CN107910572A - A kind of hydrogen storage material reaction chamber and its fuel cell power generating system - Google Patents

Abstract

The invention discloses a kind of hydrogen storage material reaction chamber and its fuel cell power generating system, above-mentioned fuel cell power generating system, including water tank, water pump, fuel cell unit, have the feature that, the water outlet of water tank is connected with the water inlet of water pump by pipeline, the water outlet of water pump and the first connector of reaction chamber are connected by pipeline, and the second connector of reaction chamber is connected with fuel cell unit by pipeline.Production hydrogen is hydrolyzed with vapor magnesium hydride in the present invention, and produces reaction heat, to be pyrolyzed the pyrolysis hot environment of hydrogen storage material, to make it to be pyrolyzed in high temperature environments and discharge hydrogen, and utilize the hydrogen supply fuel cell power generation produced.Above-mentioned processing mode, it is not necessary to extra heating equipment, the shortcomings that exempting extra weight, volume and consume energy；Meanwhile hydrogen storage material pyrolysis can also be used and put hydrogen suction thermal property, the cavity wall temperature of reaction chamber can be further reduced, the thickness that high temperature dwell sheath uses can be reduced, reduces small product size and weight.

Description

A kind of hydrogen storage material reaction chamber and its fuel cell power generating system

Technical field

The present invention relates to field of fuel cell technology, more particularly to a kind of hydrogen storage material reaction chamber and its fuel cell power generation Device.

Background technology

Hydrogen can be converted into electric energy by fuel cell.The source of hydrogen has two kinds, and one kind can be to be stored in container High-pressure liquid hydrogen storage mode；Another kind is referred to as hydrogen storage material to be stored in inside material.High-pressure hydrogen storing mode has high pressure to let out The danger of leakage, liquid hydrogen storage mode have the problem of heating liquid hydrogen boiling, and hydrogen storage material hydrogen storage mode is acknowledged as most safe Hydrogen storage method.Hydrogen is extracted in hydrogen storage material, supply fuel cell is used, can generated electricity.

Magnesium hydride (MgH₂) it is a kind of known hydrogen storage material, it can be reacted with water and produce hydrogen, and substantial amounts of heat is released, its Chemical equation is MgH_2(S)+H₂O_(l)=Mg (OH)_2(S)+H_2(g)↑, Δ H=-268kJ/mol.

Above-mentioned production hydrogen methods are called hydrolytic hydrogen production.In hydrolytic hydrogen production method, liquid water is squeezed into instead out of water tank with water pump Answer chamber to produce hydrogen with magnesium hydride haptoreaction, then hydrogen importing fuel cell can be generated electricity, above-mentioned hydrolytic hydrogen production method lacks Point is low with the reaction rate of magnesium hydride for liquid water so that the speed that hydrogen produces is low (or hydrogen flowing quantity is low), and directly leads Cause the generated output of fuel cell low.

To solve the problems, such as that liquid water is low with magnesium hydride reaction rate, it is (anti-to be catalyzed that reaction promoter is added in the reaction Answer mode or other modes to promote reaction) method be suggested, such as chlorate, NH are added in liquid water₄Cl、MgCl₂、 Citric acid, LaH₃。

Add hydrolysis accelerating agent except directly improve using material cost in addition to, also one it is fatal the shortcomings that be exactly When electric generator using fuel battery (or hydrolysis production hydrogen storage equipment) is in the handling process when tiltedly or just falling for caused by unexpected hectares, liquid water will Fuel cell is flowed out to along hydrogen outlet, the liquid water impurity of this outflow is very much, it may be possible to acid or alkalescence, in some instances it may even be possible to It is to carry MgH₂Or Mg (OH)₂Or the suspension liquid of MgO, this impurity liquid or suspension liquid, the film electricity of fuel cell will be covered Pole, makes hydrogen can not be contacted with membrane electrode, and fuel cell power generation power is greatly reduced so that reducing fuel battery service life.

In addition, the valve on acid or akaline liquid corrosion pipeline and pipeline, what is more, corrosivity acidity or alkalies State water along pipeline by fuel cell after, leak into outside, pollute user and environment, injure bigger is suspension Know from experience obstruction hydrogen pipeline, cause hydrogen pipeline air pressure excessive and burst, cause danger.

