CN101847724A - Bipolar plate frame and galvanic pile of flow battery - Google Patents

Abstract

The invention relates to a bipolar plate frame and a galvanic pile of a flow battery, which belong to the field of flow batteries. The bipolar plate frame is characterized in that: labyrinth packing is formed by pressing two layers of O-shaped gasket rings which are arranged from inside to outside between an ion exchange membrane and the plate frame; an electrolyte channel and the O-shaped gasket rings are arranged on the region outside the two layers of the O-shaped gasket rings which are arranged from inside to outside; and an electrolyte groove is formed at the other side of an electrode frame opposite to the ion exchange membrane, and closely contacts the bipolar plate to form an electrolyte inlet channel or an electrolyte outlet channel. The bipolar plate frame and the galvanic pile of the flow battery have simple structures and completely solve the problem of cross leakage caused by loose sealing between anolyte and catholyte.

Description

A kind of bipolar plate frame of flow battery and pile

Technical field

The present invention relates to electric energy and transform and technical field of memory, especially make the technical method of flow battery.

Background technology

Utilizing renewable energy power generations such as wind energy, solar energy is one of human following important channel that obtains energy from nature.Because wind energy, solar power generation process have randomness, discontinuous characteristics, the electric energy that is difficult to keep stable is exported, and the apparatus for storing electrical energy of needs and certain scale matches, and constitutes complete electric power system, guarantees continual and steady supply of electrical energy.Therefore, exploitation electric energy conversion efficiency height, storage volume energy-storage system big, that economic performance is good become the key of development renewable and clean energy resource.In various forms of energy storage devices, for example retaining energy-accumulating power station, high speed flywheel mechanical energy storage, cold and hot temperature difference energy storage etc., characteristics such as electrochemical energy storage has the energy conversion efficiency height, and mobility is strong cause that the various countries researcher greatly pays close attention to.The flow battery system has big capacity electrical power storage and efficient transformation function, and the characteristics of long service life, environmental protection, safety, is easy to be complementary with wind energy, solar power generation, reduces equipment manufacturing cost significantly, for renewable energy utilization provides technique guarantee.Be used for the network system energy storage, can avoid the hydroenergy storage station construction period long, the shortcoming of addressing geographical conditions harshness, the uninterrupted power supply that is suitable for medium-scale industrial enterprise, hotel, government department uses, can effectively improve grid supply quality, finish " peak load shifting " effect of electrical network.

All-vanadium flow battery (Vanadium Redox Battery, VRB) be a kind of mechanism of new electrochemical power sources, vanadium ion by different valence state transforms storage and the release that realizes electric energy mutually, use element of the same race to form battery system, avoided variety classes active material between positive and negative half-cell to interpenetrate the cross pollution of generation from principle.(Fig. 1) use and to be dissolved in that the different valence state vanadium ion is as anode and negative electrode active material in the electrolyte, anodal electrolyte and negative pole electrolyte separate storage are avoided battery storage process self-discharge phenomenon from principle, are suitable for extensive thermal energy storage process and use.When the power of wind energy, device of solar generating surpasses rated output power,, electric energy is converted into chemical energy is stored in the ion pair of different valence state by charging to flow battery; When Blast Furnace Top Gas Recovery Turbine Unit (TRT) can not satisfy rated output power, flow battery began discharge, and the chemical energy that stores is converted into electric energy, guaranteed the output of stable electrical power.Because flow battery obtains common concern for the significance of renewable energy power generation processes such as wind energy, solar energy at home and abroad as key technology.

Following redox reaction will take place on the electrode in all-vanadium flow battery charge/discharge running.

