Hydrogen technology as an educational tool within the framework of inclusion, digitalization, and employability
THEIDE Project
Erasmus+ Project 2023-1-ES01-KA220-VET-00015226
Asociación de Profesores de Automoción de Galicia
- Develop innovative, inclusive, and multilingual educational materials in ebook format at three levels to introduce professionals, students, and the general public to the process of producing green hydrogen, 100% sustainable energy with zero emissions (0%). - Design, assemble, and implement a hydrogen refueling station in each center. - Disseminate the created products and promote the unique aspects of this energy.
Main objectives of the project
CIFP Politécnico de Murcia
Institute of Higher Education
Fevziye Tezcan Anatolian Technical and Vocational High School
Technical and Professional Studies
School of Electromechanics and Trades
APAGA Asociación de Profesores de Automoción de Galicia (España)
Elektrostrojarska obrtnicka skola (Croacia)
I.I.S. A. Ferrari (Italia)
Fevziye Tezcan Mesleki ve Teknik Anadolu Lisesi (Turquía)
ENSINUS - Estudos Técnicos e Profissionais SA (Portugal)
THEIDE Projct Partners
The bulk of the content has been organized into 8 sections
These content sections will form an independent ebook within the general ebook, with three levels of depth or difficulty. These topics will be distributed during the initial in-person meeting based on the ease of access to information and the availability for research among all partners. Each partner will work on one or two topics, either individually or collaboratively with another partner, and will then share all progress with the other partners in the specific sessions organized during the training activity days.
Content
Hydrogen as a chemical element
Hydrogen, the lightest and most abundant element in the universe, plays a crucial role in chemistry and energy. Its unique properties make it essential in numerous industrial, biological, and scientific processes, and it is a promising source of clean and sustainable energy for the future.
España
Juanjo Martínez
José Luis Entenza
Beatriz Fernández
Álvaro Doural
01
Photoelectrolysis is a process in which sunlight is used to split water into hydrogen and oxygen. This method promises clean and efficient hydrogen production by harnessing solar energy to generate a sustainable fuel, thus contributing to the reduction of carbon emissions.
Photoelectrolysis
Seda
Gökmen Güney
Fatih Özbakan
Fatih Mert
Turquía
02
Marijana Kirsa
Brankica Grgic
Safety in hydrogen management is essential due to its flammable and explosive properties. It involves strict practices in storage, transportation, and usage to prevent accidents. The development of regulations and advanced technologies ensures safe handling, promoting hydrogen as a viable and safe energy source.
Ivan Sohor
Mladen Klobucar
Karolina Deak
Nikola Pondeljak
Luka Bugarin
Croacia
Safety in handling hydrogen
03
Marijana Kirsa
Brankica Grgic
Electrochemical cells convert chemical energy into electrical energy and vice versa, serving as the basis for fuel cells that generate electricity from hydrogen and oxygen, noted for their efficiency and low emissions. A fuel cell stack consists of multiple interconnected cells.
Ivan Sohor
Mladen Klobucar
Karolina Deak
Nikola Pondeljak
Luka Bugarin
Croacia
The electrochemical cell, the fuel cell, and the stack
04
Hydrogen storage in vehicles involves advanced technologies such as high-pressure tanks and absorbent materials to ensure safe and efficient storage. This development is crucial for expanding the use of fuel cell vehicles.
Barbara Scandurra
Grazia Assunta
Giacinto Massaro
Italia
Hydrogen storage in vehicles
05
Francesco Favero
José Costa
Leonardo Castro
The inverter, motor, and battery are key components in electric vehicles. The battery stores electrical energy, the inverter converts this energy from direct current to alternating current, and the motor uses the alternating current to generate movement.
Fernanda Torres
Portugal
Operation (general) of the inverter, motor, and battery
06
José Costa
Francesco Favero
Leonardo Castro
Fernanda Torres
The diagnosis and maintenance of fuel cell vehicles are essential to ensure their performance and safety. This includes monitoring systems, fault detection, and checking components such as fuel cells, the stack, and hydrogen storage systems.
Portugal
Diagnosis and maintenance of fuel cell vehicles
07
Barbara Scandurra
Grazia Assunta
Giacinto Massaro
The hydrogen refueling station is a service station designed to supply hydrogen to fuel cell vehicles. It operates by storing compressed hydrogen and dispensing it safely at high pressure. Other hydrogen refueling stations are systems that generate hydrogen in the vehicle to assist with combustion.
Italia
The hydrogen refueling station
08
