The NIMEC Group presents Hydrogen PLANT Project (HPP) for obtaining the pure Hydrogen as H₂ gas. Today, the conversion to carbon-free energy is considered as fact, and the general trend to improve the environmental friendliness of the economic activity of entire countries of the world has become the subject of numerous disputes, discussions and development of strategies for the transition to a new energy structure. Yes, now hydrogen is dirty production. For every kilogram of hydrogen produced, 9 to 10 kg of carbon are emitted. This hydrogen is called "gray". We offer a technology by which the emissions of carbon or carbon-containing gases into our environment are completely eliminated. Green hydrogen is hydrogen without emissions. It is imperative to keep the rise in global temperatures well below 2°C to meet the Paris Agreement carbon emissions targets.

In the production of hydrogen, we also obtain dry ice. Dry ice, carbon dioxide in its solid form, a dense, snowlike substance that sublimes (passes directly into the vapour without melting) at −78.5°C (−109.3°F), used as a refrigerant, especially during shipping of perishable products such as meats or ice cream. Dry ice is used for freezing at ultra-low temperatures or freeze drying without using water to preserve food, extending its shelf life. Dry ice can also be used for keeping foodstuff cool, such as on aircraft where refrigeration systems are not available.

Methane CH₄ have a higher caloric value than coal C. It should be noted that when coal C is used as a fuel, volatile substances that are contained in coal C are released into the atmosphere. Combustion of pure methane CH₄ gas releases carbon dioxide CO₂ and water H₂O. Carbon dioxide CO₂, subsequently, is processed by trees using the photosynthesis reaction.

Below is a basic process diagram. We see that the use of calcium carbonate CaCO₃ can be cycled or calcium carbonate CaCO₃ obtained in its pure form can be used for sale. In this process, we use coal and limestone as raw materials. We use thermal decomposition of calcium carbonate CaCO₃ with coal C. Then cool the sediment with water H₂O, and making the separation of ash (sediment) and calcium hydroxide Ca(OH)₂ solution. The sediment is ideal material for construction? special for 3D house printing. The calcium hydroxide Ca(OH)₂ solution is separated from the water content. Pure calcium hydroxide Ca(OH)₂ power is heating up to 400°C carbon monoxide CO. Portion of coal is firing for the heat production. The resulting hydrogen H₂ and carbon dioxide CO₂ are used in the Sabatier reaction to produce methane CH₄.

Waste-to-energy (WtE) or energy-from-waste (EfW) is the process of generating energy in the form of electricity and/or heat from the primary treatment of waste, or the processing of waste into a fuel source. Our company offers a comprehensive solution for transforming biomass (timber debris, diseased and fallen trees, waste wood, agricultural waste and SRF) into fuel, methane gas and electricity.

During the transformation process, we receive pure calcium carbonate CaCO₃, a mixture for the production of detergents, nitrogen gas, oxygen gas, dry coal and a filler mixture for a 3D printer that prints houses and buildings. Our process is cost-effective because it uses electricity from our own production and sells the excess to the distribution network.