From Wheels to Watts: Mechanical to Electrical Power Conversion

Course Info

Date: July-21-2025

Length: 1 Week

City: Kuala Lumpur

Fees: 3,990

Type: In Classroom

Available Dates

  • Jan-20-2025

    Kuala Lumpur

  • Apr-21-2025

    Kuala Lumpur

  • July-21-2025

    Kuala Lumpur

  • Oct-20-2025

    Kuala Lumpur

Dates in Other Venues

  • Dec-30-2024

    Paris

  • Dec-30-2024

    Dubai

  • Jan-20-2025

    Singapore

  • Jan-20-2025

    Istanbul

  • Jan-20-2025

    Paris

  • Jan-20-2025

    Barcelona

  • Jan-20-2025

    Amsterdam

  • Jan-20-2025

    Dubai

  • Feb-17-2025

    London

  • Mar-03-2025

    Dubai

  • Apr-21-2025

    Barcelona

  • Apr-21-2025

    Amsterdam

  • Apr-21-2025

    Paris

  • Apr-21-2025

    Istanbul

  • Apr-21-2025

    Singapore

  • Apr-21-2025

    London

  • May-19-2025

    Dubai

  • June-02-2025

    London

  • July-21-2025

    Dubai

  • July-21-2025

    Istanbul

  • July-21-2025

    Barcelona

  • July-21-2025

    Singapore

  • July-21-2025

    Amsterdam

  • July-21-2025

    Paris

  • Aug-18-2025

    London

  • Sep-01-2025

    Dubai

  • Oct-20-2025

    Singapore

  • Oct-20-2025

    Barcelona

  • Oct-20-2025

    London

  • Oct-20-2025

    Istanbul

  • Oct-20-2025

    Paris

  • Oct-20-2025

    Amsterdam

  • Nov-17-2025

    Dubai

  • Dec-01-2025

    London

Course Details

Course Outline

5 days course

Foundations of Power: Unveiling Mechanical and Electrical Synergy

  • Understanding mechanical energy and work
  • Mechanical power sources
  • Introduction to electric charge and current
  • Basics of voltage and resistance
  • Exploring the relationship between voltage, current, and power
  • Units of electrical power
  • Overview of combustion engines and electric motors

 

Motion to Electricity: Harnessing Mechanical Energy for Generation

  • Analysing the motion of mechanical systems
  • Connecting motion to mechanical power
  • How generators convert mechanical power to electricity
  • Different types of generators and their applications
  • Understanding the principle behind electromagnetic induction
  • Role of magnetic fields in power generation

Navigating the Landscape of Mechanical-to-Electrical Conversion

  • Introduction to thermodynamic principles
  • Heat as a by-product in mechanical-to-electrical power conversion
  • Integrating heat and power generation
  • Applications and advantages of CHP systems
  • Examining real-world examples of mechanical to electrical power conversion in industries

Innovations in Power: Trends, Sustainability, and Optimization Strategies

  • Overview of current trends and advancements in mechanical power conversion
  • Prospects and innovations
  • Addressing environmental considerations in power conversion
  • Sustainable practices in mechanical power systems
  • Strategies for maintaining and optimizing mechanical-to-electrical power systems
  • Overview of control systems for optimizing power conversion

Exploring Advanced Power Conversion Technologies

  • Overview of energy storage technologies
  • Role of energy storage in mechanical power systems
  • Advances in battery technologies
  • Green technologies and their role in power conversion
  • Life cycle assessments of advanced power conversion systems
  • The role of power conversion into the power density of power systems

Course Video