Climate changing and intelligent technology
Intelligent technology can offer opportunities for slowing or even stopping climate chancing. If we are thinking cases, where factory halls would have an intelligent system, what follows temperature, it can adjust the level of use of the outcoming heat, because when machines are working the temperature in the hall will increase, what means that the need of outcoming temperature is decreasing, and also the temperature, what comes from welding can take to benefit the warking.
In this case, the system would use the curved tube, which takes the exhaust gas away, that it would release the heat to the air. And why not in the offices, where computers are making very high-level heat, and the room would turn hot, the intelligent system cannot turn the radiators lower, because the needed heat would come to another place.
When we are thinking about the normal dummy thermostat, it would observe only the temperature of the radiator, but the intelligent system would follow the temperature in the air, and adjust the radiators what should flex if the temperature would be too high. When we are thinking about the factory halls, where the machines would create very high temperature, that temperature can be used to warm also offices, and that would decrease the need for the specially created warm.
But if we want to be even more ecologic, we could use many systems, which are good for creating ecological energy, and one is that the farmers can collect the waste to the chamber, where the methane, what is forming in that reaction can be taken to fuel for the own fuel cell. And the exhaust gasses of fuel cells would be driven through the active carbon filter. That means that pollution can decrease by this method very radically.
When we are thinking about the energy sources of the future, we must realize that the creation of a successful fusion reactor would be late. And if entire Europe would be addicted by one power system and one reactor, we must understand that only the minimum problem in that system can turn lights off from entire Europe. And this is why we should rather look for the other types of solutions than the one very powerful electric platform.
If we would use multiple small-size solutions the problem in one electric power unit would not cause the cutting off from the entire network. So if we want to make an ecological and faithful electric network, we should use multiple and small size solutions, which guarantees the power supply in the cases, where the one power unit cannot do its mission.
If we want to use solar power or thermal ground energy, we can benefit from those stable energy sources for creating electricity, but both of those systems can be made for creating hydrogen. And if the solar panel is above the cloud layer, it gives stable energy, and the water molecules are really easy to break to hydrogen and oxygen by using electrolysis. The hydrogen can deliver to the marketing area by using the existing natural gas tubes. But if we are thinking that the creation of hydrogen must happen somewhere near the equator, we are wrong.
Hydrogen can also create by using geothermal energy, and the hydrogen would be a good export article for states like Iceland, where is cheap to make geothermal electricity production units. But it can also be created in the northern areas by using wind and solar power, and that hydrogen can be stored for waiting for winter, where it can be used in the cases, where energy must be produced for fixing the cases, where the need of energy supply is extremely high. Hydrogen is a very good fuel for turbines, it's clean and there is no soot when hydrogen is burning. And the only waste, what that hydrogen creates in the burning process is water. So what if we would create hydrogen ourselves in the northern areas?
In the summers we can use solar panels for creating electricity, and that power can use in the electric network, but it can also be stored in the form of the hydrogen, which is created from water by using the electrolysis. Liquid hydrogen can be stored in the tanks, where is thermos layer. That gas can be used in normal gas turbines, which means that it would minimize the pollution.
Intelligent technology can offer opportunities for slowing or even stopping climate chancing. If we are thinking cases, where factory halls would have an intelligent system, what follows temperature, it can adjust the level of use of the outcoming heat, because when machines are working the temperature in the hall will increase, what means that the need of outcoming temperature is decreasing, and also the temperature, what comes from welding can take to benefit the warking.
In this case, the system would use the curved tube, which takes the exhaust gas away, that it would release the heat to the air. And why not in the offices, where computers are making very high-level heat, and the room would turn hot, the intelligent system cannot turn the radiators lower, because the needed heat would come to another place.
When we are thinking about the normal dummy thermostat, it would observe only the temperature of the radiator, but the intelligent system would follow the temperature in the air, and adjust the radiators what should flex if the temperature would be too high. When we are thinking about the factory halls, where the machines would create very high temperature, that temperature can be used to warm also offices, and that would decrease the need for the specially created warm.
But if we want to be even more ecologic, we could use many systems, which are good for creating ecological energy, and one is that the farmers can collect the waste to the chamber, where the methane, what is forming in that reaction can be taken to fuel for the own fuel cell. And the exhaust gasses of fuel cells would be driven through the active carbon filter. That means that pollution can decrease by this method very radically.
When we are thinking about the energy sources of the future, we must realize that the creation of a successful fusion reactor would be late. And if entire Europe would be addicted by one power system and one reactor, we must understand that only the minimum problem in that system can turn lights off from entire Europe. And this is why we should rather look for the other types of solutions than the one very powerful electric platform.
If we would use multiple small-size solutions the problem in one electric power unit would not cause the cutting off from the entire network. So if we want to make an ecological and faithful electric network, we should use multiple and small size solutions, which guarantees the power supply in the cases, where the one power unit cannot do its mission.
If we want to use solar power or thermal ground energy, we can benefit from those stable energy sources for creating electricity, but both of those systems can be made for creating hydrogen. And if the solar panel is above the cloud layer, it gives stable energy, and the water molecules are really easy to break to hydrogen and oxygen by using electrolysis. The hydrogen can deliver to the marketing area by using the existing natural gas tubes. But if we are thinking that the creation of hydrogen must happen somewhere near the equator, we are wrong.
Hydrogen can also create by using geothermal energy, and the hydrogen would be a good export article for states like Iceland, where is cheap to make geothermal electricity production units. But it can also be created in the northern areas by using wind and solar power, and that hydrogen can be stored for waiting for winter, where it can be used in the cases, where energy must be produced for fixing the cases, where the need of energy supply is extremely high. Hydrogen is a very good fuel for turbines, it's clean and there is no soot when hydrogen is burning. And the only waste, what that hydrogen creates in the burning process is water. So what if we would create hydrogen ourselves in the northern areas?
In the summers we can use solar panels for creating electricity, and that power can use in the electric network, but it can also be stored in the form of the hydrogen, which is created from water by using the electrolysis. Liquid hydrogen can be stored in the tanks, where is thermos layer. That gas can be used in normal gas turbines, which means that it would minimize the pollution.
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