DE102011009078A1 - Method for creating and storing of electrical power from e.g. sand in country-side energy-producing plant, involves conveying bulk material to silo using alternative energy sources and power generators of conveyor - Google Patents

Abstract

The method involves making a material discharge port at a lower part of a silo outlet (2) and a slider into a slot-shape, where troughs of a trough drum run over entire axial length of the trough drum. Bulk material is made to fall from the silo outlet to the slider. The bulk material is conveyed to a silo (1) using alternative energy sources and power generators of a conveyor, where the alternative energy sources are designed as a wind-power plants or a solar power plant. A cable drum is flanged on the power generators.

Description

State of the art:

Already obtained electrical energy can not be stored sufficiently well to retrieve the energy as needed, especially at night. If necessary, water or steam turbines have been run up consuming. Pumped storage power plants with reservoirs are too few and can not be used in arid regions. Nuclear power plants are dangerous. Solid, flowing masses such as sand, boulders, earthenware as grain are not yet used to drive generators, although this festgut occurs worldwide. Reservoirs and storage lakes are sources of danger with regard to biological diseases and their hydraulic pressure on the geological conditions in their environment. The alternative energy sources of wind power and solar energy do not work at any time of day, under adverse environmental conditions, they do not work, and they can not save energy. Previous attempts to store energy with liquid salt do not work definitively and are energy consuming and thus costly; they also create dangerous residues. Movable masses from festgut have not been recognized as an alternative energy source.

Task:

With the help of solid masses, energy-generating plants should be operated on the shore and on the lake side in order to store electrical energy available. Alternative sources of energy should be integrated and used in the plants and processes. On steam and water turbines should be waived. The plants should also be operated in regions without water. The plants should be operated and used alternately between day and night.

Solution of the tasks:

For the generation and storage of electrical energy solid masses such as sand, earthenware, grain are first in silos 1 Para. 1 stored. Several silos can be stacked 2 be arranged on a slope or on a supporting structure, but several silos can also be arranged side by side. From the upper silos slips or flows through the Festgut Auslassschlitze 1 Para. 2 on open slides Ziff. 5 over to silos below, or directly onto a drum 2 Para. 6 . 3 , Para. 6 . 4 Para. 6 , The heavy solid material falling into the hollows of the drum moves the drum of the drum. 6 circular, with the drum a flanged generator Ziff. 7 4 , drives. The rows of troughs run over the entire longitudinal axis of the trough drum Ziff. 6 , The troughs are just below the outlet slots ( 1 Para. 2 .), so that the festgut not with too much force on the drum Ziff. 6 hits. After the bowl drums Ziff. 6 the party falls directly on conveyor belts 3 Para. 10 . 11 , which with its own electric motor Ziff. 8th transport the festive property back to the silos; while alternative energy can be used. Or the festivities fall after the drum drums in lower-lying silos to be cached there until later with the help of alternative energy, the solid material is conveyed back to the top silos via conveyor belts. According to 7 Festgut also comes in the form of solid blocks, cubes and the like, for example made of concrete used. From a platform 7 Para. 13 and via a cable drum Ziff. 14 becomes a heavy weight Ziff. 16 drained into the water of a sea or lake; while the cable drum 14 rotated, and the rotary motion is transmitted to a power generator flanged to the cable drum; Electrical energy is generated, which is forwarded to the public network or directly to the consumers. Later, the heavy mass Ziff. 16 with the help of wind power, solar power and the like pulled up to the platform. In doing so, the generator drives point no. 15 the cable drum Ziff. 14 at. The platform rests on pylons Ziff. 19 , According to 8th is a platform Ziff. 26 built on the mainland near the coastline, from where heavy masses 16 over a cable 22 a cable drum 14 driving, which in turn transmits its rotary motion to a power generator, wherein electrical energy is generated. Braces Ziff. 21 secure a chute point 23 on which the heavy masses 16 slide over the waterline to the deep waters to sink from there into the depths. With the help of alternative energies such as wind power Ziff 18 , Solar power Ziff. 17 8th and 9 are the heavy masses via power generator Ziff. 15 and cable drum 14 to platform no. 26 pulled up.

Achievable benefits:

For the operation of the methods and systems claimed here extra expensive and complex water and steam turbines are not necessary. With the help of solid masses mm generators can be driven by cable drums; but the generators can also use electrical energy from outside, to operate the equipment from case to case with external energy. This allows energy to be stored easily, anywhere in the world, and accurately retrievable. The facilities can be operated inland, on the coast and in the sea. The drive means, the heavy masses, are not lost, but can be reused in a permanent cycle. The solid masses used here always move down, while the sun and the wind are not always available. The procedures and facilities are similar to the local conditions and are therefore always available. The current account improves greatly when the bulk material from the silos 1 ff. does not need to be returned to 1, but if it is after the silos and after the drum drums para. 6 loaded directly onto heavy goods vehicles and transported to construction sites. Can be used in gravel pits, quarries and the like, so that new solid material for the silos is newly produced in this case, to replenish the silos. When applying the method claimed here, no pollutants arise; Natural resources, as well as precious water, are not wasted and not destroyed. On salt for storing electrical energy with the complex procedures and problem-laden residues, as one tries in solar thermal can be dispensed with altogether. The manufacture of the materials and equipment according to the methods claimed herein are much cheaper and simpler than the high quality plants for water turbines and steam turbines. Steam turbines consume too much precious water, which can now largely be dispensed with. The depletion of water can be stopped, and this has a useful and meaningful effect on nature and the climate. Digits Nos. characters Designations. 1 1 Silo for solid bulk materials such as sand, grain of stone. 2 1 Silo outlet, slit-shaped, with longer length. 3 1 Silo open at the top or with covers. 4 1 Structure for storage of silos 5 2 Slide on silo outlet 6 2 Drum drum for holding bulk material in the wells 7 4 Generators flanged to the bowl drum 6 8th 3 Electric motors for driving the conveyor belts 10 . 11 , ff. 9 3 Trap plate for bulk material 10 3 conveyor belt 11 3 conveyor belt 12 3 Structures for the conveyor belts 13 7 Platform in the sea 20 14 7 Cable drum with cable 15 7 power generator 16 7 Heavy weight at the end of the cable 17 7 Solar thermal systems, Voltaik. Solar power plants. 18 7 Wind turbines 19 7 Pylon's structure for the platform 20 7 Deep waters. Sea. Deep sea. 21 8th Strive for the storage of slides 23 22 8th Cable from the cable drum 14 23 8th Slide for heavy weight 16 24 8th The mainland directly at the deep waters 25 6 Bottom total storage silo, conveyor belt and generator 7 see FIG. 8 Plant of Figure 8 here with the wind turbines.

