CN103457509A - Electronegative gas ion energy storage battery and electricity generation method thereof - Google Patents
Electronegative gas ion energy storage battery and electricity generation method thereof Download PDFInfo
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- CN103457509A CN103457509A CN2012101758101A CN201210175810A CN103457509A CN 103457509 A CN103457509 A CN 103457509A CN 2012101758101 A CN2012101758101 A CN 2012101758101A CN 201210175810 A CN201210175810 A CN 201210175810A CN 103457509 A CN103457509 A CN 103457509A
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Abstract
The invention discloses an electronegative gas ion energy storage battery. The electronegative gas ion energy storage battery comprises a power supply with voltage above minus 1 kilovolt, a power grid connected with the power supply and an energy storage battery body connected with the power grid, and the energy storage battery body sequentially comprises an anode grid, an activated carbon grid, an organic isolation grid and a cathode grid. The power grid can ionize air to generate negative ions which are transmitted to the energy storage battery body; when the negative ions pass the energy storage battery body, potential difference is generated in the anode and cathode grids of the energy storage battery body so as to generate electricity for the energy storage battery body. The negative ions can be stored in an adsorbing medium such as activated carbon. When electricity generation is required, the negative ions can be heated and released to be transmitted to the energy storage battery body to generate electricity. The energy storage battery is simple in structure, solar energy, wind energy and the like can be converted into electric energy through air serving as a medium, and accordingly reasonable optimum usage of resources is realized. Meanwhile, the invention further discloses an electricity generation method of the electronegative gas ion energy storage battery. The method is simple to operate and easy to implement.
Description
Technical field
The present invention relates to a kind of energy-storage battery and electricity-generating method thereof, especially a kind of electronegative gas ion energy-storage battery and electricity-generating method thereof.
Background technology
Energy-storage battery mainly refers to the storage battery that uses solar power plant and wind power plant and the regenerative resource savings energy to use.At present common energy-storage battery is lead acid accumulator, generally is divided into following three classes: 1, the exhaust energy storage can fluid infusion and the storage battery of bubbing device with having on lead acid accumulator-battery cover; 2, valve control formula energy storage for lead acid accumulator-each battery seal, but all with the storage battery of the valve of permission gas overflowing when interior pressure exceeds certain value; 3, the storage battery of lead acid accumulator for the colloid energy storage-use colloidal electrolyte.
Solar storage battery is " storage battery " application in solar energy power generating, and what adopt at present has four kinds of plumbic acid maintenance-free storage battery, common lead acid accumulator, colloid storage battery and alkaline nickel-cadmium storage batteries.The solar storage battery be widely used at present is mainly: plumbic acid maintenance-free storage battery and colloid storage battery, this two classes storage battery, because its intrinsic non-maintaining characteristic and the characteristics than of low pollution to environment, be well suited for the solar power supply system for dependable performance, particularly unattended work station.
The prospect of lithium battery (ferric phosphate lithium cell) due to safely, the load that abandons environmental pollution is disturbed and the limited material source of large-scale application, is difficult to extensive use.Another field at utilization of new energy resources, that lithium battery can not complete, as, some power generation systems, as wind power generation, solar energy etc., due to the impact that is subject to the natural conditions such as climate change, wind-force size, electric energy output has unstable and characteristics by phased manner, causes mechanical output significantly to change, and can make the meritorious and idle generation of generator output fluctuate, and the quality of power supply of electrical network is descended, cause waste of energy simultaneously.
In the world or China conventional energy resource be limited, the main energy sources reserves of China, well below world average level, only have 10% left and right of world's gross reserves.In the long run, renewable resource will become the main energy sources source of human future, and therefore, most of developed countries and some developing countries pay much attention to the important function of following regenerative resource, energy supply in the world.In new and renewable sources of energy, photovoltaic generation and wind power generation increase the fastest, and it is important developing direction that the business development of countries in the world solar energy power generating can utilize.
Summary of the invention
The object of the invention is to overcome the deficiencies in the prior art part and provide a kind of novel negative electrical gas ion energy-storage battery; Simultaneously, the present invention also provides the electricity-generating method of described energy-storage battery.
