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(Udemy) Ultimate Electrical Power System Engineering Masterclass (Amr Saleh)
About Course
This free Udemy course is a comprehensive guide to electrical power system engineering, offering a deep dive into power system analysis, modelling, design, and practical applications. Learn everything from power system fundamentals and single and three-phase electric systems to designing and modelling essential components like generators, transformers, and transmission lines. Master advanced topics like load flow studies, power system fault analysis, and more. This course is suitable for electrical engineers, students, and professionals seeking to enhance their power system knowledge. It covers a range of essential topics, including:
- Power system structure, generation, transmission, distribution, and consumption
- Single line diagram (SLD) drawing
- Basic electrical engineering concepts and power system calculations
- Detailed study of three-phase systems, connections, and power analysis
- Modelling and characteristics of generators in power systems
- Transformers and their role in power systems
- Transmission line modelling and performance analysis
- Per unit system and its applications in power system analysis
- Complete power flow analysis and practical applications
- Comprehensive fault analysis in power systems
- Practical projects using MATLAB for power system applications
This free course from Udemy is taught by Amr Saleh, an experienced power systems expert. Enhance your power system engineering expertise and unlock new opportunities in the field with this valuable and free course.
Offered on Theetay, where you can access the best online courses completely free from platforms like Udemy, Udacity, Coursera, MasterClass, NearPeer, and more.
What Will You Learn?
- Realize the structure of the electric power sysyem
- Learn how to draw single line diagram of any power system
- Review of basic electrical concepts
- Different types of powers in power system
- Realize power factor correction
- Complete analysis of three phase power systems
- Difference between delta and star three phase supply and load
- Learn power calculations in three phase systems
- Power factor correction in three phase systems
- Generators in power systems
- Salient pole vs. cylindrical rotor generators
- Generator operation and its equivalent model in power system
- Learn how to assess the performance parameters of synchronous generators
- Realize generator characterstics and its phasor diagram
- Relaize the operation and construction of transformers in power systems
- Learn how to model a transformer in power systems
- Learn how to measure the transformer parameters
- Realize three phase transformer connections and their applications
- Transmission lines in power systems
- Realize the modelling and performance of transmission lines
- Complete analysis of short, medium, and long line models
- Relaize the surge impedance loading (SIL) and its importance
- Realize the per-unit system and its use in analyzing power systems
- Change of Base in per unit system
- Concept and importance of power flow analysis
- Formation of bus admittance matrix and its importance in load flow analysis
- Understand types of buses in power system
- Learn how to obtain load flow equations
- Realize approximate method in power flow analysis
- Learn Gauss-Seidal method in power flow analysis
- Learn DC power flow method in power flow analysis
- Learn how to evaluate the losses and power flow in transmission lines
- Complete analysis of power system faults
- Realize definition, causes, and consequences of electric faults
- analyze the symmetrical faults using thevenin method
- analyze the symmetrical faults using bus impedance matrix
- Learn how to construct bus impedance matrix
- Realize the concept and formulation of symmetrical components method
- Learn how to get the sequence networks for generators, transformers, and transmission lines
- Analysis of (L-G), (L-L), and (L-L-G) faults
- Many MATLAB projects related to power systems
Course Content
Electric Power System Overview
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A Message from the Professor
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– Generation and transmission of electric power
12:20 -
– Distribution and consumption of electric power
07:13 -
– Single line diagram SLD of power system
07:29
Review of Basic Principles
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– Different types of power in power system
19:02 -
– Complex power and power triangle
12:05 -
– Example 1 Power analysis
07:11 -
– Power factor Definition
12:28 -
– Power factor correction
09:49 -
– Example 2 power factor correction
04:34 -
– Complex Power Flow
14:31 -
– Example 3 Power flow in power systems
08:44
Balanced ThreePhase Systems
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– Advantages of 3phase in power system
11:52 -
– Balanced 3phase supply
12:15 -
– 3phase circuit connections
04:46 -
– Line and phase voltages in star loads
11:59 -
– StarStar system 4wire
10:21 -
– StarStar system 3wire
07:30 -
– Example 1 starstar
05:47 -
– line and phase currents in delta loads
07:51 -
– StarDelta system
06:55 -
– Example 2 stardelta
04:38 -
– DeltaStar system
05:52 -
– Example 3 deltastar