Anodal reaction

E ⁰＝1.00V

Negative reaction

E ⁰＝-0.26V

Because anodal electrolyte and negative pole electrolyte are in oxidizability valence state and reproducibility valence state respectively, it no matter is charge/discharge running in pile inside, or electrolyte course of conveying, need to keep anodal electrolyte and negative pole electrolyte not to mix, otherwise exchange the electron production self-discharge phenomenon between the vanadium ion of different valence state each other, have a strong impact on battery efficiency.Normal conditions, two kinds of electrolyte transfer pipelines, force (forcing) pump, and reservoir vessel realizes independently of one another easily, do not produce anodal electrolyte and negative pole electrolyte mixed problem.Yet electrolyte exists two kinds of chances to cause that positive pole, negative pole electrolyte mix and self-discharge phenomenon in pile internal flow process.1) pass the mixing of amberplex: when amberplex was not good enough for the vanadium ion barrier properties, the cell charging running was followed the hydrogen ion migration, and vanadium ion is striden film and permeated; Can improve vanadium ion/hydrogen ion selective by selecting suitable membrane material, solve vanadium ion and stride the film infiltration problem.2) pass the mixing of pile hermetically-sealed construction: two kinds of electrolyte need pass same interface simultaneously, and are assigned to electrode surface and carry out electrochemical reaction.Pile sealing will guarantee that electrolyte can not leak into the pile outside, guarantees that again pile inside do not wear liquid to each other, realizes on same plane that particularly amberplex and two kinds of electrolyte seal simultaneously, and is often very difficult.(Chinese patent publication number: 1531761A 1515046A) adopts O type sealing ring crimping barrier film and hermetic electrolyte liquid mode simultaneously to existing flow battery technology, carries out the pile sealing, obtains certain effect.Yet, this electric pile structure sealing means depends critically upon battery sheet frame machining accuracy and seal member material properties, in long-term use,, cause that two kinds of electrolyte leak from the sealing position, produce mixed self discharge problem often because of factors such as variations in temperature, amberplex change in size.

For the inner two kinds of electrolyte of the pile that solves existing flow battery leak from the sealing position and intersection self discharge problem, avoid the electrolyte cross pollution, improve coulombic efficiency.The present invention proposes a kind of new structure of flow battery bipolar plates electrode frame, can avoid two kinds of electrolyte to interpenetrate fully on principle.The two-layer O RunddichtringO of arranging inside and outside the employing is pressed in respectively between amberplex and the sheet frame, forms labyrinth sealing; , arrange electrolyte passage and place the O RunddichtringO with exterior domain at inside and outside two-layer O RunddichtringO of arranging.(Fig. 2, Fig. 3) arranging groove with respect to amberplex electrodes in contact frame opposite side, and this groove closely contacts each other with bipolar plates and forms electrolyte inflow or flow pass.Because the two-layer O RunddichtringO of arranging inside and outside the public runner of electrolyte is arranged on is with exterior domain, even the electrolyte of seepage only is scattering into the pile outside from the public runner of electrolyte, the labyrinth sealing part that the two-layer O RunddichtringO of arranging inside and outside having no chance to pass forms is thoroughly stopped the mixing that the pile hermetically-sealed construction is passed in pile inside.Bipolar plate frame that the present invention proposes and electric pile structure assembling are simple, realize the excellent sealing of two kinds of electrolyte easily, provide basic guarantee for improving battery coulombic efficiency and energy efficiency.

Summary of the invention

The object of the invention is to provide a kind of bipolar plate frame and electric pile structure of flow battery, solution anolyte and catholyte be the leakage problem because of poorly sealed generation in pile inside, cause self-discharge phenomenon after avoiding two kinds of electrolyte to mix, improve the energy efficiency of battery coulombic efficiency and energy-storage system.Technology contents of the present invention is as follows.

1. the bipolar plate frame of a flow battery is characterized in that, contains: top electrode frame (11), bottom electrode frame (12) and bipolar plates (2), wherein:

Bipolar plates (2), be sandwiched between described top electrode frame (11) and the bottom electrode frame (12), the area of described bipolar plates is equal to or greater than top electrode frame (11), or the area of bottom electrode frame (12), respectively have the first electrolyte stream via hole (211 in both sides, described bipolar plates axis, 211 ') and the second electrolyte stream via hole (212,212 ')

The area of described top electrode frame (11) and bottom electrode frame (12) is equal, wherein:

Top electrode frame (11), have anolyte ostium (111) and anolyte tap hole (112) in the both sides, axis, wherein, described anolyte ostium (111) is coaxial relative with the first electrolyte stream via hole (211) on the described bipolar plates (2), described anolyte tap hole (112) is coaxial relative with the described bipolar plates first electrolyte stream via hole (211 '), having the anode electrolysis liquid bath (113) that communicates with described anolyte ostium (111) near on the described top electrode frame (11) of described bipolar plates (2) one sides, have along described anode electrolysis liquid bath (113) the equally distributed anolyte distributing slot of length direction (114) in described bipolar plates (2) one sides that link to each other with this anode electrolysis liquid bath (113), at described catholyte ostium (117), and described catholyte tap hole (118) periphery is provided with O-ring seals (7) groove (116) that hermetic electrolyte liquid is used

