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Power Engineering: Power System Analysis
Power Engineering: Power System Analysis
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Overview
The Power Engineering: Power System Analysis Training is the best way for you to gain deep insight and knowledge of this topic. You will learn from industry experts and obtain an accredited certificate after completing the course. Enrol now for a limited-time discounted price.
Like all the courses of One Education, this Power Engineering: Power System Analysis Training is designed with the utmost attention and thorough research. All the topics are broken down into easy to understand bite-sized modules that help our learners to understand each lesson very easily.
We don’t just provide courses at One Education; we provide a rich learning experience. After purchasing a course from One Education, you get complete 1-year access with tutor support.
Our expert instructors are always available to answer all your questions and make your learning experience exquisite.
After completing the Power Engineering: Power System Analysis Training, you will instantly get an e-certificate that will help you get jobs in the relevant field and will enrich your CV.
If you want to learn about this topic and achieve certifications, you should consider this Power Engineering: Power System Analysis Training from One Education.
Course Design
The course is delivered through our online learning platform, accessible through any internet-connected device. There are no formal deadlines or teaching schedules, meaning you are free to study the course at your own pace.
You are taught through a combination of
- Video lessons
- Online study materials
Certificate of Achievement
Endorsed Certificate of Achievement from the Quality Licence Scheme
After successfully completing the course, learners will be able to order an endorsed certificate as proof of their new achievement. Endorsed certificates can be ordered and get delivered to your home by post for only £129. There is an additional £10 postage charge for international students.
CPD Certification from One Education
After successfully completing the MCQ assessment of this course, you will qualify for the CPD Certificate from One Education, as proof of your continued professional development. Certification is available in PDF format, at the cost of £9, or a hard copy can be sent to you via post at £15.
Endorsement
This course has been endorsed by the Quality Licence Scheme for its high-quality, non-regulated provision and training programmes. This course is not regulated by Ofqual and is not an accredited qualification. Your training provider will be able to advise you on any further recognition, for example, progression routes into further and/or higher education. For further information please visit the Learner FAQs on the Quality Licence Scheme website.
Method of Assessment
To assess your learning, you have to complete the assignment questions provided at the end of the course. You have to score at least 60% to pass the exam and to qualify for Quality Licence Scheme endorsed and CPD accredited certificates.
After submitting the assignment, our expert tutor will assess your assignment and will give you feedback on your performance.
After passing the assignment exam, you will be able to apply for a certificate.
Why study this course
Whether you’re an existing practitioner or aspiring professional, this course will enhance your expertise and boost your CV with key skills and certificates attesting to your knowledge.
The Power Engineering: Power System Analysis Training is open to all, with no formal entry requirements. All you need is a passion for learning, a good understanding of the English language, numeracy and IT, and to be over the age of 16.
Course Curriculum
| **Power Engineering: Power System Analysis – Part 1** | |||
| Power in Single-Phase AC Circuits | |||
| Review of Single-Phase Power for Power System Analysis | 00:13:00 | ||
| Example – Single-Phase Power Systems | 00:06:00 | ||
| Complex Power and the Power Triangle – Fundamental Concepts in Power Systems | 00:09:00 | ||
| Example – Complex Power in Power Systems | 00:10:00 | ||
| Complex Power Flow in Power Systems | 00:16:00 | ||
| Example – Complex Power Flow in Power Systems | 00:13:00 | ||
| Power in Three-Phase AC Circuits | |||
| Balanced Three-Phase Circuits in Power Systems | 00:08:00 | ||
| Wye-Connected Loads in Power Systems | 00:13:00 | ||
| Example – Wye-Connected Loads in Power Systems | 00:10:00 | ||
