CN2932640Y - Easily-encapsulated fuel battery pack inlet/outlet pipe structure - Google Patents

Abstract

The utility model relates to an in-out conduit structure of an integrated fuel battery stack, comprising three in-out pipelines of a hydrogen gas in-out pipeline, an air in-out pipeline and a cooling fluid in-out pipeline, wherein the three in-out pipelines are square pipes. The square pipes lead out the front and the back ends of the electric stack from a flow collection board on the center of the fuel battery stack, clings the edge of the fuel battery stack to lead out, then circular pipes are used to connect with the square pipe through a circle-to-square joint, and finally the square pipe are connected to the air supplying system. The hydrogen gas in-out pipeline and the cooling fluid in-out pipeline are circular pipes. And the circular pipes lead out the front and the back two ends of the electric stack from a flow collection board on the center of the fuel battery stack, then lead out from the square pipe which lets the air in and out or separately lead out with the square pipe which lets the air in and out from the two sides. Compared with the prior art, the utility model has the characteristics of saving space, installing easily, proofing water and dust, and the like.

Description

The fuel cell pack inlet and outlet piping structure that is easy to encapsulate

Technical field

The utility model relates to fuel cell, relates in particular to the fuel cell pack inlet and outlet piping structure that is easy to encapsulate.

Background technology

Electrochemical fuel cell is a kind of device that hydrogen fuel and oxidant can be changed into electric energy and product.The internal core parts of this device are membrane electrode (Membrane Electrode Assembly are called for short MEA), and membrane electrode (MEA) is made up of as carbon paper a proton exchange membrane, two porous conductive materials of film two sides folder.The catalyst that contains the initiation electrochemical reaction of even tiny dispersion on two boundary faces of film and carbon paper is as the metal platinum catalyst.The electronics that the membrane electrode both sides can will take place to generate in the electrochemical reaction process with conductive body is drawn by external circuit, constitutes current circuit.

At the anode tap of membrane electrode, fuel can pass porousness diffusion material (carbon paper) by infiltration, and electrochemical reaction takes place on catalyst surface, lose electronics, form cation, cation can pass proton exchange membrane by migration, arrives the other end cathode terminal of membrane electrode.At the cathode terminal of membrane electrode, contain the gas of oxidant (as oxygen), as air, pass porousness diffusion material (carbon paper), and the generation electrochemical reaction obtains electronics on catalyst surface, forms anion by infiltration.The cation of coming in the anion and the anode tap migration of cathode terminal formation reacts, and forms product.

Adopting hydrogen is fuel, and the air that contains oxygen is in the Proton Exchange Membrane Fuel Cells of oxidant (or pure oxygen is an oxidant), and fuel hydrogen has just produced hydrogen cation (or being proton) in the catalytic electrochemical reaction of anode region.Proton exchange membrane helps the hydrogen cation to move to the cathodic region from the anode region.In addition, proton exchange membrane is separated the air-flow and the oxygen containing air-flow of hydrogen fuel, they can not mixed mutually and produces explosion type reaction.

In the cathodic region, oxygen obtains electronics on catalyst surface, forms anion, and moves the hydrogen cation reaction of coming, reaction of formation product water with the anode region.In the Proton Exchange Membrane Fuel Cells that adopts hydrogen, air (oxygen), anode reaction and cathode reaction can be expressed in order to following equation:

Anode reaction: H ₂→ 2H ⁺+ 2e

Cathode reaction: 1/2O ₂+ 2H ⁺+ 2e → H ₂O

In typical Proton Exchange Membrane Fuel Cells, membrane electrode (MEA) generally all is placed in the middle of the pole plate of two conductions, and quarter is milled by die casting, punching press or machinery in the surface that every block of flow guiding electrode plate contacts with membrane electrode, and formation is the guiding gutter of one or more at least.These flow guiding electrode plates can be the pole plates of metal material, also can be the pole plates of graphite material.Water conservancy diversion duct on these flow guiding electrode plates and guiding gutter import fuel and oxidant the anode region and the cathodic region on membrane electrode both sides respectively.In the structure of a Proton Exchange Membrane Fuel Cells monocell, only there is a membrane electrode, the membrane electrode both sides are respectively the guide plate of anode fuel and the guide plate of cathode oxidant.These guide plates are both as the current collector motherboard, also as the mechanical support on membrane electrode both sides, guiding gutter on the guide plate acts as a fuel again and enters the passage of anode, cathode surface with oxidant, and as the passage of taking away the water that generates in the fuel cell operation process.

In order to increase the gross power of whole Proton Exchange Membrane Fuel Cells, two or more monocells can be connected into battery pack or be unified into battery pack by the mode that tiles usually by straight folded mode.In straight folded, in-line battery pack, can there be guiding gutter on the two sides of a pole plate, and wherein one side can be used as the anode guide face of a membrane electrode, and another side can be used as the cathode diversion face of another adjacent membranes electrode, and this pole plate is called bipolar plates.A series of monocell connects together by certain way and forms a battery pack.Battery pack tightens together by front end-plate, end plate and pull bar usually and becomes one.

A typical battery stack generally includes: the water conservancy diversion import and the flow-guiding channel of (1) fuel and oxidant gas are distributed to fuel (as hydrogen, methyl alcohol or the hydrogen-rich gas that obtained by methyl alcohol, natural gas, gasoline) and oxidant (mainly being oxygen or air) in the guiding gutter of each anode, cathode plane equably after reforming; (2) import and export and the flow-guiding channel of cooling fluid (as water) are evenly distributed to cooling fluid in each battery pack inner cooling channel, the heat absorption that hydrogen in the fuel cell, the exothermic reaction of oxygen electrochemistry are generated and take battery pack out of after dispel the heat; (3) outlet of fuel and oxidant gas and corresponding flow-guiding channel, fuel gas and oxidant gas are when discharging, and portability goes out the liquid that generates in the fuel cell, the water of steam state.Usually, the import and export of all fuel, oxidant, cooling fluid are all opened on the end plate of fuel battery or on two end plates.

