Global Certificate in Electric Aircraft: Design & Technology
-- ViewingNowThe Global Certificate in Electric Aircraft: Design & Technology is a comprehensive course that addresses the growing demand for electric aircraft expertise. This course is vital for professionals seeking to lead the transition to sustainable aviation.
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⢠Electric Aircraft Design Fundamentals: An introduction to the basic principles and concepts of electric aircraft design. This unit covers the history of electric flight, the advantages and challenges of electric propulsion, and the key components of an electric aircraft system.
⢠Battery Technologies for Electric Aircraft: This unit explores the different types of batteries used in electric aircraft, including lithium-ion, nickel-metal hydride, and lead-acid batteries. It covers the characteristics of these batteries, such as their energy density, power density, and cycle life, as well as their safety and environmental considerations.
⢠Motor and Power Electronics Design: This unit focuses on the design of electric motors and power electronics for electric aircraft. It covers the principles of motor design, such as torque and power, and the selection of appropriate power electronics components, such as inverters, converters, and controllers.
⢠Energy Management and System Integration: This unit covers the integration of the various components of an electric aircraft system, such as the battery, motor, and power electronics. It also explores the importance of energy management in optimizing the performance and efficiency of the system.
⢠Regulations and Certification for Electric Aircraft: This unit examines the regulatory and certification frameworks for electric aircraft, including the Federal Aviation Administration (FAA) and the European Union Aviation Safety Agency (EASA). It covers the requirements for type certification and the challenges and opportunities for the certification of electric aircraft.
⢠Sustainable Aviation Fuel and Hybrid Systems: This unit explores the potential for sustainable aviation fuel (SAF) and hybrid systems in electric aircraft. It covers the advantages and challenges of these systems, as well as their potential to reduce greenhouse gas emissions and improve the sustainability of aviation.
⢠Electric Aircraft Maintenance and Repair: This unit covers the maintenance and repair of electric aircraft, including the inspection and testing of components, troubleshooting, and repair procedures. It also explores
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