WO2020139066A1

WO2020139066A1 - Bioplasma generator for producing electrical energy from plant mass

Info

Publication number: WO2020139066A1
Application number: PCT/KZ2019/000025
Authority: WO
Inventors: Кулдархн Нурсапаевна АЛДИБЕКОВА; Шолпан Нурсапаевна АЛЬДИБЕКОВА; Сауле Мырзабековна ДЮСЕМБИНОВА; Эльмира Омирсериковна КЫДЫРБАЕВА; Ляззат Калымбековна ЕРКИНБАЕВА
Original assignee: Кулдархн Нурсапаевна АЛДИБЕКОВА; Шолпан Нурсапаевна АЛЬДИБЕКОВА; Сауле Мырзабековна ДЮСЕМБИНОВА; Эльмира Омирсериковна КЫДЫРБАЕВА; Ляззат Калымбековна ЕРКИНБАЕВА
Priority date: 2018-12-26
Filing date: 2019-12-26
Publication date: 2020-07-02
Also published as: WO2020139065A1; EA201900098A1

Abstract

The invention relates to the field of green energy derived from plants in a state of anabiosis and can be used in the construction of environmentally-friendly electric power stations for supplying electrical energy to small-scale industrial sites and residential areas with the aid of a bioplasma generator designed to utilize the stage of anabiosis in tall plants disseminating neutral electrical charges in a bioplasma medium. A bioplasma generator is comprised of a biogenerator unit, a capacitor unit, and an accumulator. The biogenerator unit consists of containers containing phytoelements and metals (the galvanic couples Zn and Сu; Аl and Сu; Аl and С; Zn and Аl). The phytoelements, provided with graphite electrodes, are connected in series by conductors with the aid of a special soldering technique involving ammonium chloride and are placed in container sectors and compacted with wood pulp and/or other biomaterials (for example, dry seeds and bark) in a specific order in order to utilize the effect of coherent electrical interaction (the phenomenon of synergism). All the phytoelements have the same polar orientation in the ionosphere-Earth system. Once the phytoelements have been installed and soldered, they are sealed in a plastic mass for electrical and thermal insulation.

Description

Bio il; she generator

length of electricity from plant masses

The invention relates to the field of green energy, in which plants which are in a state of suspended animation are used and can be used in the construction of environmentally friendly natural power plants for powering small industrial facilities and settlements. In addition, the proposed invention can be used to accumulate electric: charges the antitropic and entropic nature of plants, as well as the production of electricity through the use of plant masses in an attiotic state.

A device is known for implementing a method for producing electric energy from a natural source of electricity. Graphite containing rocks accumulating electric notenal are used as a natural source. A network of positive and negative conclusions located in various zones of conductive grades of state rocks is connected to the potential by summing devices, which allows raising the voltage of a natural source of electricity to the required level.

A disadvantage of the device are energy losses due to inefficient use of the potential energy of the adder Shh relay or transistor, since the voltage increase of the external circuit series connection of several natural surfer n and electricity on Cove ^(t ytazraen folded afitsoderzhaschih rocks limited (RU F? J 999r 124822. YUDN )

I breeze the excitement of the most effective isdegroenergy and biochemical-based chip containing an anode inside the electrolyte container with a biochemistry compound, the first electrode and the second electrode, the electrodes being separated from each other and immersed in electrolytes.

The disadvantages of this electric power source are low energy efficiency, high electric power source cost and high operating costs due to the use of pure nickel, cadmium, aluminum and other structural materials and reagents necessary for generating electric current (RU * 621 t, 10.1 L 2000).

And her TV are those; 1 b Ole ctrochemies in a rutting organ and oxycodal wastewater compound as a substrate for electricity production. The biological reactor is designed as an eccentric vessel, including anode and cathode cores, each with a cathode membrane located, each cathode between two plates of anode electrodes. The sections are formed by flat partitions containing an opening for the flow of the liquid phase. The anode electrodes are bundles of carbon fiber, wound on a frame in the form of a parallelepiped with the formation of four surfaces of the fiber and four internal channels for the passage of the liquid phase. The cathode electrodes are air cathodes with a controlled supply due to the capillary effect of a minimum amount of cathode electrolyte to create a liquid film on the surface of the cathode electrode.

The disadvantages of this technical solution are: the limited yen of the faults of the biocells of the three-phase reactor in terms of the substrate used, as well as small output voltages. In view of the relatively low specific area of the carbon material of the anode (the carbon fiber wound on the skeleton), there are gusses on its surface! it is the formation of an electronic microbial community, including the number resulting from leaching of the electrogein microflora by a fluid stream (RU. 2496187, 10.20.20.13 g}.

As the closest analogue, a fuel element was selected that works during the oxidation of organic substances using microorganisms, consisting of an anode and cathode chambers containing an anode and a cathode, respectively, separated by an ion-exchange membrane and filled with a spit, the anode chamber with nozzles contains an aqueous solution of organic substances and microorganisms that oxidize organic substances, the cathode is made of air from constantly moistened material to create a liquid film on the surface of the cathode, while the anode and cathode are made of carbon felt with a large surface area, and holes are made in the anode for it is not redirected to the ion-exchange membrane, wherein the anode chamber has an inlet pipe located in its lower part and an outlet pipe located in its upper part.