In view of the above-mentioned problems, it has been proposed that gaseous state-solid-state reaction (gas-solidreaction), that is, water vapour-hydrogen Compound hydrolysis method, is not present liquid in the above method, it is not required that hydrolysis accelerating agent, can solve above-mentioned liquid water The problem of solution production hydrogen.In water vapour-hydride hydrolysis method, liquid water is got from water tank with water pump, by heater, Liquid water is vaporized into water vapour, and then water vapour enters reaction chamber and magnesium hydride haptoreaction generation hydrogen, then hydrogen is imported Fuel cell can generate electricity.Because magnesium hydride hydrolysis is heat release, the temperature of reaction chamber can maintain more than 100 DEG C, height The reaction chamber of temperature is not in liquid water, and hydrolysis releases heat and can be used and substitutes heater to make liquid water vapor Into vapor.But common hydrogen storage material be required for hot environment (>Room temperature) it can just discharge hydrogen supply fuel cell Use, such as Mg (BH₄)₂(NH₃)₂There are about 13wt.% high hydrogen storages, but about 380 DEG C of operating temperature；Such as SolidAB (NH₃BH₃) there are about 16wt.% high hydrogen storages, but about 160 DEG C of operating temperature；Such as Mg (BH₄)₂There are about 11wt.% high hydrogen storages, But about 350 DEG C of operating temperature.These elevated operating temperatures limit the use of these hydrogen storage materials, or use these hydrogen storage materials Need additionally to heat, cause volume weight increase and energy consumption issues.

The content of the invention

For the above problem existing for existing field of fuel cell technology, one kind is now provided and is intended to reduce water reactor wall Temperature, the hydrogen storage material reaction chamber and its fuel cell using thickness, reduction device volume and weight for reducing high temperature dwell sheath Power generator.

Concrete technical scheme is as follows：

The first aspect of the invention is to provide a kind of hydrogen storage material reaction chamber, applied in fuel cell power generating system, Have the feature that, be equipped with barrier layer in reaction chamber, barrier layer surrounds to form closed area, and first is filled with closed area Hydrogen storage material, the outside in relative closure region is equipped with the second hydrogen storage material in reaction chamber, also, reaction chamber is equipped with and is used to be passed through Water vapour and the first connector for being connected with closed area and extension and connect successively with reaction chamber and closed area for leading to Go out the second connector of hydrogen.

Also it can remove barrier layer in the present invention, the periphery of the first hydrogen storage material be directly piled up in by the second hydrogen storage material.

Above-mentioned hydrogen storage material reaction chamber, also has the feature that, the first hydrogen storage material is MgH₂, the second hydrogen storage material To be pyrolyzed hydrogen storage material.

Above-mentioned hydrogen storage material reaction chamber, also has the feature that, the first hydrogen storage material is to be pyrolyzed hydrogen storage material, second Hydrogen storage material is MgH₂。

Above-mentioned hydrogen storage material reaction chamber, also has the feature that, pyrolysis hydrogen storage material is selected from metal hydride, be situated between gold Belong to hydrogen storage material (such as AB2 type hydrogen storage alloys, AB5 type hydrogen storage alloys), metal hydroboron (such as LiBH₄、NaBH₄、KBH₄、 Be(BH₄)₂、Mg(BH₄)₂、Ca(BH₄)₂、Al(BH₄)₃、LiK(BH4)4、LiSc(BH₄)₄、LiMn(BH₄)₃Deng), metal nitrogen hydrogenation Compound (such as Mg (NH₂)₂、Ca(NH₂)₂、Mg(BH₄)₂(NH₃)₂、LiNH₂、Li₂NH, Li-N-H, Li-Mg-N-H, Ca-N-H system, Li-Mg-N-H、Li₄MgCaN₄H₄Deng), metal alanates (such as NaAlH₄、Na₂LiAlH₆、Na₃AlH₆、LiAlH₄、KAlH₄、Mg (AlH₄)₂、NaAlH₆-xFx、CaAlH₅Deng), amino borane compound (such as NHBH, NH₂BH₂、NH₃BH₃、LiNH₂BH₃、 NaNH₂BH₃Deng), element hydride (such as LiH, NaH, KH, BeH₂、MgH₂、CaH₂、AlH₃、CH₄、SiH₄、NH₃Deng) or liquid have One or more in machine hydrogen storage material (such as benzene, toluene, hexamethylene, hexahydrotoluene, decahydronaphthalenes, tetrahydronaphthalene).

Above-mentioned hydrogen storage material reaction chamber, also has the feature that, barrier layer is selected from metallic plate, metal mesh, foaming gold One or more in category, heat insulation foam, ceramic wool ceramic wafer or ceramic powders.

The second hydrogen storage material being arranged in the present invention outside closed area, can be Rotating fields, that is, be arranged at enclosed area One or more in the top in overseas relative closure region, lower section, left or right side, also can in reaction chamber relatively above-mentioned envelope Closed region is stuffed entirely with outside.

The second aspect of the invention is to provide a kind of hydrogen storage material reaction chamber, applied in fuel cell power generating system, Have the feature that, be equipped with barrier layer in reaction chamber, barrier layer surrounds to form closed area, and hydrogen storage material is equipped with closed area Material, hydrogen storage material is by MgH₂With pyrolysis hydrogen storage material be mixed to form, also, reaction chamber be equipped be used for be passed through water vapour and with resistance The first connector that interlayer offsets and for pass-out hydrogen and the second connector for offseting with barrier layer.

