JP2014025364A - Geomagnetic power generating station - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that it is becoming imperative to develop a second or third large output power generating equipment under the circumstances where in a conventional power generating unit, thermal power and hydraulic power are converted into turbine rotation energy so as to rotate a power generator to generate power, nuclear power generation, in particular, by which large output can be obtained is an indispensable existence to generate power by rotating a turbine with steam, but the safety myth of the nuclear power generation has collapsed.SOLUTION: The present invention is related to previously unheard of geomagnetic power generation. Power is to be acquired by causing geomagnetism surrounding the earth to flow in a coil installed in the South Pole. Geomagnetism is the energy that exits forever as long as the earth exists and is generated 24 hours a day, 365 days a year without being affected by weather. By installing the coil and generating power with the coil, power can be supplied all over the world in a radial fashion. This can make a safe generator, and consequently, nuclear power stations will be wiped out from the world.

Description

The present invention relates to a magnetic power generator that can efficiently generate a large amount of electricity using the magnetic force of the earth, and in particular, a power generation coil is provided at the north pole N and the south pole S of the earth to converge the magnetic force surrounding the earth. The present invention relates to a device capable of continuously generating permanent electric power by capturing.

In general, electric power can be obtained by rotating a generator using natural energy such as hydropower, wind power, thermal power, or nuclear power. However, hydropower and wind power generation depend on natural phenomena, so it is difficult to ensure stable energy at all times. Thermal power generation causes air pollution and global warming due to combustion of oil, coal, etc. and has poor thermal efficiency. Moreover, nuclear power generation has problems in terms of equipment costs, safety, and environment, and the damage has already become a reality.

JP 2009-5571 A JP 2007-306700 A

In patent document 1, it is a mechanical mechanism which combined the permanent magnet and the coil spring, and the deterioration of a spring and the maintenance of another site | part are requested | required. Furthermore, even in the case of permanent magnets, the current magnetic force is not permanent, but gradually decreases, so mechanical adjustments such as the distance between the magnets are always necessary, and there is a concern about the influence on the management.

According to Japanese Patent Laid-Open No. 2004-260688, the repulsive action of permanent magnets and electromagnets is used to convert to rotational energy and motor power generation is attempted, and surplus power is generated when the power generation capacity exceeds the original power. Is. However, in order to operate the electromagnet, the original power is still required, so there is a concern about measures such as power outages.

According to the present invention, the original energy is the geomagnetism produced by the North S pole and the South N pole on the earth, and this magnificent energy is the opposite idea of an electromagnet, by a method of obtaining a current through magnetic force. It generates electricity. There is no mechanical part, and this is possible only with electric wiring. Even if load heat is generated in the apparatus, heat generation is not regarded as a problem in an extremely cold area where the outside air temperature is minus 89 ° C. Conversely, even if it is assumed that heat has been generated, there is already a technique for converting heat generation into electric power, and the larger the temperature difference, the larger the amount of power generation. As a result, the efficiency of power generation can be dramatically amplified.

In fact, since there is a continent in Antarctica but no continent in the North Pole, it is clear that plant installation is limited to Antarctica. The land area is vast, almost double that of Australia. 98% of the continent is covered with ice, and its thickness is about 1.6 kilometers, but it is not on drift ice, so it will not be swept away and its location will not move. In fact, there is a Japanese Showa base, and there is no track record of its movement. Although the land area is magnificent, it is necessary to concentrate on the area where the magnetic density is particularly high and to construct the plant. The approximate size of the plant is 454,832,000,000 square meters, which is twice the area of Australia in Antarctica, and 4,200,000 square meters for the site of the world's largest nuclear power plant in Japan. There are about 600 nuclear power plants in the world even during construction. Even if there are 600 Amagasaki-class nuclear power plants, the area of Antarctica is only about 0.0554%. The theory is based on the assumption that the output is equivalent to that of the nuclear power plant, but it is about 5% even if the plant is 100 times larger. Not only that, but if power can be supplied from Antarctica to other countries, nuclear power plants around the world will be wiped out. The geomagnetic force is 24 hours 365 days a day, although it fluctuates regardless of the weather, it is generated almost stably and is not interrupted. At this stage, scientists from other countries are visiting the South Pole for private research. It is possible to develop jointly with other countries.

Circuit diagram of conventional electromagnet, attracting magnetic nails when electricity flows Current is obtained by bringing a permanent magnet close to an electromagnet The earth is a large magnet with S and N poles Obtain current by passing an electromagnetic field through the coil

As shown in FIG. 2, a current can be obtained by using a current flowing by bringing a permanent magnet closer to a normal electromagnet, and by installing a coil in a place with a strong electromagnetic field in the south pole as shown in FIG. The coil wiring diameter, coil diameter, and coil length are difficult to express because they cannot be tested, but in theory they function as a generator.

It is as shown in FIG.

Today, there is a real demand for a truly safe energy supply facility. It is clear that wind power, hydropower, wave power, and solar power alone cannot be supplemented to supply stable power as in conventional nuclear power generation. Thermal power generation is a power generation device that can be changed to nuclear power, but it goes against CO2 reduction. For truly safe energy, it is essential to replace the energy of the earth directly with electricity. It can be understood that realization is difficult with this invention. Naturally, the possibility of industrial use will expand if stable large power can be supplied safely at a low price.

a Iron core b Nichrome wire c Battery d Magnetic field line e Magnetic nail f Permanent magnet g Ammeter h Ammeter meter i Earth j Geomagnetism

Claims (1)

A power generator that uses natural energy to generate an electric current by passing an electromagnetic field through the coil.

Images