Technological Solutions for Decarbonization
“The transition to a low-carbon society is an urgent necessity, and we respond with concrete solutions that are applicable now and on a large scale. Our innovations in hydrogen and fuel cells are applied to advanced fields such as aeronautics as well as sectors that impact the general public, such as urban mobility.”
Pierre Forté,
Co-founder
and President of Pragma Group
Strong Values
Innovation
Pragma Group offers easily integrable hydrogen solutions for a wide range of applications
Responsibility
Sustainable, decarbonized solutions with a neutral environmental impact.
« Made in France »
A guarantee of quality, ethics, and local industrialization, with all Pragma systems designed and assembled in France.
Reliability and simplicity
Our systems are entirely designed and produced by our engineers, allowing us to control the entire value chain to offer turnkey solutions and associated services.
Fuel Cells: A Key Asset for the Energy Transition
Hydrogen is a crucial element for the energy and environmental transition, offering a clean, renewable, versatile, and economically viable solution for mobility and energy production.
Fuel cells enable the use of renewable energies stored as hydrogen at a later time than their production
Controlled lifecycle
The end of life of our fuel cell is considered from its design phase.
98% of the mass
is recyclable.
Example of a Fuel Cell
Lifecycle
Based on circular economy
Reuse, recycling, remanufacturing: Fuel cells and systems designed from the very beginning to optimize their end-of-life.
Production longevity reconditioning
- Designed for a lifespan of 10 years and are 98% recyclable.
- Tanks have an unlimited lifespan, subject to inspection every 5 years.
- Lithium-free electronics are designed for a lifespan of 50 years.
50% CO2 Reduction
8g CO2e/km traveled on a hydrogen bike
vs.
11 to 16g CO2e/km traveled on an electric bike.
LCA (Life Cycle Assessment)
A simplified Life Cycle Assessment (LCA) conducted at the end of 2023 by CARBO, a recognized actor in carbon impact calculation, certified by the Bilan Carbone association for conducting complementary carbon assessments.
All impact calculations of our simplified LCA are based on certified, reputable, and recognized databases.
The LCA was conducted on the Pragma energy pack system (fuel cell + electronic board + bottle), excluding the bike or motor part, with a lifespan assumption of 12 years.
This LCA bases its calculations on green hydrogen produced within the Pragma Mobility ecosystem.
| en kgCO2e | Néo (hypothèse MAX) | Néo (hypothèse MIN) | Vélo électrique classique usage international | Vélo électrique classique usage France |
| Manufacturing | 210 | 232 | 378 | 378 |
| Including materials | 209 | 230 | 376 | 376 |
| Including freight | 1 | 2 | 2 | 2 |
| Uses : – Hydrogen: Production & distribution of hydrogen – E-bikes: Production and consumption of electricity according to the energy mix |
41 | 41 | 196 | 27 |
| End of life | 8 | 10 | 7 | 7 |
| Total | 259 | 283 | 581 | 412 |
| gCO2e per km traveled | 7 | 8 | 16 | 11 |