Bottom electrode frame (12), have catholyte ostium (121) and catholyte tap hole (122) in the both sides, axis, wherein, described catholyte ostium (121) is coaxial relative with the second electrolyte stream via hole (212) on the described bipolar plates (2), described catholyte tap hole (122) is coaxial relative with the second electrolyte stream via hole (212 ') on the described bipolar plates (2), have the catholyte tanks (123) that communicates with described catholyte ostium (121) at described bottom electrode frame (12) near described bipolar plates (2) one sides, have equally distributed catholyte distributing slot (124) in described catholyte tanks (123) along the slot length direction, at described anolyte ostium (127), and described anolyte tap hole (128) periphery is provided with O-ring seals (7) groove (126) that hermetic electrolyte liquid is used

Not with described top electrode frame (11) that described bipolar plates (2) directly contacts on, have first seal groove (115) in the inboard of described anode electrolysis liquid bath (113), be used to settle an O RunddichtringO (115A), described O RunddichtringO (115A) position is between described anolyte ostium (111) and anolyte tap hole (112)

Not with described bottom electrode frame (12) that described bipolar plates (2) directly contacts on, have second seal groove (125) in the inboard of described catholyte tanks (123), be used to settle the 2nd O RunddichtringO (125A), described the 2nd O RunddichtringO (125A) position is between described catholyte ostium (121) and catholyte tap hole (122)

The outside of described second seal groove of the inner distance of described first seal groove (115) (125) is at least 2 millimeters.

2. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: described first seal groove (115) is positioned at described anolyte ostium (111), anolyte tap hole (112), and the inboard of anode electrolysis liquid bath (113); Described second seal groove (125) is positioned at described catholyte ostium (121), catholyte tap hole (122), and the inboard of catholyte tanks (123).

3. the bipolar plate frame of a kind of flow battery according to claim 1 is characterized in that: between described bipolar plates (2) and described top electrode frame (11), the bottom electrode frame (12) by bonding or elastic sealing gasket or heat merges welding or the laser welding mode connects.

4. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: the material of described bipolar plates (2) possesses the conducting current capacity, uses graphite cake or conductive plastic plate or metallic plate to make.

5. the bipolar plate frame of a kind of flow battery according to claim 1 is characterized in that: top electrode frame (11), bottom electrode frame (12) are by a kind of or two or more mixtures of following macromolecule engineering plastics: polyvinyl chloride, polyethylene, polypropylene, Merlon, Kynoar are made.

6. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: top electrode frame (11), bottom electrode frame (12) use engineering plastics of the same race, adopt plastics injection technique moulding or plastic mould pressing technological forming.

7. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: the shape of described first seal groove (115) and second seal groove (125) is any one in the following shape; T shape, Y shape, square, and rectangle.

8. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: when using described bipolar plate frame to form battery pile, described battery pile is in series by two above bipolar plate frames, in described top electrode frame (11), bottom electrode frame (12), fill electrode (6), between described O RunddichtringO (115A) on the adjacent bipolar plate frame and the 2nd O RunddichtringO (125A), place amberplex (8); Described battery pile upper/lower terminal sets gradually respectively and upper and lower charging unipolar plate (9) of aliging of described bipolar plate frame and pressure strip (1), uses screw (3) that pile is compressed till electrolyte does not leak.

9. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: when using described bipolar plate frame to form battery pile, the area of the described amberplex (8) in the described battery pile does not hinder anolyte, catholyte to flow through electric pole plate (11) and lower electrode plate (12) greater than the area that described first seal groove (115) surrounds.

Flow battery bipolar plate frame and electric pile structure that the present invention proposes possess symmetrical characteristics, and good assembling performance.Because the public runner of electrolyte is positioned at the inside and outside two-layer O RunddichtringO outside, the passage that is used for the electrolyte distribution that electrolyte surrounds jointly by groove on the electrode frame and bipolar plates, flow to the electrode surface that is positioned at the sheet frame middle body, just in case electrolyte is from public runner during seepage, electrolyte only is scattering into the pile outside, the two-layer O RunddichtringO of arranging inside and outside can't passing enters described middle body, thoroughly stops the mixing of the electrolyte cross pile hermetically-sealed construction of pile inside from the design of Sealing Structure angle.The present invention takes into account the symmetrical structure design of flow battery bipolar plate frame simultaneously, greatly improves the operating efficiency of pile assembling.The even distribution of electrolyte on electrode significantly improves electric energy and chemical transformation of energy and efficiency of storage in the all-vanadium flow battery, simplifies battery structure and reduces cost, for further industrial production lays the foundation.

