DigSilent PowerFactory - Power Systems Analysis

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Markusen Rasdini

5:18:19

31 View

1. Introduction

1. Creating a simple project from scratch.mp4

03:30

2. Getting comfortable in the working environment.mp4

02:49

2. The basics of a circuit

1. Creating Simple Circuit.mp4

07:44

3. Modeling elements in PF

1. Modeling a Grid.mp4

04:59

2. Modeling a transformer.mp4

08:36

3. Modeling Busbars and Loads.mp4

04:57

4. Modeling Lines.mp4

08:39

5. Modeling Asynchronous Machines.mp4

06:55

4. Load Flow

1. Load Flow Module introduction.mp4

05:45

2. Perform a Load Flow.mp4

06:41

3. Load flow - Active Power limits.mp4

03:51

4. Load Flow - Reactive Power priority.mp4

02:11

5. Load Flow - Dispatching Modes.mp4

04:46

6. Load Flow - Load Reference.mp4

04:16

7. Load Flow - Static Generators.mp4

06:07

8. Load Flow - Load Slack configuration.mp4

03:44

9. Load Flow - Generation Slack.mp4

03:53

10. Load Flow - Secondary Control.mp4

12:31

11. Load Flow - Reactive Power Control.mp4

05:29

12. Edge Elements.mp4

04:18

13. Element Database.mp4

05:26

5. Steady State Short Circuits

1. Performing steady state short circuit analysis.mp4

10:37

6. Dynamic Simulation

1.1 Presentation1.pptx

1. Dynamic Simulation Intro.mp4

04:42

2. Dynamic Simulation - Step 1 - Load Flow.mp4

02:29

3. Dynamic Simulation - Step 2 - Setting Dynamic Simulation Models.mp4

13:44

4. Dynamic Simulation - Step 3 - Calculating Initial Conditions.mp4

05:18

5. Dynamic Simulation - Step 4 - Setting variables.mp4

05:34

6. Dynamic Simulation - Step 5 - Define Events.mp4

05:09

7. Dynamic Simulation - Step 6 - Run and Plot.mp4

11:44

8. Exporting Variables.mp4

05:25

9. Simulation of a Parameter Event.mp4

06:08

10. Simulation of a Load Event.mp4

07:17

7. Creating Dynamic Simulation Model

1. Introduction to Dynamic Simulation Models.mp4

16:07

2. Dynamic Simulation Elements.mp4

06:33

3. Creating Frame and the model.mp4

14:00

4. Simulation of the Model.mp4

04:59

8. Extra project tools

1. Define Templates.mp4

04:39

2. Define Study Cases.mp4

06:03

3. Define Scenarios.mp4

05:43

9. Renewable Energy & Power Quality

1. Modeling a Hybrid System.mp4

19:55

2. Define LVRT Events for Study.mp4

13:45

3. Define HVRT Events for Study.mp4

08:27

4. Harmonics Study.mp4

16:43

5. Parameter Event.mp4

06:11

Description

DigSilent from 0 to Hero !

What You'll Learn?

Learn DigSilent Power Factory from scratch in the most easiest way
Feel comfortable and more secure towards powerful power systems analysis software
Create a project in DigSilent from scratch easily
Learn to use powerful modules like Load Flow , Dynamic Analysis, Power Quality
Learn how to create a dynamic model from scratch
Learn how to export variables of simulation for further processing in DigSilent
Perform Renewable Energy Grid Study analysis
More than 5 dedicated hours

Who is this for?

Electrical/Power Systems/Plant Control engineers/students

What You Need to Know?

Very basic electrical engineering / power systems skills

More details

Description
This course covers almost all modules of DigSilent Power Factory as one of the most powerful software used nowadays by big players of all field of power systems, especially those of Renewable Energy. Except the numerous topics covered the best feature that this course offers are simplicity. As an experienced engineer part of Renewable Energy, I have learned that the best way to solve a problem is to solve it simply and something that is well understood can be again simply explained. Beginning from creating the most basic circuit up to performing complex dynamic simulation, all the steps are described in the easiest way. In this course also for the first time is explained step by step the modeling from scratches the so-called dynamic simulation models. Beside using complex programming language and methodology of DigSilent while creating a dynamic model, users will have a clear map to create simple to high complexity dynamic simulation models. Also examples of renewable energy are included in a special chapter to have a better view what are the main studies performed nowadays. Every module covered is explained with examples and in a detailed comprehensive way and so on the user will feel very confident having this software in his hand toward kickstarting a career in power systems. Enjoy.
Who this course is for:
Electrical/Power Systems/Plant Control engineers/students

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Electrical Engineering

Markusen Rasdini

Instructor's Courses

Power system engineer with extensive experience who focuses on applications of renewable energy and artificial intelligence to build a safe, smart, and green society. I began my work at a young age and can now proudly cite my years of expertise in the field of renewable energy solutions dating back fifteen years. In the most potent and well-known Power Systems Software, such as Matlab, PSS/E Siemens, DigSilent, PSCAD, Etap, etc., I have a stellar reputation for modeling and building electrical models of power systems and solving problems. knowledge of grid connection, grid compliance, power quality, power system planning, power system protection, and network regulation. This fantastic experience was gained from working together on several outsourced projects in European leaders of renewable energy environment. Delivering gains in overall operational efficiency and customer happiness.

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