Demand for renewable hydrogen to replace fossil fuels and reduce greenhouse gas emissions for transportation and power generations, and the need for sustainable and affordable waste disposal.
This solution seeks to improve the global environment by elimination waste while producing carbon-negative renewable hydrogen.

WHY Ways2H?

Our solutions will help producing carbon negative renewable hydrogen for mobility and power generation and eliminating waste by using sustainable decentralized disposal options.

Based on 40+ years
combined expertise

• Proprietary heat source.
• Proprietary thermal energy management.
• Simple and integrated design.
• Use industry-proven components.
• Embedded Carbon Capture & Mineralization.

AGM Model 5
A mobile solution that fits into 3 stackable 20’
containers

Transportable.
1 ton per day biomass feedstock yield 50kg hydrogen per day.
The equivalent of 12 full cell vehible tanks, or;
40 kw power generator (with an integrated fuel cell)

Stationary solutions,
scalable from 8 tons per day to 50 tons per day feedstock

• A local, flexible, decentralized approach to waste management that equals clean energy with virtually zero emissions.
  - A small to medium size, truly decentralized solutions clean hydrogen-rich syngas with limited to no pollutants emitted.
  - Standard 25 tons per day design.
  - Systems available from 8 tons per day.

• Developed by Ways2H
• Organic waste, including plastics, into hydrogen. 
• Over 16 years development, 3 generations of test size units built, tested and enhanced.
• Small to medium size, truly decentralized solutions to optimize
  feedstock or hydrogen logistics.
       - 1 t/day capacity transportable solution
       - Stationary 24 t/day standard design.

• The most important benefit of using hydrogen as a fuel is that when you burn it, the byproduct is just water.
• Hydrogen is a renewable energy source with an infinite supply.
• Hydrogen is a non-toxic substance that is environmentally friendly.
• Hydrogen is a highly efficient alternative to diesel or gas.
• Harnessing hydrogen as a fuel source enables the transition to a sustainable energy economy.

Storage of hydrogen as a gas typically requires high-pressure tanks (350–700 bar [5,000 10,000 psi] tank pressure). Storage of hydrogen as a liquid requires cryogenic temperatures because the boiling point of hydrogen at one atmosphere pressure is −252.8°C.
Hydrogen storage is a key enabling technology for the advancement of hydrogen and fuel cell technologies in applications including stationary power, portable power, and transportation. Hydrogen has the highest energy per mass of any fuel; however, its low ambient temperature density results in a low energy per unit volume, therefore requiring the development of advanced storage methods that have potential for higher energy density.

With 2 billion metric tons of solid waste produced globally each year with much of it ending up in our oceans and waterways, we need sustainble new methods for disposing of our waste. Diverting medical waste, plastics and othe solid waste from landfills to hydrogen production facilities can also help reduce methane emissions, wich are 84 times more harmful to the planet than carbon dioxide over 20 years.

Carbon Capture & mineralization

Combining scalable cryogenic CO2 capturing technology with energy conservation principles from Oil & Gas processing.

Unique CO2 mineralization technology transforms CO2 to non-toxic, stable and long-term storable Calciun Carbonate.

Proton exchange membrane fuel cells

Uniquely simplified and re-designed fuel cell stack at the microstructure level - more compact, lightweight and efficient.
Completely new concept of FC production with continuous production process.