji Miragha, Amirhossein

January 2005

This thesis is concerned with the generation control in small isolated power systems consisting of inverter interfaced generation systems. First the components of an individual distributed generation system (DGS) as well as the corresponding control schemes for active and reactive power flow are discussed and implemented. Then the contribution of multiple DGS to meet the requirement of the loads in both gridconnected and island operations are discussed. Having evaluated the performance of each developed model such as voltage source inverter, PQ and PV controlled as well as reference DGS, the impact of voltage degradation on power load control in isolated systems is analyzed. Finally a new method for generation control in a small power system based on power sharing between multiple DGS with voltage degradation consideration as the last alternative for sustaining the system is proposed and implemented.-11D

Isolated System

Generation Control

Power-Load Control

Voltage Source Inverter

Distributed Generation

Microsource

Microgrid

Grid-Connected

Island.

Elektroteknik och elektronik

Modelling and Advanced Control of Fully Coupled Wave Energy Converters Subject to Constraints: the Wave-to-wire Approach

Wang, Liguo

January 2017

Ocean wave energy is a promising renewable source to contribute to supplying the world’s energy demand. The Division of Electricity at Uppsala University is developing a technology to capture energy from ocean waves with a wave energy converter (WEC) consisting of a linear permanent magnet generator and a point absorber. The linear generator is placed on sea bed and is driven directly by the floating absorber. Since March 2006, multiple wave energy converters have been deployed on the Swedish west coast outside the town of Lysekil. The technology is verified by long-term operation during at sea and satisfactory reliability of the electricity generation. This thesis focuses on developing advanced control strategies for fully coupled wave energy converters subject to constraints. A nonlinear control strategy is studied in detail for a single WEC subject to constraints under regular and irregular waves. Besides, two coordinated control strategies are developed to investigate the performance of a wave energy farm subject to constraints. The performance of the WECs using these control strategies are investigated in case studies, and optimal PTO damping coefficients are found to maximize the output power. The results show that these control strategies can significantly improve the performance of the WECs, in terms of mean power, compared to a conventional control. Besides these control strategies, a wave-to-wire simulation platform is built to study the power generation control of the WEC subject to constraints.  The wave-to-wire simulation platform allows both nonlinear and linear control force. The results show that there is a good agreement between the desired value and the actual value after advanced control.

Ocean wave energy

marine energy converter

wave energy converter

wave energy farm

potential flow theory

linear permanent magnet generator

control strategy

wave-to-wire approach

physical constraints

power generation control.

Engineering and Technology

Teknik och teknologier

Um novo modelo para representação da regulação primária e secundária de frequência no problema de fluxo de potência e fluxo de potência ótimo

La Gatta, Paula Oliveira

05 March 2012

Submitted by Renata Lopes (renatasil82@gmail.com) on 2016-07-01T14:29:29Z No. of bitstreams: 1 paulaoliveiralagatta.pdf: 1917786 bytes, checksum: 627585584595873c205fcbcf5c79980f (MD5) / Approved for entry into archive by Adriana Oliveira (adriana.oliveira@ufjf.edu.br) on 2016-07-13T16:01:23Z (GMT) No. of bitstreams: 1 paulaoliveiralagatta.pdf: 1917786 bytes, checksum: 627585584595873c205fcbcf5c79980f (MD5) / Made available in DSpace on 2016-07-13T16:01:23Z (GMT). No. of bitstreams: 1 paulaoliveiralagatta.pdf: 1917786 bytes, checksum: 627585584595873c205fcbcf5c79980f (MD5) Previous issue date: 2012-03-05 / CAPES - Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Neste trabalho são propostas duas formulações de importantes ferramentas para análise de redes em regime permanente, onde são consideradas equações que descrevem o comportamento do controle primário e secundário de frequência em sistemas elétricos de potência. A primeira proposta é baseada em uma formulação do problema de fluxo de potência convencional e a segunda uma formulação do fluxo de potência ótimo. A formulação de fluxo de potência proposta é desenvolvida a partir de uma metodologia genérica de representação de dispositivos de controle. Esta metodologia consiste em incorporar as equações que modelam dispositivos de controle ao problema básico de fluxo de potência em coordenadas polares, formando um sistema de equações de ordem (2nb+nc). O fluxo de potência desenvolvido é capaz de estimar os desvios de frequência do sistema devido a uma perturbação da carga. Por outro lado, o fluxo de potência ótimo proposto é capaz de identificar montantes e locais de corte carga, de forma a manter a frequência do sistema em uma faixa aceitável de operação. A formulação proposta de FPO consiste em incluir no problema equações de igualdade e desigualdade associadas com o controle primário de frequência e geração de potência ativa. Os desenvolvimentos propostos para o fluxo de potência convencional foram implementados no ambiente MatLab®. Para solução do fluxo de potência ótimo utilizou-se um pacote comercial de otimização, denominado LINGO®. A avaliação do fluxo de potência e fluxo de potência ótimo propostos é feita através do estudo de sistemas tutoriais e do sistema New England. A validação da análise de desvios de frequência é feita através da utilização do programa ANATEM, desenvolvido pelo CEPEL. Os resultados obtidos mostram as vantagens da utilização das formulações propostas. / This work proposes a new formulation for both the conventional power flow and the optimal power flow formulation, in which the steady-state equations describing the primary and secondary frequency control in electrical power systems are included. The proposed power flow formulation is based on a flexible methodology for the representation of control devices. Such methodology incorporates equations that model control devices into the basic power flow formulation in polar coordinates, generating an augmented system of equations having order (2nb + nc). The developed power flow is able to estimate the system frequency deviation due to a load disturbance. On other hand, the proposed optimum power flow formulation is able to identify the minimum load shedding necessary to maintain the system frequency in an acceptable range of operation. The proposed OPF formulation includes additional equality and inequality constraints to represent the steady state primary frequency control as a function of the active power generation. The proposed development for the conventional power flow was made using the MATLAB® environment. The optimal power flow solution used a commercial optimization package called LINGO®. The evaluation of the proposed power flow and optimal power flow formulations were made through the study of small test systems and the New England test system. Validations of the frequency deviation analysis were made using the program ANATEM, developed by CEPEL. The results obtained show the advantages of using the proposed formulations.

CNPQ::ENGENHARIAS::ENGENHARIA ELETRICA

Regulação primária

Controle automático da geração

Fluxo de potência

Método de Newton

Controle de frequência

Análise de regime permanente

Fluxo de potência ótimo

Governor model

Automatic generation control

Power flow

Newton method

Frequency control

Steady state analysis

Optimal power flow