05:51 -
– DeltaDelta system
05:10 -
– Example 4 deltadelta
05:23 -
– 3phase instantenous Power
10:44 -
– Power in balanced 3ph system
10:21 -
– Power factor improvement in 3ph circuits
06:22 -
– Example 5 PF correction in 3ph systems
15:50
Generators in Power System
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– Synchronous generators Alternators
13:05 -
– Salient pole vs cylindrical rotor generators
08:21 -
– Alternator operation
11:51 -
– Induced EMF Equation
07:56 -
– Magnetization curve of synchronous generators
04:59 -
– Generator model equivalent circuit
12:50 -
– Phasor diagram of synchronous generators
09:42 -
– Performance parameters of synchronous generator
11:21 -
– Power angle characteristics of Synchronous generator
11:38 -
– Example 1 Generator model
10:34 -
– Example 2 Performance parameters of alternators
13:42
Transformers in power systems
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– Transformer construction and operation
10:36 -
– Transformer equivalent circuit
14:26 -
– Example 1 Transformer circuit model
09:33 -
– No load test of transformers
06:54 -
– Short circuit test of transformers
05:07 -
– Example 2 Determination of transformer parameters
09:35 -
– Transformer Performance
15:52 -
– ThreePhase Transformers
08:01 -
– Three phase transformer Connections
11:18 -
– PerPhase Model of 3Phase Transformer
07:09 -
– Example 3 Threephase Transformer efficiency
05:13
Transmission Lines in Power Systems
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– Introduction to Transmission Lines
09:35 -
– Transmission line Parameters
11:12 -
– Transmission Line Modelling and Performance
13:34 -
– Short Transmission Line
09:23 -
– Example 1 Short line model
16:32 -
– Medium Transmission Line
06:23 -
– Example 2 Medium line model
09:42 -
– Long Transmission Line
17:14 -
– Equivalent PI Model
12:29 -
– Lossles Transmission lines
08:16 -
– Surge Impedance Loading SIL
13:03 -
– Example 3 Long line model SIL
08:26
Per Unit System
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– Concept of Per Unit System
12:41 -
– Per Unit Calculations
08:58 -
– Solved Example 1 PU calculations
11:42 -
– Change of Base
06:28 -
– Complete numerical example on PU system part 1
10:35 -
– Complete numerical example on PU system part 2
17:57
Power Flow analysis
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– Concept and importance
07:36 -
– Important definitions related to load flow study
10:52 -
– Types of buses in power system
09:08 -
– Bus admittance matrix Ybus
16:00 -
– Example 1 Ybus formation
15:15 -
– Load flow equations
11:44
Load Flow Solution Methods
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– Approximate method
06:47 -
– Example 1 Approximate method
19:32 -
– GaussSeidal method
15:13 -
– Example 2 GaussSeidal Part 1
17:29 -
– Example 2 GaussSeidal Part 2
09:21 -
– Line flows and losses
06:36 -
– Example 3 Line flows and losses
12:07 -
– DC power flow method
07:41 -
– Mathematical formulation of DC power flow
13:16 -
– Example 4 DC power flow
19:26
Fault Analysis in Power System
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– Fault Analysis Overview
11:01 -
– Causes of faults
06:06 -
– Faults in power system in a year
04:49 -
– Types of power system faults
12:29 -
– Consequences of faults
10:00 -
– Assumptions in fault studies
05:03
Symmetrical Faults Analysis
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– Synchronous generator reactance under short circuits
13:07 -
– Symmetrical fault analysis using Thevenin
11:22 -
– Example 1 Fault analysis using Thevenin
09:59 -
– Symmetrical fault analysis using bus impedance matrix
09:34 -
– Example 2 Fault analysis using bus impedance matrix Zbus
20:40 -
– Bus impedance matrix building algorithm
13:33 -
– Example 3 Zbus formation
15:45
Symmetrical Components and Sequence Networks
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– Concept of symmetrical components
12:53 -
– Formulation of symmetrical components
08:22 -
– Important notes
06:52 -
– Numerical examples on symmetrical components
08:46 -
– Sequence networks
04:27 -
– Sequence networks for generator and transmission lines
04:27 -
– Sequence networks for transformer
05:50 -
– Example 1 0 sequence networks for a given power system
09:08 -
– Example 2 0 sequence networks for a given power system
04:40
Unsymmetrical Faults analysis
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– Overview and objective
10:57 -
– LG fault analysis
13:25 -
– LL fault analysis
13:08 -
– LLG fault analysis
11:46 -
– Summary and steps of solution
06:21 -
– Solved example on unsymmetrical faults part 1
15:35 -
– Solved example on unsymmetrical faults part 2
09:29
Practical Projects Power Systems Simulations in MATLAB
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– Project 1 Stand alone synchronous Generator
20:02 -
– Project 2 Synchronous Generator connected to the grid
16:10 -
– Project 3 Simulation of 3ph transformers
25:43 -
– Project 4 Transmission line design
21:17 -
– Project 5 Power flow study in MATLAB
22:10 -
– Project 6 Fault analysis in MATLAB
14:25
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Student Ratings & Reviews
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Same course content as the Power System Analysis course in Electrical Engineering. And good explanation