Description of drawings

Fig. 1. the flow battery principle schematic;

Fig. 2. the bipolar plate frame parts,

Fig. 2-1 top electrode frame (11):

111---the anolyte ostium,

112---the anolyte tap hole,

113---the anode electrolysis liquid bath,

114---the anolyte distributing slot,

115---first seal groove,

116---the O-ring seals groove,

117---catholyte flows through hole A,

118---catholyte flows through hole B;

Fig. 2-2 bottom electrode frame (12):

121---the catholyte ostium,

122---the catholyte tap hole,

123---catholyte tanks,

124---the catholyte distributing slot,

125---second seal groove,

126---the O-ring seals groove,

127---anolyte flows through hole A,

128---anolyte flows through hole B;

Fig. 3. the bipolar plate frame package assembly,

11---the top electrode frame,

2---bipolar plates,

12---the bottom electrode frame,

211---anolyte flows through hole C,

211 '---anolyte flows through hole D,

212---catholyte flows through hole C,

212 '---catholyte flows through hole D,

111---the anolyte ostium,

112---the anolyte tap hole,

113---the anode electrolysis liquid bath,

114---the anolyte distributing slot,

116---the O-ring seals groove,

117---catholyte flows through hole A,

121---the catholyte ostium,

122---the catholyte tap hole,

123---catholyte tanks,

124---the catholyte distributing slot,

126---the O-ring seals groove,

127---anolyte flows through hole A,

Among Fig. 3, the equal alternative of numeral in the bracket;

Fig. 4. the electric pile structure schematic diagram of flow battery,

1---pressure strip,

2---bipolar plates,

3---screw,

4---nut,

5---holddown spring,

6---electrode,

7---O RunddichtringO C,

8---amberplex,

9---the charging unipolar plate,

115---first seal groove,

115A---an O RunddichtringO,

125---second seal groove,

125A---the 2nd O RunddichtringO.

Embodiment

Following flow battery bipolar plate frame structure of the present invention, details are as follows for electric pile structure:

The bipolar plates sheet frame of this all-vanadium flow battery is made up of three parts, is respectively top electrode frame (11), bipolar plates (2), bottom electrode frame (12); With three's consistency from top to bottom, guarantee that electrolyte flows through pairing duct during assembling, use binding agent to connect top electrode frame (11), bipolar plates (2), bottom electrode frame (12) as a whole.

Some groups of monocells of the pile of this all-vanadium flow battery are composed in series, and each monocell is made up of anodal half-cell and negative pole half-cell.Following electrochemical reaction takes place in the porous electrode (6) of packing in top electrode frame (11), bottom electrode frame (12) on cell charging process electrode.

Anodal reaction

E ⁰＝1.00V

Negative reaction

E ⁰＝-0.26V

The pile of all-vanadium flow battery is by aliging successively up and down with lower member, use lock-screw that the fastening back of pressure strip (1) is formed, described parts comprise: pressure strip (1), charging unipolar plate (9), top electrode frame (11), bipolar plates (2), bottom electrode frame (12), O RunddichtringO C (7), an O RunddichtringO (115A), the 2nd O RunddichtringO (125A), amberplex (8) constitute.O RunddichtringO C (7) is positioned between top electrode frame (11) and the bottom electrode frame (12), and the electrolyte that compresses back and top electrode frame (11), bottom electrode frame (12) flows into, the tap hole alignment, forms the runner that electrolyte flows through.

Embodiment 1

Flow battery bipolar plate frame of the present invention and electric pile structure further specify as follows.

Top electrode frame (11): material is a polyvinyl chloride, 200 millimeters of length, 200 millimeters of width, 5 millimeters of thickness, and sealed groove is wide 3 millimeters, and 1.6 millimeters of the degree of depth are used 146 millimeters of O RunddichtringO (115A) diameters, 2.65 millimeters in line footpath.

Bipolar plates (2): liquid-tight graphite, 200 millimeters of length, 200 millimeters of width, 4 millimeters of thickness

Bottom electrode frame (12): material is a polyvinyl chloride, 200 millimeters of length, 200 millimeters of width, 5 millimeters of thickness, and sealed groove is wide 3 millimeters, and 1.6 millimeters of the degree of depth are used 132 millimeters of the 2nd O RunddichtringO (125A) diameters, 2.65 millimeters in line footpath.