Above-mentioned hydrogen storage material reaction chamber, also has the feature that, pyrolysis hydrogen storage material is selected from metal hydride, be situated between gold Belong to hydrogen storage material (such as AB2 type hydrogen storage alloys, AB5 type hydrogen storage alloys), metal hydroboron (such as LiBH₄、NaBH₄、KBH₄、 Be(BH₄)₂、Mg(BH₄)₂、Ca(BH₄)₂、Al(BH₄)₃、LiK(BH4)4、LiSc(BH₄)₄、LiMn(BH₄)₃Deng), metal nitrogen hydrogenation Compound (such as Mg (NH₂)₂、Ca(NH₂)₂、Mg(BH₄)₂(NH₃)₂、LiNH₂、Li₂NH, Li-N-H, Li-Mg-N-H, Ca-N-H system, Li-Mg-N-H、Li₄MgCaN₄H₄Deng), metal alanates (such as NaAlH₄、Na₂LiAlH₆、Na₃AlH₆、LiAlH₄、KAlH₄、Mg (AlH₄)₂、NaAlH₆-xFx、CaAlH₅Deng), amino borane compound (such as NHBH, NH₂BH₂、NH₃BH₃、LiNH₂BH₃、 NaNH₂BH₃Deng), element hydride (such as LiH, NaH, KH, BeH₂、MgH₂、CaH₂、AlH₃、CH₄、SiH₄、NH₃Deng) or liquid have One or more in machine hydrogen storage material (such as benzene, toluene, hexamethylene, hexahydrotoluene, decahydronaphthalenes, tetrahydronaphthalene).

The third aspect of the invention is to provide a kind of fuel cell power generating system using above-mentioned hydrogen storage material reaction chamber, Including water tank, water pump, fuel cell unit, have the feature that, the water outlet of water tank and the water inlet of water pump pass through pipe Road connects, and the water outlet of water pump and the first connector of reaction chamber are connected by pipeline, the second connector and the combustion of reaction chamber Material battery pack is connected by pipeline.

Above-mentioned fuel cell power generating system, also has the feature that, further includes heater, and heater is arranged on water pump On pipeline between the first connector.

The beneficial effect of such scheme is：

With vapor-magnesium hydride hydrolysis production hydrogen in the present invention, and reaction heat is produced, to be carried to be pyrolyzed the pyrolysis of hydrogen storage material For hot environment, it is pyrolyzed in high temperature environments and discharge hydrogen, and utilize the hydrogen supply fuel cell power generation produced. Above-mentioned processing mode, it is not necessary to extra heating equipment, the shortcomings that exempting extra weight, volume and consume energy；Meanwhile hydrogen storage The process of the high temperature release hydrogen of material is the endothermic reaction, therefore, puts hydrogen using hydrogen storage material pyrolysis and inhales thermal property, relative to Vapor-magnesium hydride hydrolysis production hydrogen is used alone, can further reduce the cavity wall temperature of reaction chamber, reduce high temperature dwell sheath and use Thickness, and reduce the volume and weight of device.

Brief description of the drawings

Fig. 1 is the structure diagram of the hydrogen storage material reaction chamber provided in the embodiment of the present invention.

In attached drawing：1st, reaction chamber, 2, barrier layer；3rd, the first hydrogen storage material；4th, the second hydrogen storage material；5th, the first connector； 6th, the second connector.

Embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art obtained on the premise of creative work is not made it is all its His embodiment, belongs to the scope of protection of the invention.

It should be noted that in the case where there is no conflict, the feature in embodiment and embodiment in the present invention can phase Mutually combination.The invention will be further described with specific embodiment below in conjunction with the accompanying drawings, but not as limiting to the invention.

Fig. 1 is the structure diagram of the fuel cell reaction chamber provided in the embodiment of the present invention.As shown in Figure 1, this hair In the fuel cell reaction chamber provided in bright embodiment, reaction chamber 1 is cylindrical shape, and barrier layer 2 is equipped with reaction chamber 1, is obstructed Layer 2 surrounds to form closed area, is filled with the first hydrogen storage material 3 in closed area, the outside in relative closure region in reaction chamber 1 Equipped with the second hydrogen storage material 4, also, reaction chamber 1 is equipped with and is used to be passed through water vapour and is connected with the first of closed area connection Mouthfuls 5 and extend and connect the second connector 6 for pass-out hydrogen with reaction chamber 1 and closed area successively, in the present embodiment Barrier layer 2 is made of heat insulation foam.