| Delta-Connected Loads in Power Systems | 00:10:00 | ||
| Example – Delta-Connected Loads in Power Systems | 00:09:00 | ||
| Delta-Wye Transformation of Power System Loads | 00:10:00 | ||
| Example – Delta-Wye Transformation of Power System Loads | 00:13:00 | ||
| Balanced Three-Phase Power in Power Systems | 00:11:00 | ||
| Per-Phase Analysis of Power Systems | 00:04:00 | ||
| Example – Per-Phase Analysis of Power Systems | 00:11:00 | ||
| **Power Engineering: Power System Analysis – Part 2** | |||
| Generator Models in Power System Analysis | |||
| The Synchronous Generator and its use in Power Systems | 00:13:00 | ||
| Circuit Model | 00:05:00 | ||
| Voltage Regulation | 00:04:00 | ||
| The Power Angle | 00:10:00 | ||
| Example – Generator Circuit Model | 00:06:00 | ||
| Example – Generator Voltage Regulation | 00:03:00 | ||
| Example – Generator Output Power | 00:05:00 | ||
| Transformer Models in Power System Analysis | |||
| The Power Transformer and its use in Power Systems | 00:05:00 | ||
| Exact Equivalent Circuit | 00:11:00 | ||
| Exact Equivalent Circuit Referred to the Primary Side | 00:08:00 | ||
| Approximate Equivalent Circuit Referred to the Primary Side | 00:06:00 | ||
| Approximate Equivalent Circuit Referred to the Secondary Side | 00:03:00 | ||
| Simplified Equivalent Circuit Referred to the Primary Side | 00:04:00 | ||
| Simplified Equivalent Circuit Referred to the Secondary Side | 00:03:00 | ||
| The Per-Unit System in Power System Analysis | |||
| Introduction to the Per-Unit System and its use in Power System Analysis | 00:07:00 | ||
| Example – Per-Unit Calculations | 00:05:00 | ||
| Transmission Line Models in Power System Analysis | |||
| Introduction to Transmission Lines and Their Use in Power Systems | 00:04:00 | ||
| The Short Length Transmission Line Model | 00:10:00 | ||
| Example – Short Line Models | 00:11:00 | ||
| **Power Engineering: Power System Analysis – Part 3** | |||
| Power Flow (Load Flow) Analysis in Power Systems | |||
| Introduction to Power Flow Analysis in Power Systems | 00:04:00 | ||
| The Bus Admittance Matrix of a Power System | 00:20:00 | ||
| Example – Calculating the Bus Admittance Matrix of a Power System | 00:09:00 | ||
| Power Flow (Load Flow) Studies in Power Systems | 00:11:00 | ||
| The Power Flow Equation | 00:07:00 | ||
| The Gauss-Seidel Power Flow Method – Part 1 | 00:15:00 | ||
| The Gauss-Seidel Power Flow Method – Part 2 | 00:14:00 | ||
| Example – Gauss-Seidel Power Flow Method – Part 1 | 00:17:00 | ||
| Example – Gauss-Seidel Power Flow Method – Part 2 | 00:13:00 | ||
| Example – Gauss-Seidel Power Flow Method – Part 3 | 00:11:00 | ||
| Example – Gauss-Seidel Power Flow Method – Part 4 | 00:10:00 | ||
| Example – Gauss-Seidel Power Flow Method – Part 5 | 00:08:00 | ||
| Example – Gauss-Seidel Power Flow Method – Part 6 | 00:18:00 | ||
| Short Circuit Analysis of Balanced Faults in Power Systems | |||
| Introduction to Short Circuit Analysis of Power Systems | 00:06:00 | ||
| Balanced (Three-Phase) Faults in Power Systems | 00:07:00 | ||
| Short Circuit Analysis of Unbalanced Faults in Power Systems | |||
| Introduction to Symmetrical Components and its use in Power Engineering | 00:15:00 | ||
| Positive, Negative, and Zero Sequence Voltages in Power Systems | 00:07:00 | ||
| Positive, Negative, and Zero Sequence Currents in Power Systems | 00:06:00 | ||
| Positive, Negative, and Zero Sequence Impedances in Power Systems | 00:09:00 | ||
| **Power Engineering: Power System Analysis – Part 4** | |||
| Power Engineering: Power System Analysis - Part 4 | |||
| Definition of Stability in Power Systems | 00:06:00 | ||
| Definition of Steady-State Stability of Power Systems | 00:02:00 | ||
| Definition of Transient Stability of Power Systems | 00:04:00 | ||
| The Swing Equation in Power Systems | 00:18:00 | ||
| Synchronous Machine Reactances During Transients | 00:10:00 | ||
| The Power Angle Curve | 00:08:00 | ||
| Steady-State Stability of Power Systems | |||
| Synchronizing Power | 00:15:00 | ||
| Natural Frequency of Oscillation | 00:07:00 | ||
| Damping Power | 00:03:00 | ||
| Damping Ratio | 00:05:00 | ||
| Damped Frequency of Oscillation | 00:05:00 | ||
| Rotor Angles During Transients | 00:03:00 | ||
| Frequency During Transients | 00:02:00 | ||
| Response Time Constant and Settling Time | 00:03:00 | ||
| Assignment | |||
| Assignment – Power Engineering: Power System Analysis | 3 weeks, 3 days | ||
| Certificate | |||
| Order Your Certificate QLS | 00:00:00 | ||
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