Course Content
EARTHING AND GROUNDING SYSTEM
Earthing, also known as grounding, is a critical safety practice in electrical systems. It involves creating a direct electrical connection between the electrical system and the earth to ensure safety, protect equipment, and maintain system stability.
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Purpose of Earthing and Grounding
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Earthing vs. Grounding
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Earthing
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HYBRID DIESEL SYSTEMS
Hybrid diesel systems combine the benefits of diesel engines with electric propulsion systems to create a more efficient, environmentally friendly, and flexible powertrain. These systems are commonly used in various applications, including automotive, marine, and industrial sectors.
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Components of a Hybrid Diesel System
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Types of Hybrid Diesel Systems
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Advantages of Hybrid Diesel Systems
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Applications of Hybrid Diesel Systems
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DIESEL TECHNOLOGY
Diesel technology involves the use of diesel engines, which are internal combustion engines that operate using diesel fuel. Diesel engines are known for their durability, fuel efficiency, and high torque, making them suitable for a wide range of applications, from automobiles and trucks to industrial machinery and generators.
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Key Aspects of Diesel Technology
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Applications
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Engine Efficiency and Performance Enhancements
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MECHANICAL DESIGN
Mechanical design is a critical field of engineering that focuses on creating and analyzing mechanical systems and components to ensure they meet specific performance, reliability, and safety requirements. It encompasses a broad range of activities, from conceptual design to detailed engineering and manufacturing.
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Core Concepts of Mechanical Design
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Mechanical Design Elements
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PROFESSIONAL TRAINING OF OPERATION AND MAINTENANCE OF DIESEL POWER PLANTS
About Lesson

Components of a Hybrid Diesel System

  1. Diesel Engine:

    • Acts as the primary power source, providing energy for propulsion and charging the battery.
    • Known for its fuel efficiency and ability to produce high torque at low speeds.

  2. Electric Motor:

    • Assists the diesel engine during acceleration and can power the vehicle independently in electric-only mode.
    • Provides smooth and quiet operation with zero emissions during electric-only driving.

  3. Battery Pack:

    • Stores electrical energy for use by the electric motor.
    • Can be recharged by the diesel engine, regenerative braking, or an external power source (in the case of plug-in hybrids).

  4. Power Electronics:

    • Manages the flow of electrical energy between the battery, electric motor, and other components.
    • Includes inverters and converters that control the power distribution.

  5. Control System:

    • Coordinates the interaction between the diesel engine and electric motor to optimize performance and efficiency.
    • Determines when to switch between or combine diesel and electric power based on driving conditions and battery charge.

 

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