Technology

Clean Energy Technology researches and develops a new procedure to convert everyday water into hydrogen and electricity. This can be used for many applications all over the world.

Our research focuses on:

Heating systems:

  • Industrial Boilers
  • Steam boilers
  • Boilers
  • household cv

Transportation:

  • Combustion engine for heavy truck.
  • Combustion engines for lighter vehicles, passenger cars.
  • Lighter electric vehicles with our new FuelCell Technology. Using the type of hydrogen produced by us, which is modified on board with an efficiency of approximately 95%!
  • Combustion engines for the shipping industry

In all cases, the fuel is produced on board for both the combustion engines and the New FuelCell Technology!

The technology in steps

Converting water into combined HHO

Our system simply starts converting water into combined HHO (hydrogen and oxygen).

H2O naar H2O

Preparing HHO for gas mixture

To prepare our combined HHO into a gas mixture, ready to be placed in an onboard storage tank.

H Atom Orbitals

Decompose gas

The gas decomposes from its charge of electricity, in a way that is similar to existing fuel cells.

H2O naar H2O

Save electricity

This is usable electricity, which is primarily stored in the onboard buffer, a battery or in the form of a hydrogen battery.

Ignition and giving off heat

After decomposition of the charged gases, the gas still retains its ability to ignite and release heat. for example in a central heating installation or a combustion boiler, which is usually the case in glass horticulture.

Collect and reuse water

After supplying the heat, there remains normal water that can be collected and returned to the water storage on board. This water can be safely reintroduced into the process and the process starts again.

Benefits of our technology

During the third and fourth steps in the process it is possible to determine the calorific values ​​and the type of combustion gases. This means that the system is able to determine the amount of heat and temperature of the flame in the combustion processes. This process is largely electronically controlled and continuously monitored.

In this way, the system always guarantees which temperatures are required to meet the heat requirement.

This also ensures that steps 3 and 4 do not require extreme amounts of hydrogen to keep the process going.

In other words, we can provide the same heat output with smaller quantities of gas than today’s regular systems.

Connect to solar panels and national electricity grid

In addition, it is possible to connect the system to solar panels, which will provide additional storage of electricity. This system makes it possible to make a direct connection to the national electricity grid. The system can operate completely independently and determine what the needs are after the system has been pre-programmed.