As early as 1959, the concept of a unique water connection was proposed – that is the bond of water molecules forming a polyhedral structure, similar to a soccer ball. There are hollow cavities within this structure, comparable in size to water molecules or some gas molecules, including methane.
Recently, two Russian scientists, Vushoski and Korninova, conducted research on the energy properties necessary to transition free water molecules from a non-bonded state into the hollow cavities and vice versa.
The results indicate that the structure of water can be adjusted – specifically, the number of free water molecules in the hollow cavities can be influenced by pressure, temperature, and magnetic fields.
Thus, this “charged” water will maintain its structure for an extended period.
In natural conditions, the hollow cavities within the polyhedral water structure can contain natural gas molecules and form crystalline hydrates.
These crystalline hydrates, commonly found in permafrost, at the ocean floor, and in deep-sea environments, are a type of carbon hydrate of methane. They resemble freshly fallen snow and, in principle, can be used as a secondary fuel, but on the other hand, they pose significant dangers to life on Earth.
As early as 1988, British geologist Ben Klernel concluded that the cause of the mysterious disappearances of ships and aircraft in the Bermuda Triangle is precisely this carbon hydrate of methane. Under the influence of heat rising from the Earth’s core and other factors, methane is released from the crystalline hydrate, forming massive gas bubbles beneath the seabed.
These gas bubbles, when subjected to even minor disturbances, such as the stirring of a whale, will escape to the surface. At that point, they can engulf a vessel and drag it down into a massive whirlpool.
The gas mass that forms and rises to the surface can explode upon contact with air, leading to incidents involving flying aircraft.
Australian scientists Dzoseph Monagan and Devid Mei conducted experiments on marine vessel models in a water tank using electronic simulations, revealing that the probability of accidents caused by the aforementioned phenomenon is quite high.
The release of methane in a similar manner from crystalline hydrates, followed by combustion in the air, could potentially lead to mysterious accidents in the future.
The particularly dangerous threat to the planet is the gradual warming of Earth’s climate due to excessive carbon dioxide emissions into the atmosphere. The destruction of ecological balance resulting from human activities will accelerate the release of methane from crystalline hydrates beneath the ocean floor, leading to unpredictable consequences for life on Earth.
The first step humanity has taken to curb this natural progression is the establishment of the Kyoto Protocol aimed at preventing carbon emissions into Earth’s atmosphere.
Duy Khánh