Dematerialization and the changing the climate
When we are talking about the dematerialization as the solution for environmental problems, we must start to think that way, that every time, when we are traveling by using private automobiles, we are creating the carbon dioxide. The carbon dioxide is the prime actor in the global warming process, and if we want to slow or stop that process, we must stop the production of carbon dioxide.
And one way to make that thing is to start to use Internet connections for traveling to work and back home. The dematerialization of the traveling would mean to benefit virtual conferences and other things for limiting traveling, where is used the transporter. This kind of things that we should transform our physical traveling to virtual reality is a little bit absurd thing, and maybe we would travel between home and workplace by using trains or some other commute transport.
The carbon footprint is the thing, what is the reason for the global temperature rise, and this is the thing, what we all know. How we can decrease the production of carbon? One of the best ideas is to transform to use the hydrogen as the fuel, as I have written many times before. The problem with the climate changing is that we all know about the medicine for that problem.
And the solution is to decrease carbon production in a very fast period. But then we are facing the thing, that we don't know how to decrease the production of the carbon production without willing to change the fuel, what we are using in the power plants and automobiles. But there are some reasons, why we cannot make that change in energy production. The thing is that we want to use hydrocarbons, what is releasing the carbon to the atmosphere. We want to use hydrocarbon because we are always done that, and there would be no alternative for that fuel.
When we are thinking about the clean solutions for energy production, the only possible way to make clean energy is not a wind turbine. The geothermal energy is more stable than the windmill, and the capillary turbine, where the air travels in a vertical way through turbines, would also offer the clean and stable way to create energy by using the wind. The thing is that every way to create clean energy is correct if they are used in the right places.
If the solar power plant would be over the cloud layer, that means the stable sunlight in every day of the year. And if the difference between the highest and lowest tidal is high enough, that would give a very good and stable way to create clean energy. But those ways would not work in the areas, where half of the year is cloudy weather, or the tidal wave is only a couple of centimeters.
When we are talking about wind energy, we must choose the place, where are enough windy days, that those windmills can create energy. Geothermal energy is the easiest to use in volcanic areas. But for creating the pressure for the tube, what conducts the steam or heat water to the turbines is needed to create the hole on the ground by using laser drill, and that hole works as the artificial geyser, what is used for boiling the water.
Also, the normal offshore oil rigs can produce hydrogen by using the turbogenerator, what would break the water molecules by using electrolysis, and this kind of thing can use the same tubes, what the natural gas uses. The production of hydrogen in this way is actually quite a clean process. The thing is that using the oil tube for giving capillary suck to the water, what would conduct through the turbine wheel, what will rotate the generator, which gives power for the electrolyzing process.
But this kind of solution might feel a little bit too radical when we are compiling it with the fusion reactor, where is needed even billions of degrees of Celsius for creating the self-maintaining fusion. Of course, that kind of things is very nice to write in the articles of scientific and popular scientific magazines. Those numbers and technologies are really fascinating, and the records of temperature are interesting to read. And maybe that technology is ready to commercial use after 100 years.
When we are talking about the dematerialization as the solution for environmental problems, we must start to think that way, that every time, when we are traveling by using private automobiles, we are creating the carbon dioxide. The carbon dioxide is the prime actor in the global warming process, and if we want to slow or stop that process, we must stop the production of carbon dioxide.
And one way to make that thing is to start to use Internet connections for traveling to work and back home. The dematerialization of the traveling would mean to benefit virtual conferences and other things for limiting traveling, where is used the transporter. This kind of things that we should transform our physical traveling to virtual reality is a little bit absurd thing, and maybe we would travel between home and workplace by using trains or some other commute transport.
The carbon footprint is the thing, what is the reason for the global temperature rise, and this is the thing, what we all know. How we can decrease the production of carbon? One of the best ideas is to transform to use the hydrogen as the fuel, as I have written many times before. The problem with the climate changing is that we all know about the medicine for that problem.
And the solution is to decrease carbon production in a very fast period. But then we are facing the thing, that we don't know how to decrease the production of the carbon production without willing to change the fuel, what we are using in the power plants and automobiles. But there are some reasons, why we cannot make that change in energy production. The thing is that we want to use hydrocarbons, what is releasing the carbon to the atmosphere. We want to use hydrocarbon because we are always done that, and there would be no alternative for that fuel.
When we are thinking about the clean solutions for energy production, the only possible way to make clean energy is not a wind turbine. The geothermal energy is more stable than the windmill, and the capillary turbine, where the air travels in a vertical way through turbines, would also offer the clean and stable way to create energy by using the wind. The thing is that every way to create clean energy is correct if they are used in the right places.
If the solar power plant would be over the cloud layer, that means the stable sunlight in every day of the year. And if the difference between the highest and lowest tidal is high enough, that would give a very good and stable way to create clean energy. But those ways would not work in the areas, where half of the year is cloudy weather, or the tidal wave is only a couple of centimeters.
When we are talking about wind energy, we must choose the place, where are enough windy days, that those windmills can create energy. Geothermal energy is the easiest to use in volcanic areas. But for creating the pressure for the tube, what conducts the steam or heat water to the turbines is needed to create the hole on the ground by using laser drill, and that hole works as the artificial geyser, what is used for boiling the water.
Also, the normal offshore oil rigs can produce hydrogen by using the turbogenerator, what would break the water molecules by using electrolysis, and this kind of thing can use the same tubes, what the natural gas uses. The production of hydrogen in this way is actually quite a clean process. The thing is that using the oil tube for giving capillary suck to the water, what would conduct through the turbine wheel, what will rotate the generator, which gives power for the electrolyzing process.
But this kind of solution might feel a little bit too radical when we are compiling it with the fusion reactor, where is needed even billions of degrees of Celsius for creating the self-maintaining fusion. Of course, that kind of things is very nice to write in the articles of scientific and popular scientific magazines. Those numbers and technologies are really fascinating, and the records of temperature are interesting to read. And maybe that technology is ready to commercial use after 100 years.
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