DE19716575A1 - Method for making use of the natural power of lightning to lift a rocket or by converting to an alternative form for storage - Google Patents

Abstract

A lightning conductor leads to a water resistance chain or light reflector in a container and the electrical power converted to steam to drive a turbine or light to power a huge laser. Lightning striking an elevated conductor (1) is conducted into electrically insulated containers (4) in which a tube of water (3) provides sufficient resistance to reduce the voltage and current of the lightning, vaporising the water to drive a turbine (5). Alternatively, the power generated can be used to cause a rocket to lift off or the light from the lightning strike to power a laser.

Description

The natural phenomenon of thunderstorms followed by lightning and sound energy. From humans admired with respect. There is often a desire to harness these energies. One always speaks of batteries or large capacitors that have these huge energies should save. The battery would be too sluggish, a capacitor too big and too expensive. Because a flash lasts from 30 milli seconds to 0.5 seconds and up to 1000,000,000 [V] and up can have to 30,000 [A] at best. It also sends a broadband flash Radio waves and sound energy from several kilowatts. A flash of 400 milli. sec. and 200,000,000 [V] and 15,000 [A] is an output of 333 333.33 kWh. You have to assume an earth resistance of 0.000 Ohm. Usually the rest Energy used underground depends on the earth's resistance. The lightning strike usually forms one or several ceramic tubes that you can dig out at this point.

In my invention, the voltage of the flash is passed on a resistance chain (water resistance chains # 3 in several containers # 4 ).

The resistor chain can also be used as a large pump tube for a giant LASER be executed whose light via power light guide or other media such. B. can be directed to the consumer via mirrors. It would be with such a laser possible (although I think that is dangerous.) to ignite a nuclear fusion. Or sending light signals to galaxies far away. Because there is none on the moon Lightning gives you the possibility to use the natural LASER energy on the moon.

The resistance chain can also consist of water.

With one kWh you can heat 8 liters of water from 16 degrees Celsius to 100 degrees Celsius. Or 2 liters of water from 16 degrees Celsius to 500 degrees Celsius with 1.4 kWh and an efficiency of 0.8 (hot water tank). If you heat water (mountain water or tap water) with electrodes, you achieve a better efficiency. For a steam power plant you need a temperature of around 500 degrees Celsius to drive the turbines. With 333 333.33 kWh you can heat approx. 476 190.47 liters of water to 500 degrees. With this amount of water, a resistance R = 200,000,000 [V] / 15,000 [A] is equal to 13,333 K ohms. Tap water with lime has 2.4 m with a length of 1 m and 1 q mm cross section. 13.33 K ohms = 180 × 2.4 M ohms connected in parallel, i.e. cross-section 180 mm square and 1 m length. That is 0.18 liters. Or 3.4428 sqm area and a length of 138.3 m. This length can be broken down into 24 parts. 5.7625 m pieces with the same area. These water columns Fig. 1, Fig. 2 with the number 3 must be in an electrically insulating pressure housing No. 3 (pressure housing No. 3 is to be understood as an insulating container with all-round pressure relief valves) or plastic hose No. 3 (this pressure housing that No. 3 ) and have overpressure valves and designed as a plastic film, simply evaporate with the water and thus whiz through turbine No. 5 and FIG. 1 through nozzle No. 6 . . .

Around the pressure housing (with water-filled film tube) No. 3 , a second pressure vessel Fig. 1, Fig. 2 No. 4 must be thermally insulated at a distance. In order to better conduct the lightning into the resistor chain, the lightning trap line Fig. 1, Fig. 2 No. 1 can be ionized by high frequency or grounded via a sensitive high-voltage fuse to briefly achieve a low-resistance lightning strike path. Even cheaper is the water column hose No. 3, which can be automatically lowered from above with a motor, to be provided with a low-resistance ignition cable that can be more and more low-resistance and thicker down to earth in order to be able to absorb different flashes of different power. This means that the water column hose No. 3 evaporates only half because the thickness of the ignition strip directs the rest of the flash down over the ignition strip. It is ideal if the steam pressure container No. 4 in different container levels and different ignition strips, i.e. the upper ignition line No. 3 of the upper container level No. 4 burns out at 30 amperes and the lower container level No. 4 will burn several hundred amperes. In the case of a flash with a lower energy dose, the steam can still be directed from the upper steam pressure vessel into the turbine room No. 5 , which is mainly Fig. 2 (steam turbine power plant) or, incidentally, Fig. 1 (power supply rocket) for power generation be used. The last second pressure housing forms a hose that leads to steam power plant No. 5 and generates the electricity or supplies the steam power to a mobile energy consumer ( FIG. 1, for example a rocket).

Claims (5)

1. An arrangement (according to which the natural energy is captured, the arrangement can be mobile), FIG. 1 or FIG. 2, which utilizes the natural energy lightning by the fact that the current from a lightning arrester No. 1 via a medium No. 3 (water can be around to evaporate or pure electrical resistance that can act as a heat generator but can also be designed as a gas-filled tube for LASER purposes) that is able to absorb energy in a physically different form and is grounded. The arrangement is characterized in Fig. 1, Fig. 2 that the container used with the number 4 marked act as a pressure container, thermal container or light reflector of a laser. 2. A rocket (mobile arrangement) according to claim 1, which is characterized in that according to FIG. 1 the current of a natural lightning is used which is captured by a lightning rod. Preferably marked by a lightning arrester line with the number 1 which hangs on a balloon filled with light gas (e.g. hydrogen) and which can be exposed to a high frequency to better attract lightning by ionization. Furthermore, the current of the lightning via the cabin No. 2 is then led to the earth via the consumer No. 3 . 3. A rocket (mobile arrangement) according to claim 1., 2. characterized in that the fuel energy or natural energy can be contained in one or more containers and their consumers with the number 3 marked with different current-dependent ignition strips in several containers No. 4 marked can be accommodated. 4. An arrangement (not and mobile arrangement) according to claim 1, 2, 3, characterized in that the natural energy can be enclosed in several containers approximately 200 m high and 50 m in diameter, which can stand side by side in a circle and the Lightning catchers marked with the number 1 can be directed successively to the container number 4 , which can be energy containers of different physical energy and can be used for different purposes, not excluded also electrostatic motors which can share part of the N. energy . 5. A natural power plant (not mobile, Fig. 2) according to claim 1., 2., 3., 4. characterized in that the containers or several container towers with the number 4 marked switchable energy discharges can have the Energy on turbines for power generation or, in special cases, light energy or thermal energy via optical fibers to the primary consumer.