For achieving the above object, the technical scheme that the present invention takes is: a kind of electronegative gas ion energy-storage battery,
Comprise:
Voltage is negative power supply more than 1 kilovolt;
The electrical network be connected with described power supply;
The energy-storage battery be connected with described electrical network;
Described energy-storage battery comprises positive polar net, activated carbon net, organic separation net and negative pole net successively.
Because voltage is connected with electrical network for negative power supply more than 1 kilovolt, therefore, electrical network can produce air ionization
Give birth to anion, the anion produced in electrical network is sent to energy-storage battery, described anion is successively by positive polar net, activated carbon net, organic substance separation net and the negative pole net of described energy-storage battery, when anion passes through described energy-storage battery, produce potential difference on the net at both positive and negative polarity, realize the generating to energy-storage battery.Energy-storage battery of the present invention, can utilize the generatings such as solar energy, wind energy, thereby the access inverter circuit produces negative voltage access electrical network more than 1 kilovolt, utilize electrical network to produce anion to air ionization described energy-storage battery is generated electricity, simple and effective the renewable resources such as solar energy, wind energy are converted into to the electric energy in described energy-storage battery.In addition, utilize the transfer medium of air as energy, produce anion by the ionization to air and realize the generating to energy-storage battery, structural design is ingenious, has realized the reasonably optimizing utilization to resource.
The positive polar net of described energy-storage battery and negative pole net are respectively anodal electric conducting material net and negative pole electric conducting material net, and preferably, the positive polar net of described energy-storage battery and negative pole net are respectively anodal copper mesh and negative pole copper mesh.
As the preferred implementation of electronegative gas ion energy-storage battery of the present invention, described electrical network is connected by the anion storage tank with energy-storage battery.Design anion storage tank between described electrical network and energy-storage battery, the anion that ionization obtains in electrical network can first be stored in the anion storage tank, when needs generate electricity to energy-storage battery, then anion is discharged and is sent to from the storage tank of described storage anion the energy-storage battery generating.Because the anion had more can be stored in the anion storage tank, can select as required when described energy-storage battery to be generated electricity simultaneously, use more flexible.
As the preferred implementation of electronegative gas ion energy-storage battery of the present invention, described anion storage tank is activated carbon canister.Activated carbon has stronger adsorption capacity, can adsorb in a large number various charged gas, and therefore described anion storage tank is selected activated carbon canister, can adsorb in a large number the anion obtained from electrical network ionization, and adsorption capacity is large, and stable.In addition, can easier will be adsorbed on the anion desorb in activated carbon by changing the conditions such as temperature, and when needs generate electricity to energy-storage battery, be conducive to anion desorb from activated carbon and discharge.
As the preferred implementation of electronegative gas ion energy-storage battery of the present invention, the below of described anion storage tank is provided with heater.Below described anion storage tank, heater is set, when needs generate electricity to energy-storage battery, when being stored in anion in the anion storage tank and discharging, by the mild heat device to described anion storage tank heat, can make to be adsorbed on the anion fast desorption in activated carbon, while being convenient to energy-storage battery is generated electricity, in the anion storage tank, the release of anion is discharged.Described heater also can adopt the realization heating such as industrial waste heat, more is conducive to the optimization of resource and rationally utilizes.
As the preferred implementation of electronegative gas ion energy-storage battery of the present invention, between the positive polar net of described energy-storage battery and negative pole net, be connected with resistance and load.Contact resistance and load between described positive polar net and negative pole net when anion passes through described energy-storage battery, can produce larger potential difference between positive polar net and negative pole net.
The present invention also provides a kind of electricity-generating method of electronegative gas ion energy-storage battery described above, comprises the following steps:
(1) generating, the access inverter circuit produces the power supply of bearing voltage more than 1 kilovolt;
(2) by the access of the power supply in step (1) electrical network, air ionization is produced to anion;
(3) anion produced in step (2) is sent into to energy-storage battery, described anion is by described energy-storage battery, at positive polar net and the negative pole of described energy-storage battery, produces potential difference on the net, realizes generating.
The electricity-generating method of described electronegative gas ion energy-storage battery, can utilize electrical network to produce anion to air ionization, while then utilizing the energy-storage battery of anion by described structure, between the positive polar net of energy-storage battery and negative pole net, produce potential difference, realize the generating to energy-storage battery.
