Return to the institutional site
    • español
    • English
View Item 
  •   Séneca Home
  • TRABAJOS DE GRADO
  • Doctorado
  • View Item
    • español
    • English
  •   Séneca Home
  • TRABAJOS DE GRADO
  • Doctorado
  • View Item
JavaScript is disabled for your browser. Some features of this site may not work without it.

Browse

All of SénecaCommunities and CollectionsFaculties and ProgramsAuthorsTitlesSubjectsTypes of contentsAuthor profilesThis CollectionFaculties and ProgramsAuthorsTitlesSubjectsTypes of contents

My Account

LoginRegister

Statistics

View Usage Statistics

Information of interest

What is SénecaHow publishGuidelinesContact us

Planning of interconnected power systems considering security under cascading outages and catastrophic events

RISMendeley
URI: http://hdl.handle.net/1992/7765
Author: Zapata Grisales, Carlos Julio
Director(s)/Advisor(s): Torres Macías, Alvaro; Kirschen, Daniel Sadi
Publication date: 2010
Content type: doctoralThesis
Keywords:
Sistemas electrónicos de seguridad - Investigaciones
Confiabilidad (Ingeniería) - Investigaciones
Análisis estocástico - Investigaciones
Método de MonteCarlo - Investigaciones
Abstract:
This work presents a method for assessing the vulnerability of a composite power system. It is based on the modeling of failures and repairs using stochastic point process theory and procedure of sequential Monte Carlo simulation to compute the indexes of vulnerability. Stochastic point process modeling allows including constant and time varying rates, a necessity in those scenarios considering aging and diverse maintenance strategies. It also allows representing the repair process performed in the power system as it really is: a queuing system. Sequential Monte Carlo simulation is applied because it can artificially generate all the aspects involved in the operating sequence of a power system and also because it can easily manage non stationary probabilistic models. The indexes of vulnerability are the probability of occurrence of a high order loss of component scenario, its frequency and its duration. A high order loss of component scenario is that one higher than n ? 2. Examples using the IEEE one Area RTS show how the presence of aging and others factor that produce increasing component failure rates increase dramatically the risk of occurrence of high order loss of component scenarios. On the other hand, the improvement in aspect such as preventive maintenance and repair performance reduces risk. Although the main focus of this method is composite power systems, its development gave another products such as procedures for assessment of power distribution systems, protective relaying schemes and power substations
Show full item record

Files in this item

Thumbnail
Name:
u429593.pdf
Size:
715.7Kb
Format:
PDF

Statistics

View Usage Statistics
Donaciones

Los Andes

Donaciones


Icono Repositorio

Los Andes

Repositorio


Icono Egresados

Los Andes

Egresados


Icono Eventos

Los Andes

Eventos



Cra 1 Nº 18A - 12

Bogotá - Colombia

Postal code: 111711

+(571) 339 49 99

+(571) 339 49 49


Normatividad Institucional

  • Actos internos e incremento
  • Bienestar
  • Derechos pecunarios
  • Estatuto docente
  • Estatuto general
  • Ley de transparencia
  • Porcentaje de incremento
  • Reglamentos de estudiantes
  • Uso de datos personales

Enlaces Rápidos

  • ATC (Acceso Temporal al Campus)
  • Universidad de los Andes Caribe
  • Convivencia y transparencia
  • Educación Continuada
  • Emergencias: Extensión 0000
  • Nuestros profesores
  • Mapa del sitio
  • Multimedia
  • Noticias
  • Preguntas frecuentes

Redes sociales

  • Facebook
  • twitter
  • youtube
  • linkedin
  • instagram
  • snapchat
  • vimeo
  • google

Directorio de redes