Cold Fusion

Cold fusion: continuing mystery In March 1989, discovery shocked the scientific community. Stanley Pons and Martin Fleischman announced that they were able to create and maintain a cold fusion process. After a strong interest in the media and corresponding attention to the future test, this theme seems to gradually disappear. Future trials have proven to be uncertain and if a simple promise of simple energy is not realized, this topic will be quickly forgotten. There is little claim that the scientific community continues research to further understand the mystery of free energy.

Since scientific institutions, the hot fusion community, and many people in the news media ignore ongoing cold fusion research, it is not surprising to consider the "death" of cold fusion. Cold fusion, however, is far from death. It exists not only in dozens of laboratories in the United States but also in many foreign research centers, especially in Japan. Cold fusion, which occurs when a special form of hydrogen, called ambient hydrogen and helium, is combined with metals such as palladium, titanium and nickel, is a phenomenon of energy generation that is true, yet not explained. Typically, some triggering mechanism, such as electrical or sonic energy, is required to cause a "cold fusion" effect. Since ordinary hydrogen and helium are abundant in ordinary water, this process may end much of the world's energy problems if it can be developed commercially.

There are many differences between thermal fusion and cold fusion. Cold fusion releases large amounts of energy in the form of heat rather than thermonuclear fusion ionizing radiation. The only by-product is helium. This heat is hundreds to thousands of times that can occur in normal chemical reactions. If cold fusion is a benign nuclear reaction of a form that has not been known before (as most researchers in the cold fusion field think), one cubic mile of seawater There is a potential cold. Nuclear fusion energy cold fusion occurs in a relatively simple apparatus as compared with hot melting