As the preferred implementation of electronegative gas ion energy-storage battery electricity-generating method of the present invention, described step is utilized solar energy, wind power generation in (1).When adopting the renewable resources such as solar energy, wind energy to generate electricity, the access inverter circuit produces the power supply of bearing voltage more than 1 kilovolt, the access electrical network, thus realize that electrical network produces anion to the ionization of air, effectively the renewable resources such as solar energy, wind energy are changed into to electric energy, rationally utilized resource.
Preferred implementation as electronegative gas ion energy-storage battery electricity-generating method of the present invention, described step (3) is: the anion produced in step (2) is sent into to the anion storage tank stores, when needs generate electricity, anion is discharged and sent into from the anion storage tank energy-storage battery, realize generating.The anion that ionization produces in described step (2) is at first sent into the anion storage tank stores, when needs generate electricity, again anion is discharged from the anion tank, the anion waste that the negative ion amount of having avoided electrical network to produce causes while being greater than the negative ion amount that described energy-storage battery generates electricity requiredly, the anion that utilizes the anion storage tank that electrical network ionization is produced stores, can at any time anion be discharged from the anion storage tank as required, to the energy-storage battery generating, more flexible.
As the preferred implementation of electronegative gas ion energy-storage battery electricity-generating method of the present invention, described anion storage tank is activated carbon canister.Activated carbon has adsorption capacity preferably, selects activated carbon canister as the anion storage tank, is conducive to a large amount of adsorption storages of anion, simultaneously, also facilitates the desorb of anion to discharge.
Electronegative gas ion energy-storage battery of the present invention, can change into electric energy by renewable resources such as solar energy, wind energies fast, and conversion medium employing air, and simple in structure, design science is reasonable, has effectively optimized the utilization of resource.The electricity-generating method of electronegative gas ion energy-storage battery of the present invention, simple to operate, be easy to realize, can be fast to described energy-storage battery charging, energy transformation ratio is higher.
The accompanying drawing explanation
The structural representation of a kind of embodiment that Fig. 1 is electronegative gas ion energy-storage battery of the present invention.
The structural representation that Fig. 2 is energy-storage battery described in Fig. 1.
Embodiment
For the purpose, technical solutions and advantages of the present invention better are described, below in conjunction with the drawings and specific embodiments, the invention will be further described.
A kind of electronegative gas ion energy-storage battery as shown in Figure 1, comprising: voltage is negative power supply 10 more than 1 kilovolt; The electrical network 20 be connected with described power supply 10; The energy-storage battery 30 be connected with described electrical network 20; Described energy-storage battery 30 comprises positive polar net 31, activated carbon net 33, organic separation net 35 and negative pole net 37 successively.
Because voltage is connected with electrical network 20 for negative power supply 10 more than 1 kilovolt, therefore, it (is O in figure that electrical network 20 can produce anion to air ionization
2 -), the anion produced in electrical network 20 is sent to energy-storage battery 30, described anion is successively by positive polar net 31, activated carbon net 33, organic substance separation net 35 and the negative pole net 37 of described energy-storage battery 30, when anion passes through described energy-storage battery 30, in the upper potential difference that produces of positive and negative polar net (31,37), realize the generating to energy-storage battery 30.Energy-storage battery 30 of the present invention, can utilize the generatings such as solar energy, wind energy, thereby the access inverter circuit produces negative voltage access electrical network 20 more than 1 kilovolt, utilize the 20 pairs of air ionizations of electrical network to produce anions to described energy-storage battery 30 generatings, simple and effective the renewable resources such as solar energy, wind energy are converted into to the electric energy in described energy-storage battery 30.In addition, utilize the transfer medium of air as energy, produce anion by the ionization to air and realize the generating to energy-storage battery 30, structural design is ingenious, has realized the reasonably optimizing utilization to resource.
The positive polar net of described energy-storage battery and negative pole net adopt electric conducting material to make, and preferably, the positive polar net of described energy-storage battery and negative pole net are respectively anodal copper mesh and negative pole copper mesh.
Preferably, as shown in Figure 1, described electrical network 20 is connected 40 with energy-storage battery 30 by the anion storage tank.Design anion storage tank 40 between described electrical network 20 and energy-storage battery 30, the anion that ionization obtains in electrical network 20 can first be stored in anion storage tank 40, when needs generate electricity to energy-storage battery 30, then anion is discharged and is sent to from described anion storage tank 40 energy-storage battery 30 generatings.Having avoided in electrical network 20 having produced too much anion direct picks toward energy-storage battery 30, caused the waste of anion, because the anion had more can be stored in anion storage tank 40, can select as required when described energy-storage battery 30 to be generated electricity simultaneously, use more flexible.
