Conversion of biomass
Different types of energy carriers can be produced more or less directly and with varying degrees of technical efficiency from different types of biomass: solid fuels (wood, briquettes, pellets, wood chips, wood powder, charcoal), liquid fuels (methanol, ethanol, biodiesel, synthetic petrol), gaseous fuels (biogas, synthesis gas, hydrogen). We use CO2 negative bio grass convertes into bio coal that is CO2 negative to produce hydrogen.

To create hydrogen from water, a process called electrolysis is used:

Materials Needed: Water (H2O), two electrodes (anode and cathode), power source (we use solar energy))

Process: Electricity splits water into hydrogen ions (H+) and oxygen ions (OH-).

Hydrogen collects at the cathode, while oxygen collects at the anode.

Applications: Hydrogen can be used for fuel, energy storage, industrial processes and to produce electricity.

Hydrogen generates electricity through a fuel cell

Hydrogen Input: Pure hydrogen enters the anode. Electrochemical Reaction: Hydrogen splits into protons and electrons. Electrons create an electric current. Cathode Reaction: Protons, electrons, and oxygen form water at the cathode. Electricity Output: The electron flow produces electricity. Efficiency and Cleanliness: Fuel cells are highly efficient and emit only water vapor.

Hydrogen fuel cells represent a clean and efficient means of electricity production. The waste product is water.

The production of biograss, biomass, and biochar is inherently energy-efficient and economically viable. We're advancing even further. The conversion of the hydrogen carrier (biochar) into hydrogen demands substantial energy input. To address this, we employ a solar park strategically positioned to harness the maximum sunlight hours for optimal efficiency. This not only supports the energy needs of the agricultural operations but also generates surplus electricity for the local farming community.