Fundamentals of Electric Traction for Complete Beginners (9)

Learn all the basics of electric traction for electrical engineering students without any previous knowledge

What's Inside

Embark on an immersive journey into the fascinating realm of Electric Traction Engineering with our comprehensive course, meticulously crafted to deepen your understanding and expertise in modern rail systems. From foundational concepts to advanced applications, each section of this course is designed to equip you with the knowledge and skills needed to excel in the field.


Section 1: Introduction to Electric Traction

In this introductory section, you will gain a solid understanding of the principles and significance of electric traction in modern transportation. Explore the evolution of electric traction systems and discover how they have revolutionized the railway industry. By the end of this section, you will have a clear grasp of the fundamentals and be ready to delve deeper into the world of electric traction engineering.

Section 2: Track Electrification Systems

Dive into the complexities of track electrification systems, including various configurations and technologies used to power railways. Learn about DC and AC traction systems, their advantages, and applications in different contexts. By examining real-world examples and case studies, you will develop a comprehensive understanding of track electrification and its crucial role in railway operations.

Section 3: Components in Electric Traction

Explore the essential components of electric traction systems, from collector gears to pantograph systems, and their functions in maintaining efficient railway operations. Delve into the intricacies of overhead equipment (OHE) and gain insight into managing leakage currents for optimal performance. By the end of this section, you will be well-versed in the key components that drive electric traction engineering forward.

Section 4: Speed-Time Curves of a Train

Master the dynamics of speed-time curves and their significance in understanding train movement and performance. Explore different types of speed-time curves and learn how to analyze and interpret them effectively. Through practical examples, you will develop the skills needed to optimize train speed and efficiency in various operating conditions.

Section 5: Tractive Effort and Equations of Train Motion

Gain a deep understanding of tractive effort and equations of train motion, essential for optimizing propulsion and energy efficiency in rail systems. Explore concepts such as power output, energy output, and specific energy output, and learn how to calculate them for different scenarios.

Whether you're an electrical engineer, a seasoned professional, or simply passionate about railways, "Fundamentals of Electric Traction for Complete Beginners" offers a comprehensive and engaging learning experience that will empower you to excel in this dynamic field.

Join us on this electrifying journey and unlock your full potential in electric traction engineering today!

Course Curriculum

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Engineer Ahmed Mahdy

I am Ahmed Mahdy an electrical power engineer, researcher, and the founder of Khadija Academy. I am also an electrical bestselling instructor and have helped more than 70,000 students from 191 countries achieve career success with simple and easy courses in the last 7 years.​ In addition to having a YouTube educational engineering channel called" Khadija Academy", where I regularly post videos related to electrical engineering. In 2018, I was nominated among the top 10% of instructors on Udemy, besides currently ranking among the top instructors in the engineering sector of Udemy.


Some of my published research works in the top electrical engineering journals worldwide:


1- ​Transient stability improvement of wave energy conversion systems connected to power grid using anti-windup-coot optimization strategy - Energy Journal - Impact Factor of 9.0.


2- Nonlinear Modeling and Real-Time Simulation of a Grid-Connected AWS Wave Energy Conversion System - IEEE Transactions on Sustainable Energy - Impact Factor of 8.8.


3- Modeling and optimal operation of hybrid wave energy and PV system feeding supercharging stations based on golden jackal optimal control strategy - Energy Journal - Impact Factor of 9.​0.


4- State-of-the-Art of the most commonly adopted wave energy conversion systems - Ain Shams Engineering Journal - Impact Factor of 6.0.


5- Optimal Design of Fractional-Order PID Controllers for a Nonlinear AWS Wave Energy Converter Using Hybrid Jellyfish Search and Particle Swarm Optimization - Fractal and Fractional - Impact Factor of 5.4


6- Dynamic performance enhancement of nonlinear AWS wave energy systems based on optimal super-twisting control strategy - Ain Shams Engineering Journal - Impact Factor of 6.0.

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