Preferably, described anion storage tank 40 is activated carbon canister.Activated carbon has stronger adsorption capacity, can adsorb in a large number various gas, and therefore described anion storage tank 40 is selected activated carbon canister, can adsorb in a large number the anion obtained from electrical network 20 ionization, and adsorption capacity is large, and stable.In addition, can easier will be adsorbed on the anion desorb in activated carbon by changing the conditions such as temperature, and when needs generate electricity to energy-storage battery, be conducive to anion desorb from activated carbon and discharge.More preferably, the below of described anion storage tank 40 is provided with heater 42.Heater 42 is set below described anion storage tank 40, when needs generate electricity to energy-storage battery 30, when being stored in anion in anion storage tank 40 and discharging, by 42 pairs of described anion storage tank 40 heating of heater, can make to be adsorbed on the anion fast desorption in activated carbon, while being convenient to energy-storage battery 30 generating, in anion storage tank 40, the release of anion is discharged.Described heater 42 also can adopt the realization heating such as industrial waste heat, more is conducive to the optimization of resource and rationally utilizes.
Preferably, as shown in attached Fig. 1 and 2, be connected with resistance 32 and load 34 between the positive polar net 31 of described energy-storage battery 30 and negative pole net 37.Contact resistance 32 and load 34 between described positive polar net 31 and negative pole net 37 when anion passes through described energy-storage battery 30, can produce larger potential difference between positive polar net 31 and negative pole net 37.
A kind of embodiment of the electricity-generating method of a kind of electronegative gas ion of the present invention energy-storage battery comprises the following steps:
(1) generating, the access inverter circuit produces the power supply of bearing voltage more than 1 kilovolt;
(2) by the access of the power supply in step (1) electrical network, air ionization is produced to anion;
(3) anion produced in step (2) is sent into to energy-storage battery, described anion is by described energy-storage battery, at positive polar net and the negative pole of described energy-storage battery, produces potential difference on the net, realizes generating.
The electricity-generating method of described electronegative gas ion energy-storage battery, can utilize electrical network to produce anion to air ionization, while then utilizing the energy-storage battery of anion by described structure, between the positive polar net of energy-storage battery and negative pole net, produce potential difference, realize the generating to energy-storage battery.
Preferably, utilize solar energy, wind power generation in described step (1).When adopting the renewable resources such as solar energy, wind energy to generate electricity, the access inverter circuit produces the power supply of bearing voltage more than 1 kilovolt, the access electrical network, thus realize that electrical network produces anion to the ionization of air, effectively the renewable resources such as solar energy, wind energy are changed into to electric energy, rationally utilized resource.
Preferably, described step (3) is: the anion produced in step (2) is sent into to the anion storage tank stores, when needs generate electricity, anion is discharged and sent into from the anion storage tank energy-storage battery, realize generating.The anion that ionization produces in described step (2) is at first sent into the anion storage tank stores, when needs generate electricity, again anion is discharged from the anion tank, the anion waste that the negative ion amount of having avoided electrical network to produce causes while being greater than the negative ion amount that described energy-storage battery generates electricity requiredly, the anion that utilizes the anion storage tank that electrical network ionization is produced stores, can at any time anion be discharged from the anion storage tank as required, to the energy-storage battery generating, more flexible.More preferably, described anion storage tank is activated carbon canister.Activated carbon has adsorption capacity preferably, selects activated carbon canister as the anion storage tank, is conducive to a large amount of adsorption storages of anion, simultaneously, also facilitates the desorb of anion to discharge.
The above is only the preferred embodiment of the present invention but not limiting the scope of the invention; should be understood that; for those skilled in the art; under the premise without departing from the principles of the invention; can modify or be equal to replacement technical solution of the present invention, these modifications or be equal to replacement and also should be considered as protection scope of the present invention.
Claims (10)
1. an electronegative gas ion energy-storage battery, is characterized in that, comprising:
Voltage is negative power supply more than 1 kilovolt;
The electrical network be connected with described power supply;
The energy-storage battery be connected with described electrical network;
Described energy-storage battery comprises positive polar net, activated carbon net, organic separation net and negative pole net successively.
