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As VLD Engineering, we obtain both steam and hydrogen at a much cheaper cost than electrolysis when hydrogen is used for cooling in thermal power plants. By establishing a domestic coal-burning furnace, we produce H2 from the CO gas produced as a result of combustion and use the hydrogen produced as fuel. The hydrogen produced can be used to generate electricity. There are 2 methods in obtaining electricity:
1) conversion with the help of a generator
2) steam generation and delivery to the existing steam turbine system.
In addition, the heat released during combustion is used for steam production.
As VLD Engineering, we can produce the hydrogen used during tinning in glass companies from natural gas, similar to the natural gas decomposition system. Our difference from existing systems is that we can supply pure hydrogen. Except for VLD, no company has yet been able to obtain pure h2 from natural gas degradation.
As VLD Engineering, we produce H2 from CO gas in iron and steel factories and use the hydrogen produced as fuel. The hydrogen produced either enters the furnace as a side fuel or can be used for electricity generation. If it goes into the furnace, it increases the quality of the steel. There are 2 methods in obtaining electricity:
1) conversion with the help of a generator
2) steam generation and delivery to the existing steam turbine system.
The most difficult energy source in the world to come to an end is garbage. Yes, you heard right, garbage.”
We obtain energy by storing the garbage and burning the LFG gas we produce. Unfortunately, we do this with a very low efficiency even in these years when we are moving towards perfection as engineering. But it is possible to improve this system. This system can be made more efficient by converting methane gas, which makes up more than half of LFG gas, to hydrogen. We can see in the articles that this study alone increases the electricity production of the system by 70%. What if we choose to separate the hydrogen from the remaining gases as a result of this transformation? This is possible with the VLD separator. If we prefer this method, only the carbon dioxide left over from decomposition will return to the landfill, in an amount that can increase LFG production by 3 times. The remaining pure hydrogen can be burned to produce 4.2 times more energy. To summarize briefly: We can turn our garbage into electricity many times more efficiently than the current system, without releasing any gas other than water vapor formed as a result of the combustion of hydrogen to the nature.
As VLD Engineering, we obtain both steam and hydrogen at a much cheaper cost than electrolysis when hydrogen is used for cooling in thermal power plants. By establishing a domestic coal-burning furnace, we produce H2 from the CO gas produced as a result of combustion and use the hydrogen produced as fuel. The hydrogen produced can be used to generate electricity. There are 2 methods in obtaining electricity:
1) conversion with the help of a generator
2) steam generation and delivery to the existing steam turbine system.
In addition, the heat released during combustion is used for steam production.