Claims (3)

Main claim for method and technology for the generation and storage of electrical energy by solid flowing or slipping masses with drum mills or cable drums and generators, on land or sea side, in conjunction with alternative energy sources, characterized in that silos 1 Clause 1 and 2 flowing or sliding solid material such as bulk material from sand, stone graining, debris in the hollows of a hollow drum 2 and 3 Para. 6 , and 4 Para. 6 falls and drives them in such a way, that one at the bottom drum 4 Para. 6 flanged power generator 4 Para. 7 is driven while generating electrical energy, which is routed to the public grid or directly to the consumer. Furthermore, characterized in that the bulk material from the silos 3 after the drum of a drum Ziff. 6 directly on conveyor belts 3 Para. 10 . 11 falls from where the solid, flowable mass of bulk material to the silos Ziff. 1 is transported back, the conveyor belts of its own electric motors Ziff. 8th are driven. Furthermore, characterized in that the bulk material after the drum drum Ziff 6 ultimately falls into underlying or standing larger storage silos 6 Clause 25 from where the flowing masses of bulk material with the help of alternative energy sources with a generator 6 Para. 7 via conveyor belts Ziff 8th to the upper silos 3 be transported back. Furthermore, characterized in that the silos one above the other or side by side on structures 1 Clause 4 , or are stored on a natural or technical slope, and that bulk material may fall from silo to silo. In the silos, screw conveyors, vibrators and slides can be used 2 Para. 5 be installed and installed. The silos are open at the top 1 Para. 3 , or they have a cover with closable flaps, through which the bulk material can come from the conveyor belts in the open state. Furthermore, characterized in that under each silo a hollow drum Ziff. 6 is arranged, or that only such a hollow drum with generators is shown on the last, lowest silo. Furthermore, characterized in that all the electrical devices and facilities throughout the plant are shown so that electrical energy can be released to the outside, while on the other hand electrical energy from alternative energy sources such as wind power, solar power, water power and other sources can be added to to operate the plant, especially to transport the bulk material back to the silos via conveyor belts. Furthermore, characterized in that the system generates electrical energy at night with their process and technology, while during the day with foreign energy as vorbezeichnet the bulk material is stored with its masses in the upper silos again to repeat the production process at night. Furthermore, characterized in that the respective material outlet at the lowest point of the silos 1 Clause 2 and 4 Clause 5 slotted with slide and is just as wide as the drum drum Ziff 6 is long, and that the hollows of the drum drum Ziff 6 extend over the entire axial length. Furthermore, characterized in that the drum drums Ziff 6 just below the respective outlet slot 1 Para. 2 , and ( 5 Para. 5 above) are arranged. Furthermore, characterized in that the bulk material from each silo on a tightly arranged below its own drum trunk 3 Para. 6 falls, or that the bulk material from the top to the bottom silos 2 falls to a drum arranged on the lowest silo drum. Furthermore, characterized in that the bulk material from all upper silos to a lowest bulk silo 6 Para. 25 falls and is cached here. With the help of alternative sources of energy, the bulk materials become silos via the generators on the conveyor belts 1 Para. 1 highly promoted. Claim 2, characterized in that solid masses such. As cubes or cubes of concrete from a platform, the point in the sea and on pylons. 19 7 is anchored 7 Para. 13 , via cable drums 7 Para. 14 and hanging on a cable into the water depth Ziff. 20 be drained while doing power generators 7 Para. 15 driving on the cable drum Ziff. 14 are flanged. The generators can drive the drum to bring the heavy masses back to the platform. The generators receive the electrical energy from alternative energy sources. Claim 3, characterized in that platforms 8th Clause 26 on the mainland directly on the waterline of the sea or deep water are installed, and that via a cable drum 8th Para. 14 solid masses Ziff. 16 on a cable Ziff. 22 hanging over a slide Ziff. 23 into deeper waters. 7 Para. 20 can be drained, the cable drum Ziff. 14 at least one flange-mounted power generator (para. 15 7 and 8th ) drives. The cable drum drives the power generator, or vice versa as needed 7 The generator drives the cable drum to bring the solid weight from the sea depth back to the platform, with alternative energy sources such as wind turbines Ziff. 18 or solar energy systems Ziff. 17 come into use.

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