The fuel cell reaction chamber provided in the present embodiment can be applied in fuel cell power generating system, above-mentioned fuel cell Power generator specifically includes water tank, water pump, heater, fuel cell unit, and the water outlet of water tank and the water inlet of water pump lead to Pipeline connection is crossed, the water outlet of water pump and the first connector of reaction chamber are connected by pipeline, the second connector of reaction chamber It is connected with fuel cell unit by pipeline, heater is arranged on the pipeline between water pump and the first connector, in the present embodiment In order to control hydrogen flowing quantity, one or more first connectors 5 can be used, to be controlled by controlling the intake of water vapour The yield of hydrogen；In the present embodiment also can by selecting suitable pyrolysis hydrogen storage material to control the generation of hydrogen, this be because It can be controlled whether to put hydrogen with equilibrium hydrogen pressure for pyrolysis hydrogen storage material or inhale hydrogen, specifically, some pyrolysis hydrogen storage materials have Equilibrium hydrogen pressure, when Hydrogen Vapor Pressure is more than equilibrium hydrogen pressure, then hydrogen storage material inhales hydrogen；If hydrogen is less than equilibrium hydrogen pressure During power, then hydrogen storage material can put hydrogen, therefore pyrolysis hydrogen storage material also serves as the buffering on total system for producing hydrogen.

, can be with after pyrolysis hydrogen storage material release hydrogen because pyrolysis hydrogen storage material can also inhale hydrogen in the present embodiment Hydrogen is recharged again, with sharp Reusability.

Hydrogen is recharged in the present embodiment to be carried by exterior offer hydrogen or by the hydrogen of magnesium hydride hydrolysis generation For.

It these are only preferred embodiments of the present invention, not thereby limit embodiments of the present invention and protection domain, it is right For those skilled in the art, it should can appreciate that and all be replaced with being equal made by description of the invention and diagramatic content Change and obviously change obtained scheme, should be included in protection scope of the present invention.

Claims (9)

1. a kind of hydrogen storage material reaction chamber, applied in fuel cell power generating system, it is characterised in that be equipped with the reaction chamber Barrier layer, the barrier layer surround to form closed area, and the first hydrogen storage material, the reaction chamber are filled with the closed area Inside the outside of relatively described closed area is equipped with the second hydrogen storage material, also, the reaction chamber is equipped with and is used to be passed through water vapour And the first connector for being connected with the closed area and extension and connect successively with the reaction chamber and the closed area with The second connector for pass-out hydrogen.

2. hydrogen storage material reaction chamber according to claim 1, it is characterised in that first hydrogen storage material is MgH₂, it is described Second hydrogen storage material is pyrolysis hydrogen storage material.

3. hydrogen storage material reaction chamber according to claim 1, it is characterised in that first hydrogen storage material is pyrolysis hydrogen storage Material, second hydrogen storage material are MgH₂。

4. the hydrogen storage material reaction chamber according to Claims 2 or 3, it is characterised in that the pyrolysis hydrogen storage material is selected from gold Belong to hydride, Jie's metal hydrogen storage material, metal hydroboron, metal-N-H, metal alanates, amino borane One or more in compound, element hydride or liquid organic hydrogen storage material.

5. hydrogen storage material reaction chamber according to claim 4, it is characterised in that the barrier layer is selected from metallic plate, metal One or more in net, foaming metal, heat insulation foam, ceramic wool ceramic wafer or ceramic powders.

6. a kind of hydrogen storage material reaction chamber, applied in fuel cell power generating system, it is characterised in that be equipped with the reaction chamber Barrier layer, the barrier layer surround to form closed area, are equipped with hydrogen storage material in the closed area, the hydrogen storage material by MgH₂With pyrolysis hydrogen storage material be mixed to form, also, the reaction chamber be equipped be used for be passed through water vapour and with the enclosed area First connector of domain connection and the second connector connected for pass-out hydrogen and with the closed area.

7. hydrogen storage material reaction chamber according to claim 6, it is characterised in that the pyrolysis hydrogen storage material is selected from metallic hydrogen Compound, Jie's metal hydrogen storage material, metal hydroboron, metal-N-H, metal alanates, amino borane chemical combination One or more in thing, element hydride or liquid organic hydrogen storage material.

8. a kind of fuel cell power generating system, including water tank, water pump, fuel cell unit, it is characterised in that further include such as right It is required that the water inlet of 1-7 any one of them hydrogen storage material reaction chambers, the water outlet of the water tank and the water pump passes through pipe Road connects, and the water outlet of the water pump is connected with the first connector of the reaction chamber by pipeline, and the of the reaction chamber Two connectors are connected with the fuel cell unit by pipeline.

9. fuel cell power generating system according to claim 8, it is characterised in that further include heater, the heater On pipeline between the water pump and first connector.