Course detail
Computer Modelling and Simulations
FEKT-KPMSAcad. year: 2010/2011
Introduction to computer modelling and simulation
Use of computer simulation in power engineering, Examples from a practice
Mathematical theories for computer simulation in electrical engineering
Complex numbers and their use for harmonic quantities representation, matrix computing for linear equation systems
Nonlinear circuits and their numerical evaluation with computer use
Physical domains, through and accross variables, power and energy quantities, multidisciplinary dependeces
Basic requirements on computer simulation, simulation of real time processes, static and dynamics, stacionar and nonstacionar systems
Models of electrical and mechanical elements, mathematic description
Mathematical tool MATLAB, SIMULINK and Power System Toolbox, utilisation in power engineering
Simulation software DYNAST, multidisciplinary modelling
SPICE based software, Micro-Cap, PSpice, GLF
Software Harmonic analyses of distribution and industrial power network, data postprocessing
Simulation software ATP, possibilities in power engineering
Language of instruction
Number of ECTS credits
Mode of study
Guarantor
Learning outcomes of the course unit
Prerequisites
Co-requisites
Planned learning activities and teaching methods
Assesment methods and criteria linked to learning outcomes
Course curriculum
Use of computer simulation in power engineering, Examples from a practice
Mathematical theories for computer simulation in electrical engineering
Complex numbers and their use for harmonic quantities representation, matrix computing for linear equation systems
Nonlinear circuits and their numerical evaluation with computer use
Physical domains, through and accross variables, power and energy quantities, multidisciplinary dependeces
Basic requirements on computer simulation, simulation of real time processes, static and dynamics, stacionar and nonstacionar systems
Models of electrical and mechanical elements, mathematic description
Mathematical tool MATLAB, SIMULINK and Power System Toolbox, utilisation in power engineering
Simulation software DYNAST, multidisciplinary modelling
SPICE based software, Micro-Cap, PSpice, GLF
Software Harmonic analyses of distribution and industrial power network, data postprocessing
Simulation software ATP, possibilities in power engineering
Work placements
Aims
Specification of controlled education, way of implementation and compensation for absences
Recommended optional programme components
Prerequisites and corequisites
Basic literature
Schindler, J.: Simulace a optimalizace systémů, Ostrava 1983
Recommended reading
Classification of course in study plans
Type of course unit
Lecture
Teacher / Lecturer
Syllabus
Use of computer simulation in power engineering, Examples from a practice
Mathematical theories for computer simulation in electrical engineering
Complex numbers and their use for harmonic quantities representation, matrix computing for linear equation systems
Nonlinear circuits and their numerical evaluation with computer use
Physical domains, through and accross variables, power and energy quantities, multidisciplinary dependeces
Basic requirements on computer simulation, simulation of real time processes, static and dynamics, stacionar and nonstacionar systems
Models of electrical and mechanical elements, mathematic description
Mathematical tool MATLAB, SIMULINK and Power System Toolbox, utilisation in power engineering
Simulation software DYNAST, multidisciplinary modelling
SPICE based software, Micro-Cap, PSpice, GLF
Software Harmonic analyses of distribution and industrial power network, data postprocessing
Simulation software ATP, possibilities in power engineering
Exercise in computer lab
Teacher / Lecturer
Syllabus
Working with matrixes, complex numbers, matrix inversion
Junction voltages method in matrix form, loop currents method
Transients analyses in linear circuits, use of matrix computing
Transients analyses in circuits with accumulation parts - capacity and induction
Tools SIMULINK, introduction, main features
Export of data from SIMULINK to MATLAB
DYNAST - introduction to user interface
DYNAST - simulation more dificult systems
Assign of individual project, simulation of essential dynamic systems
Software ATP, main features
Harmonical analyses in distribution power network
Project finishing, presentation of indvidual simulation models.