Use the igelite adhesive to carry out top electrode frame, bottom electrode frame and liquid-tight graphite bonding.The bipolar plate frame that is bonded as one is used as parts.

O RunddichtringO C (7): use the neoprene O type circle in 16 millimeters in line footpath 2.65, diameter to seal.Amberplex (8): use commercially available homogeneous phase cation exchange film, ion exchange capacity 2mmol/g dry film, 0.3 millimeter of thickness, face resistance are lower than 4.5 Ω .cm ²

Electrode (6): use commercially available carbon felt, 95 millimeters of length, 90 millimeters of width, 5 millimeters of thickness

Pressure strip (1): use 314 stainless steel materials to make, 200 millimeters of length, 200 millimeters of width, 10 millimeters of thickness.

According to shown in Figure 4, with above-mentioned battery component align successively assemble after, use the stainless steel trip bolt locking of 10 millimeters of diameters, finish the assembling of flow battery pile.

Embodiment 2

Flow battery bipolar plate frame structure of the present invention further specifies as follows.

Top electrode frame (11): material is a Kynoar, 850 millimeters of length, 450 millimeters of width, 4 millimeters of thickness, and first seal groove (115) is wide 3 millimeters, 1.6 millimeters of the degree of depth.

Bipolar plates (2): the bipolar plates of conductive plastics preparation, 850 millimeters of length, 450 millimeters of width, 2 millimeters of thickness, conductance is greater than 45S/cm.

The bottom electrode frame: material is a Kynoar, 850 millimeters of length, 450 millimeters of width, 4 millimeters of thickness, and second seal groove (125) is wide 3 millimeters, 1.6 millimeters of the degree of depth.

The bipolar plates (2) of top electrode frame (11), bottom electrode frame (12) and conductive plastics preparation is welded, the bipolar plate frame that is combined as a whole is used as parts.

O RunddichtringO C (7): use the neoprene O type circle in 18 millimeters in line footpath 2.65, diameter to seal.Sealing ring between bipolar plate frame (115A, 125A): two kinds of fluororubber O-type rings that use 719 millimeters of line footpath 2.65,703 millimeters of diameters and diameters respectively as second O-ring seals and first O-ring seals and.Amberplex: use the self-control homogeneous phase cation exchange film, ion exchange capacity 1.6mmol/g dry film, 0.18 millimeter of thickness, face resistance are lower than 2.2 Ω .cm ²

Electrode (6): 2～4 millimeters commercially available carbon felts of used thickness

Pressure strip (1): use 316 stainless steel materials to make, 850 millimeters of length, 450 millimeters of width, 15 millimeters of thickness.

According to shown in Figure 4, with above-mentioned battery component align successively assemble after, use the stainless steel trip bolt locking of 12 millimeters of diameters, finish the assembling of flow battery pile.

By the foregoing description, prove the new structure of flow battery bipolar plates electrode frame proposed by the invention, avoid two kinds of interpenetrative possibilities of electrolyte from principle.The two-layer O RunddichtringO of arranging inside and outside the employing is pressed in respectively between amberplex and the sheet frame, forms labyrinth sealing; Electrolyte flows through by the electrolyte passage of area arrangements beyond inside and outside two-layer O RunddichtringO of arranging.The two-layer O RunddichtringO that the electrolyte that flows through in public runner is arranged inside and outside having no chance to pass is thoroughly stopped the mixing that the pile hermetically-sealed construction is passed in pile inside.Use flow battery bipolar plate frame of the present invention and electric pile structure, avoid battery structure complexity in the past, make problem with the assembling difficulty, can effectively improve cell charging process energy efficiency, reduce the pile cost, large-scale electric energy transforms and the chemical power source technology of storage lays the foundation for development is used for.

