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MATLAB/Simulink for Power System Simulations

Tutorials   16-10-2020, 06:19   51   1   huayting
MATLAB/Simulink for Power System Simulations
MATLAB/Simulink for Power System Simulations
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz, 2 Ch
Genre: eLearning | Language: English + .srt | Duration: 19 lectures (4h 34m) | Size: 1.76 GB


Learn how to simulate power systems in MATLAB/Simulink by building several Simulink power system models What you'll learn:
How to simulate power systems in MATLAB/Simulink
How to model generators, transformers, transmission lines, capacitor banks, and loads in MATLAB/Simulink
How to build power system models
How to run power flow (load flow) studies
How to simulate faults
How to simulate the dynamic behavior of power systems
How to take measurements in MATLAB/Simulink to ensure proper simulation
Power Engineering and Electrical Engineering simulations in MATLAB/Simulink

Requirements
MATLAB/Simulink software, free trial available online

Description
This course is designed to allow you to simulate power systems in MATLAB/Simulink. This course not only gives a review of the theory of how power systems operate, but also gives several examples on how to run different types of power system studies using MATLAB/Simulink. The course is divided into the following sections:

1. Introduction to MATLAB/Simulink for Power Systems: in the first section of the course, we will begin by reviewing the libraries available in Simulink to represent generators, transformers, transmission lines, and loads in our models. After that, we will take a look at how we can model these components in Simulink, as well as how we can put them together in a model and how we can take measurements in the model to ensure proper simulation.

2. Power System Studies in MATLAB/Simulink: after we've made ourselves familiar with the MATLAB/Simulink environment building a small power system model, we will move on to build a large power system model which includes several generators, transformers, transmission lines, loads, and capacitor banks. We will also model the turbine control systems and excitation control systems for all generators to simulate the realistic dynamic behavior of power systems in real life. After we have built the entire model, we will run several types of studies, including load flow, short circuit, and stability studies, to simulate the behavior of the system under several conditions. This will give us all the tools we need to build any type of power system and run any power system study using MATLAB/Simulink.

As mentioned above, in each section, we will go over several models to illustrate how we can design and simulate power systems in MATLAB/Simulink. The models are also available for download so that you can follow along, as well as use these models and modify them to create your own power system models.

By learning how to simulate power systems in MATLAB/Simulink, you will be able to further your career in electrical engineering and power engineering.

Remember that Udemy offers a 30-day money-back guarantee. I am also always available for questions while you go through the course to ensure everything is clear.

See you in the course!

Who this course is for
Engineering students
Practicing Engineers
Anybody with an interest in learning about power systems and/or MATLAB/Simulink


https://www.udemy.com/course/matlab_simulink-for-power-system-simulations/


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There are two classes of power system simulation tools analysis: commercial and educational programs. Several commercial programs are available in the market (Power World Simulator, Power System Simulator ). These tools present efficient computational programs for analysis. However, they are inadequate for research and education intentions. This drawback is present because they do not authorize the modification of algorithms or adding new models. For research and education goals, flexibility, and simplicity are more important than computation. Due to several educational and research features, MATLAB becomes one of the efficient and adequate programs in many scientific domains and especially in power systems.
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