About corse
The advancement of electric and hybrid aircraft technology has become a cornerstone in the pursuit of sustainable aviation. This sector is witnessing a surge in innovation as engineers and designers strive to create more efficient, environmentally friendly, and economically viable aircraft. As global demand for air travel continues to rise, addressing the environmental impact of aviation has never been more critical. This course is designed to provide participants with in-depth knowledge of the principles, design considerations, and engineering challenges associated with electric and hybrid aircraft. By focusing on both theoretical foundations and practical applications, attendees will gain insights into cutting-edge technologies that are shaping the future of aviation. Participants will explore various aspects of electric and hybrid aircraft systems, including propulsion, energy storage, and aerodynamic optimization. The course aims to equip individuals with the skills necessary to contribute effectively to the design and engineering of these innovative aircraft. Through a combination of lectures, hands-on activities, and collaborative projects, attendees will engage with industry experts and peers, fostering a deeper understanding of the complexities involved in electric and hybrid aviation.The Objectives
- Understand the fundamental principles of electric and hybrid aircraft design.
- Analyze the various propulsion systems used in electric aviation.
- Evaluate energy storage solutions and their impact on aircraft performance.
- Examine regulatory standards and safety considerations in electric aviation.
- Explore advancements in materials and technologies for aircraft design.
- Develop practical skills through hands-on projects and simulations.
Training Methodology
The training will employ a blend of instructional methods, including lectures, interactive discussions, case studies, and practical workshops. Participants will engage in group activities to foster collaboration and problem-solving skills. Expert guest speakers from the industry will provide insights into real-world applications and challenges, enhancing the learning experience. Additionally, participants will have access to simulation tools and design software to apply their knowledge in practical scenarios.WHO SHOULD ATTEND
This course is ideal for aerospace engineers, designers, and technical professionals involved in aircraft development. It is also suitable for students pursuing a career in aviation engineering, as well as industry stakeholders interested in sustainable aviation technologies. Participants will benefit from a comprehensive understanding of electric and hybrid aircraft, positioning themselves as knowledgeable contributors to this rapidly evolving field.Course Outlines
Day 1- Introduction to Electric and Hybrid Aircraft
- Overview of Aviation Industry Trends
- Key Technologies in Electric Propulsion
- Historical Context and Evolution of Aircraft
- Design Challenges in Electric Aviation
- Case Studies of Existing Electric Aircraft
- Fundamentals of Aerodynamics for Electric Aircraft
- Comparative Analysis of Conventional vs. Electric Aircraft
- Energy Efficiency Metrics and Performance Indicators
- Introduction to Battery Technologies
- Environmental Impact of Electric Aviation
- Hands-on Workshop: Basic Aerodynamic Calculations
- In-depth Study of Hybrid Propulsion Systems
- Integration of Electrical Systems in Aircraft Design
- Power Management Systems and Control Strategies
- Safety Regulations and Compliance Standards
- Impact of Weight Reduction on Performance
- Group Activity: Designing a Hybrid Propulsion System
- Advanced Materials for Electric Aircraft
- Thermal Management in Electric Propulsion
- Design of Energy Storage Systems
- Overview of Electric Aircraft Charging Infrastructure
- Lifecycle Assessment of Electric Aircraft
- Workshop: Evaluating Material Properties for Aircraft
- Simulation Tools for Aircraft Design
- Introduction to Modeling Electric Propulsion Systems
- Data Analysis Techniques for Performance Evaluation
- Case Studies on Electric Aircraft Projects
- Collaborative Project: Designing an Electric Aircraft Prototype
- Guest Speaker Session: Industry Insights
Training Method?
- Pre-assessment
- Live group instruction
- Use of real-world examples, case studies and exercises
- Interactive participation and discussion
- Power point presentation, LCD and flip chart
- Group activities and tests
- Each participant receives a copy of the presentation
Training Method?
The course agenda will be as follows:- Technical Session 30-10.00 am
- Coffee Break 00-10.15 am
- Technical Session 15-12.15 noon
- Coffee Break 15-12.45 pm
- Technical Session 45-02.30 pm
- Course Ends 30 pm
City
| Venue | Start Date | End Date | Net Fees | Details & Registration |
|---|---|---|---|---|
| Madrid | August 11, 2025 | August 15, 2025 | 6600 GBP | PDF Register |
| Madrid | September 15, 2025 | September 19, 2025 | 6600 GBP | PDF Register |
| Madrid | October 13, 2025 | October 17, 2025 | 6600 GBP | PDF Register |
| Madrid | November 17, 2025 | November 21, 2025 | 6600 GBP | PDF Register |
| Madrid | December 22, 2025 | December 26, 2025 | 6600 GBP | PDF Register |
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