Military Ways to Use Alternative Energy


Military Ways to Use Alternative Energy

The US military knows that its branches must change their thinking about how to engage in a "theater of war" in the new post-Cold War 21st century world. One thing emphasized by military leaders is the desire of troops deployed in the theater to be able to become more energy independent. At present the US military has policies and procedures to interact with sympathetic allies or local residents to help their troops in the field get the energy and clean water needed when involved in foreign military campaigns. However, this is not entirely reliable, because the US may find itself facing unilateral military activity, or owning itself in a situation where its allies cannot help with the resources needed to carry out its military actions successfully.

The US military is very interested in certain alternative energies which, with the right research and development of technology, can make energy independent, or at least more, on the battlefield. One of the things that is very interesting for the military along this line is the development of small nuclear reactors, which can be portable, to produce local-theater electricity. The military is impressed by how nuclear reactors clean and how energy efficient they are. Making them portable for the typical warfare of very mobile small-scale military operations today is something they are researching. The most striking thing is that the US military considers this small nuclear reactor useful for involving removing hydrogen (for fuel cells) from seawater. He also thinks that turning seawater into hydrogen fuel in this way will have a less negative impact on the environment than the current practice is supplied in the field.

Military Ways to Use Alternative Energy
Military Ways to Use Alternative Energy

Seawater is, in fact, the military's highest interest when it comes to alternative energy supply problems. Seawater can be "mined" endlessly for hydrogen, which in turn will strengthen sophisticated fuel cells. By using OTEC, sea water can also be changed without stopping into drinking water that does not contain salt. Drinking water and hydrogen for electricity are two things that will require the closest future military power.

At the core of a nuclear reactor - as mentioned above is a very interesting device, in portable form, to the US military - we face temperatures of more than 1000 degrees Celsius. When this temperature level is mixed with the thermo-chemical water separation procedure, we have the most efficient tool for breaking water into its component parts, namely molecular hydrogen and oxygen. Minerals and salts contained in seawater must be extracted through a desalination process to make a clear path for the water separation process. This can then be used, such as vitamins or salt, or sent back to the sea (recycling). Using the power of a nuclear reactor to extract this hydrogen from the sea, then inserting it into fuel cells to drive advanced airplanes, tanks, land vehicles and the like, clearly high on the military R & D priority list. .

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