The United States military understands that its branches must revamp their thinking of how to engage in the theater of war in the brand-new, post-Cold War world of the 21st century.
One thing that the military leaders stress is the desire for the forces deployed in the theater to be able to be more energy-independent.
Presently the US armed force has policies and procedures in place to engage with allies or considerate local populaces to assist its forces in the field get their required energy and clean water when taken part in a foreign military campaign.
However, this is not completely reputable, as the US may well discover itself facing unilateral military activities, or have itself in a scenario where its allies can not assist it with the resources it needs to conduct its military actions successfully.
The United States armed force is very interested in specific alternative energies that, with the right research and development technically, can make it energy independent, or at least a fantastic offer more so, on the battlefield.
The military is impressed with how clean-burning nuclear reactors are and how energy efficient they are. The most popular thing that the United States military believes these small nuclear reactors would be beneficial for includes the elimination of hydrogen (for fuel cell) from seawater.
Seawater is, in reality, the military’s highest interest when it comes to the matter of alternative energy supply. Safe and clean water and hydrogen for power are 2 of the things that a near-future deployed military force will need many of all.
In the cores of atomic power plants which as specified above are devices extremely intriguing, in portable type, to the US military we come across temperatures higher than 1000 degrees Celsius.
When this level of temperature is mixed with a thermo-chemical water-splitting treatment, we have on our hands the most efficient methods of breaking down water into its part, which are molecular hydrogen and oxygen.
The minerals and salts that are included in seawater would have to be drawn out via a desalination procedure in order to make the method clear for the water-splitting procedure.
These might then be used, such as in vitamins or in salt shakers, or just sent back to the ocean (recycling).
Utilizing the power of nuclear reactors to extract this hydrogen from the sea, in order to then input that into fuel cells to power advanced planes, tanks, ground lorries, and so on, is plainly high on the R & D concern list of the military.