2. electronegative gas ion energy-storage battery as claimed in claim 1, is characterized in that, the positive polar net of described energy-storage battery and negative pole net are respectively anodal copper mesh and negative pole copper mesh.
3. electronegative gas ion energy-storage battery as claimed in claim 1, is characterized in that described electrical network
With energy-storage battery, by the anion storage tank, be connected.
4. electronegative gas ion energy-storage battery as claimed in claim 3, is characterized in that, described bear from
Sub-storage tank is activated carbon canister.
5. electronegative gas ion energy-storage battery as described as claim 3 or 4, is characterized in that, the below of described anion storage tank is provided with heater.
6. electronegative gas ion energy-storage battery as claimed in claim 1, is characterized in that, between the positive polar net of described energy-storage battery and negative pole net, is connected with resistance and load.
7. one kind adopts the electricity-generating method of electronegative gas ion energy-storage battery as claimed in claim 1, it is characterized in that, comprises the following steps:
(1) generating, the access inverter circuit produces the power supply of bearing voltage more than 1 kilovolt;
(2) by the access of the power supply in step (1) electrical network, air ionization is produced to anion;
(3) anion produced in step (2) is sent into to energy-storage battery, described anion is by described energy-storage battery, at positive polar net and the negative pole of described energy-storage battery, produces potential difference on the net, realizes generating.
8. electronegative gas ion energy-storage battery electricity-generating method as claimed in claim 7, is characterized in that, described step is utilized solar energy, wind power generation in (1).
9. electronegative gas ion energy-storage battery electricity-generating method as claimed in claim 7, it is characterized in that, described step (3) is: the anion produced in step (2) is sent into to the anion storage tank stores, when needs generate electricity, anion is discharged and sent into from the anion storage tank energy-storage battery, realize generating.
10. electronegative gas ion energy-storage battery electricity-generating method as claimed in claim 9, is characterized in that, described anion storage tank is activated carbon canister.
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| RU2578207C2 (en) * | 2014-03-12 | 2016-03-27 | Федеральное государственное бюджетное образовательное учреждение высшего образования "Сибирский государственный аэрокосмический университет имени академика М.Ф. Решетнева" (СибГАУ) | Method of producing electricity |
| CN106849753A (en) * | 2017-01-22 | 2017-06-13 | 上海云剑信息技术有限公司 | A kind of charged cloud separation of charge electricity generation system |
| RU2678999C1 (en) * | 2017-11-10 | 2019-02-05 | Сергей Викторович Громов | Method of direct conversion of kinetic energy of dielectric environment flow to electric energy |
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| CN1881774A (en) * | 2005-05-28 | 2006-12-20 | 陈宏坤 | Collecting ion in air and its device utilizing the same |
| US7347294B2 (en) * | 2003-05-21 | 2008-03-25 | Gonzalez Encarnacion H | Power system for electrically powered land vehicle |
| CN201726037U (en) * | 2010-06-22 | 2011-01-26 | 浙江天鸿汽车用品有限公司 | Satellite solar anion generator |
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| JPS6488398A (en) * | 1987-09-30 | 1989-04-03 | Toshiba Corp | Gas storage device |
| US7347294B2 (en) * | 2003-05-21 | 2008-03-25 | Gonzalez Encarnacion H | Power system for electrically powered land vehicle |
| CN1881774A (en) * | 2005-05-28 | 2006-12-20 | 陈宏坤 | Collecting ion in air and its device utilizing the same |
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Cited By (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| RU2578207C2 (en) * | 2014-03-12 | 2016-03-27 | Федеральное государственное бюджетное образовательное учреждение высшего образования "Сибирский государственный аэрокосмический университет имени академика М.Ф. Решетнева" (СибГАУ) | Method of producing electricity |
| CN106849753A (en) * | 2017-01-22 | 2017-06-13 | 上海云剑信息技术有限公司 | A kind of charged cloud separation of charge electricity generation system |
| RU2678999C1 (en) * | 2017-11-10 | 2019-02-05 | Сергей Викторович Громов | Method of direct conversion of kinetic energy of dielectric environment flow to electric energy |
| RU2678999C9 (en) * | 2017-11-10 | 2019-03-21 | Сергей Викторович Громов | Method of direct conversion of kinetic energy of dielectric environment flow to electric energy |
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