Claims (9)

1. the bipolar plate frame of a flow battery is characterized in that, contains: top electrode frame (11), bottom electrode frame (12) and bipolar plates (2), wherein:

Bipolar plates (2), be sandwiched between described top electrode frame (11) and the bottom electrode frame (12), the area of described bipolar plates is equal to or greater than top electrode frame (11), or the area of bottom electrode frame (12), respectively have the first electrolyte stream via hole (211 in both sides, described bipolar plates axis, 211 ') and the second electrolyte stream via hole (212,212 ')

The area of described top electrode frame (11) and bottom electrode frame (12) is equal, wherein:

Top electrode frame (11), have anolyte ostium (111) and anolyte tap hole (112) in the both sides, axis, wherein, described anolyte ostium (111) is coaxial relative with the first electrolyte stream via hole (211) on the described bipolar plates (2), described anolyte tap hole (112) is coaxial relative with the described bipolar plates first electrolyte stream via hole (211 '), having the anode electrolysis liquid bath (113) that communicates with described anolyte ostium (111) near on the described top electrode frame (11) of described bipolar plates (2) one sides, have along described anode electrolysis liquid bath (113) the equally distributed anolyte distributing slot of length direction (114) in described bipolar plates (2) one sides that link to each other with this anode electrolysis liquid bath (113), at described catholyte ostium (117), and described catholyte tap hole (118) periphery is provided with O-ring seals (7) groove (116) that hermetic electrolyte liquid is used

Bottom electrode frame (12), have catholyte ostium (121) and catholyte tap hole (122) in the both sides, axis, wherein, described catholyte ostium (121) is coaxial relative with the second electrolyte stream via hole (212) on the described bipolar plates (2), described catholyte tap hole (122) is coaxial relative with the second electrolyte stream via hole (212 ') on the described bipolar plates (2), have the catholyte tanks (123) that communicates with described catholyte ostium (121) at described bottom electrode frame (12) near described bipolar plates (2) one sides, have equally distributed catholyte distributing slot (124) in described catholyte tanks (123) along the slot length direction, at described anolyte ostium (127), and described anolyte tap hole (128) periphery is provided with O-ring seals (7) groove (126) that hermetic electrolyte liquid is used

Not with described top electrode frame (11) that described bipolar plates (2) directly contacts on, have first seal groove (115) in the inboard of described anode electrolysis liquid bath (113), be used to settle an O RunddichtringO (115A), described O RunddichtringO (115A) position is between described anolyte ostium (111) and anolyte tap hole (112)

Not with described bottom electrode frame (12) that described bipolar plates (2) directly contacts on, have second seal groove (125) in the inboard of described catholyte tanks (123), be used to settle the 2nd O RunddichtringO (125A), described the 2nd O RunddichtringO (125A) position is between described catholyte ostium (121) and catholyte tap hole (122)

The outside of described second seal groove of the inner distance of described first seal groove (115) (125) is at least 2 millimeters.

2. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: described first seal groove (115) is positioned at described anolyte ostium (111), anolyte tap hole (112), and the inboard of anode electrolysis liquid bath (113); Described second seal groove (125) is positioned at described catholyte ostium (121), catholyte tap hole (122), and the inboard of catholyte tanks (123).

3. the bipolar plate frame of a kind of flow battery according to claim 1 is characterized in that: between described bipolar plates (2) and described top electrode frame (11), the bottom electrode frame (12) by bonding or elastic sealing gasket or heat merges welding or the laser welding mode connects.

4. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: the material of described bipolar plates (2) possesses the conducting current capacity, uses graphite cake or conductive plastic plate or metallic plate to make.

5. the bipolar plate frame of a kind of flow battery according to claim 1 is characterized in that: top electrode frame (11), bottom electrode frame (12) are by a kind of or two or more mixtures of following macromolecule engineering plastics: polyvinyl chloride, polyethylene, polypropylene, Merlon, Kynoar are made.

6. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: top electrode frame (11), bottom electrode frame (12) use engineering plastics of the same race, adopt plastics injection technique moulding or plastic mould pressing technological forming.

7. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: the shape of described first seal groove (115) and second seal groove (125) is any one in the following shape; T shape, Y shape, square, and rectangle.

8. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: when using described bipolar plate frame to form battery pile, described battery pile is in series by two above bipolar plate frames, in described top electrode frame (11), bottom electrode frame (12), fill electrode (6), between described O RunddichtringO (115A) on the adjacent bipolar plate frame and the 2nd O RunddichtringO (125A), place amberplex (8); Described battery pile upper/lower terminal sets gradually respectively and upper and lower charging unipolar plate (9) of aliging of described bipolar plate frame and pressure strip (1), uses screw (3) that pile is compressed till electrolyte does not leak.

9. the bipolar plate frame of a kind of flow battery according to claim 1, it is characterized in that: when using described bipolar plate frame to form battery pile, the area of the described amberplex (8) in the described battery pile does not hinder anolyte, catholyte to flow through electric pole plate (11) and lower electrode plate (12) greater than the area that described first seal groove (115) surrounds.

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