The US military knows that its branches must redefine their thinking about entering the "theater of war" in the new world of the 21st century after the Cold War. One thing military leaders insist is that the forces used in the theater become more energy-free. The United States military currently has policies and procedures in place to contact allied or local populations and to help its local armed forces maintain the energy and clean water they need when used in a military foreign campaign. . However, this is not entirely reliable because the United States may be facing unilateral military activity or may be in a situation where its allies will not be able to help with the resources it needs to perform its military actions.
The United States military is very interested in some alternative energy which, with appropriate research and technological development, can make them independent energy or at least more on the battlefield. One of the things of great military interest in this sense is the development of small nuclear reactors that can be portable to produce local electricity. The military is impressed by how clean the nuclear reactors are and how energy efficient they are.
The United States military is very interested in some alternative energy which, with appropriate research and technological development, can make them independent energy or at least more on the battlefield. One of the things of great military interest in this sense is the development of small nuclear reactors that can be portable to produce local electricity. The military is impressed by how clean the nuclear reactors are and how energy efficient they are.
They are looking to make them wearable for the common high-mobile war and small military operations. The most important thing that the United States military believes is that these small nuclear reactors will remove hydrogen (for fuel cell) from sea water is to convert water from sea water up to hydrogen in this way will have less negative impact on the environment as his current practice of staying in the soil.
In fact, sea water is the military's greatest interest in providing alternative energy. Seawater can be "extracted" indefinitely for hydrogen, which in turn drives advanced fuel cells. In OTEC, seawater can also be converted indefinitely into desalinated drinking water. Drinking water and hydrogen for electricity are two of the things a force needs in the near future.
In nuclear-powered cores, which, as mentioned above, are very interesting devices for the American army in portable form, we encountered temperatures above 1000 degrees Celsius. If this temperature level is mixed with a process of thermochemical separation of water, we have the best method of dissolving water in its constituents, which are molecular hydrogen and oxygen. Minerals and salts in seawater must be obtained through a desalination process to give way to the process of water splitting.
In fact, sea water is the military's greatest interest in providing alternative energy. Seawater can be "extracted" indefinitely for hydrogen, which in turn drives advanced fuel cells. In OTEC, seawater can also be converted indefinitely into desalinated drinking water. Drinking water and hydrogen for electricity are two of the things a force needs in the near future.
In nuclear-powered cores, which, as mentioned above, are very interesting devices for the American army in portable form, we encountered temperatures above 1000 degrees Celsius. If this temperature level is mixed with a process of thermochemical separation of water, we have the best method of dissolving water in its constituents, which are molecular hydrogen and oxygen. Minerals and salts in seawater must be obtained through a desalination process to give way to the process of water splitting.
These can be used as vitamins or salt shakers or simply return to the ocean (recycling). The use of nuclear power plants to extract this hydrogen from the ocean and then transport it to fuel cells in aircraft, tanks, ground vehicles and other advanced equipment is high at list of military R&D priorities.
