“The H2 Pro Grand Prix Pro” competition is designed for students aged 13-17, focusing on hydrogen-powered vehicles. In this STEAM-based competition, participants design, build, and race hydrogen-powered cars. The event provides students with comprehensive knowledge about engineering principles underlying renewable energy, particularly hydrogen technology.This competition aims to develop STEAM skills through both theoretical and hands-on learning. It is based on three core pillars: professional tools, diverse learning experiences, and fun, competitive races.
Age limit: 13-17 (those who turn 13 years old by December 1, 2025, and those who will not turn 18 by November 1, 2025)
Coming soon
3 students and 1 mentor
Students gain foundational knowledge in hydrogen technology, alternative energy sources, and sustainable transportation systems.
They develop practical application skills by integrating machine design, engineering principles, and aerodynamic components.
Teams learn to conduct technical analyses and perform optimization based on energy efficiency, mechanical structure, and racing strategy.
Team members create business plans, engage with sponsors, and design financial strategies—providing preparation for real-world market dynamics.
By optimizing pit-stop procedures, students enhance rapid decision-making, time management, and intra-team coordination skills.
Participants improve their scientific communication abilities by preparing technical reports, oral presentations, and video submissions.
Business-oriented skills such as risk assessment, SWOT analysis, marketing strategy development, and project planning are cultivated throughout the program.
Interdisciplinary Development
Physics
Energy transformation, kinetic and potential energy, aerodynamics, and the physical principles behind hydrogen-powered systems
Laws of motion, force, and resistance, and their impact on vehicle performance
Mathematics
Measurements and calculations (length, weight, energy), energy consumption per lap, statistical analysis, and graphical representation
Calculation of watt-hours, energy density, and average performance indicators per circuit
Engineering and Technology
Hydrogen fuel cell systems, chassis design, mechanical assembly, and structural analysis
Material selection, safety considerations, and development of prototypes aligned with racing standards
Computer Science and Simulation
Performance simulation, energy usage monitoring, telemetry systems, and data analysis
Technical documentation, video presentation development, and creation of digital portfolios
| Explanation | Date |
|---|---|
| Deadline for competition application | (Coming soon) |
| Selection round | (Coming soon) |
| Announcement of selection round results | (Coming soon) |