The disadvantages of these biofuel elements are their low power, which limits their practical use, as well as their high cost due to the use of carbon felt with a large specific surface area for the anode and cathode (RU: 145009 Ш, 30.12. 013}.

The task and technical result of the present invention is the generation of electricity using a bioshashmeshshgo generator, which is designed using the stage of suspended animation of plants that dissipate neutral tertiary charges in a bisplasma medium.

The claimed technical result is achieved by the fact that a biogas displacement generator is proposed, which is equipped with a biogenerator unit, a capacitor unit and a battery, the biogenerator unit consisting of containers of photocells and metals (galvanic pairs Zn and Cu; L1 and Cu; Aί and C; Zn and A!).

In one embodiment, the oioplasmic generator includes a biogenerator board, a capacitor, a battery _{, a} switch, a light bulb, and containers with pressed photocells.

In one embodiment, all galvanic pairs, that is, phytoelements with graphite electrodes, are sequentially connected by conductors using special soldering using: ammonium chloride in order to minimize the loss of electricity.

In one embodiment, galvanic vapors are placed in container sectors covered with wood and / or other biomaterials (for example, dry seeds and burrows) in a certain order to use the effect of coherent electrical imaging (synergy phenomenon).

In another preferred embodiment, all the phythedemenges have the same orientation of the electric poles in the cohesphere system & ~ Ze _# i,

In another preferred embodiment, after installing the solar cells and soldering them, they are filled with plastic mass for electrical and thermal insulation. In addition, in order to avoid the influence of air humidity on the operation of solar cells, sectors - containers can be coated with epoxy, as well as mi! a joyful environment with exstoeleric properties.

Description of bnonlashmeshsh ^' about the generator with links to figures.

I figure 1 shows the testimony for the period 2014-2018.

In Fig. 2, a diagram of the production of energy from plants in anabiotic form is shown.

The description is further disclosed with reference to the accompanying figures and tables for understanding the essence: the claimed invention.

The proposed bioplasma generator is integrated from the biotoner block of the mountain, the block of the capacitor and the battery. Biogshherator block from containers with phytoelements and metals (galvanic pairs Zh and Cu: _/ I and Cu; A! and C: In and L1).

according to figure 2, the biomass generator includes an oogen generator board (I), a capacitor (2) for accumulating charges, a battery (3) _{, a} switch (4), a light bulb (5), and containers (6) with pressed phytocells.

All galvanic wires, that is, phytodegradations with graphite, are used and sequentially connected by conductors, using an especially descriptive method using ammonium chloride, which reduces the minimum of loss of electricity. I need to put pairs in container sectors (& } ^{, which are} pressed with wood and / or other biomaterials (for example ^, dry seeds and code) in a certain order, in order to use cΐ ^c rok t of coherent electrical interaction (ue / synergism) _, All phytodements have the same orientation of the electric poles in the ionoefer-Vemdea system . After installing phytoelements and soldering them, they are filled with plastic mass / aphid of electrical and thermal insulation.

In addition, in order to avoid the influence of air humidity on the operation, phytoelement sasgora containers can be coated with epoxy resin, as well as with an environment that has its own properties _,

Kyo shmeinmy generator for Els troensr and _d m of higher plants Started melts follows,

In block generator used are 4 (four) of the container (6) in a pressed state of suspended animation phytoelements Fyatozdementy with h ^'Graphite shi zlek! The positive << t >> and negative “~” charges attract the odes from the medium in these containers. In these containers, phytocells are located with pairs of electrodes (galvanic cells in the nerve container - (Xn and Cu in the second container - (A! and Cu) , in the third container (A! and C) and in the fourth container - (Xa and AI), giving "A" AND "-) _> charges and they operate at temperature t4 ^fi - · H 0 ° In the condenser (2 _which is _{_d?} store, garments are converted into electric current by means (4) further switches lzektricheoky -current chereva conductors routed to the accumulator (3) and.. light bulbs (5) can clearly see the presence of electric current

BLANK UPON FILING

Claims

The formula of the invention i. Noshshzmenyay generator for generating electricity and: h plant weight, coc toyaschi minutes to the anode and cathode chambers filled with fluid, characterized in that the complementary itelno turns the shga at biogenerator which consists of sector containe _ers, vnut and where p _t ^C IOL ^"g si fi. We shade the power of the rafts and electrodes _, after which they are connected by conductors with the help of soldering with the use of ammonium chloride, and also includes a capacitor and battery unit, a switch and a light bulb.

^With ishitemen us and a generator to produce electricity paradise id n and elvnyh mass but differing gg L iysya that fitozdementy Afit E with electrodes pressed wood and / Rm ^On Yoma gerialami other in a specific order to use the effect of coherent electrical interaction.

A bioplasma generator for generating electricity from plant matter according to A and ^D , characterized in that the photocells are flooded with plastic mass for electrical and amyl insulating,

4 ^, Bzhtshpmennzh generator for generating electricity from plant matter in n. I, characterized in that the phytoelemsites MAY be coated with an epoxy resin, as well as a mineral medium having all 1 C1CH ⁾ s.hs1Sgri: cheskn and properties.