Proton Exchange Membrane Fuel Cells can be used as the dynamical system of delivery vehicles such as all cars, ship, can make portable, portable, fixed Blast Furnace Top Gas Recovery Turbine Unit (TRT) again.The Proton Exchange Membrane Fuel Cells electricity generation system must comprise fuel cell pack, fuel hydrogen supply, air supply, cooling heat dissipation, various piece such as control and electric energy output automatically.Stable and the reliability of Proton Exchange Membrane Fuel Cells operation is very important to the application as car, ship power system or movable Blast Furnace Top Gas Recovery Turbine Unit (TRT).Stable and the reliability that wherein improves fuel cell pack is crucial.

At present, hydrogen supply, air supply, cooling heat dissipation various piece pipeline all are three to advance the three circular pipelines that go out in the Proton Exchange Membrane Fuel Cells electricity generation system, occupy very large space, when these pipelines particularly carry out the waterproof and dustproof encapsulation with fuel cell pack, because battery pile is square, the space that must have does not fully utilize, and causes waste, and encapsulation difficulty is bigger.

Summary of the invention

The purpose of this utility model is exactly a kind of conserve space that provides in order to address the above problem, the fuel cell pack inlet and outlet piping structure that is easy to encapsulate of waterproof and dustproof.

The purpose of this utility model is achieved in that the fuel cell pack inlet and outlet piping structure that is easy to encapsulate, this design comprises that three of hydrogen turnover pipeline, air turnover pipeline, cooling fluid turnover pipeline advances three and go out pipeline, it is characterized in that, described air turnover pipeline is a rectangular tube, this rectangular tube is drawn the pile rear and front end from fuel cell pack intermediate collector plate, being close to the fuel cell pack edge draws, become square joint with round tube by circle again and dock, be connected to air supply system with this rectangular tube; Described hydrogen turnover pipeline, cooling fluid turnover pipeline are round tube, this round tube is drawn the pile rear and front end from fuel cell pack intermediate collector plate, pass the rectangular tube of turnover air, draw, or draw with the rectangular tube branch both sides of turnover air from air rectangular tube one or both ends.

Described three advance three parts that go out the close fuel cell pack of pipeline encapsulates with fuel cell pack, and its outlet is drawn from the package board face as required, and the rectangular tube that wherein passes in and out air adopts the deformable joints of hemispherical dome or old name for the Arabian countries in the Middle East's ground circle to be connected with round tube.

Described rectangular tube is identical with respective circular pipe cross-sectional area.

Described fuel cell pack is that integrated form battery heap comprises the monocell heap.

Described hydrogen turnover pipeline, cooling fluid turnover pipeline are arranged in air rectangular tube inside, and cross-sectional area is littler than whole air rectangular tube area.

Described hydrogen turnover pipeline, cooling fluid turnover pipeline are arranged in air rectangular tube inside, and from air rectangular tube tube wall into and out of through welded seal.

Compared with prior art, the circuit design that the utility model will be drawn from battery pile is a rectangular tube, encapsulates with battery pile, save the space, helped carrying out the water proof and dust proof encapsulation, and rectangular tube is identical with corresponding round tube cross-sectional area, and resistance is constant, and it is unimpeded to have guaranteed that fluid flows.

Description of drawings

Fig. 1 is that three of prior art fuel cell advances three and goes out the pipeline schematic diagram;

Fig. 2 is that three of the utility model fuel cell advances three and goes out the pipeline schematic diagram.

Embodiment

Embodiment:

Three of present 60kw integrated fuel cell pile advances three and goes out pipeline (as shown in Figure 1), hydrogen turnover pipeline 3, air turnover pipeline 2, cooling fluid turnover pipeline 4 is drawn the pile rear and front end from fuel cell pack 1 intermediate collector plate, the utility model relates to the fuel cell pack inlet and outlet piping structure (as shown in Figure 2) that is easy to encapsulate, this design comprises hydrogen turnover pipeline 3, air turnover pipeline 2, cooling fluid turnover pipeline 4 grades three are advanced three and are gone out pipeline, it is characterized in that, described air turnover pipeline is a rectangular tube, this rectangular tube is drawn the pile rear and front end from fuel cell pack intermediate collector plate, being close to the fuel cell pack edge draws, become square joint with round tube by circle again and dock, be connected to air supply system with this rectangular tube; Described hydrogen turnover pipeline, cooling fluid turnover pipeline are round tube, this round tube is drawn the pile rear and front end from fuel cell pack intermediate collector plate, pass the rectangular tube of turnover air, draw, or draw with the rectangular tube branch both sides of turnover air from air rectangular tube one or both ends.

Described three advance three parts that go out the close fuel cell pack of pipeline encapsulates with fuel cell pack, and its outlet is drawn from the package board face as required, and the rectangular tube that wherein passes in and out air adopts the deformable joints of hemispherical dome or old name for the Arabian countries in the Middle East's ground circle to be connected with round tube.Described air rectangular tube is identical with corresponding butt joint round tube cross-sectional area, is 30cm ²Described fuel cell pack is that integrated form battery heap comprises the monocell heap.Described hydrogen passes in and out circular pipeline and is arranged in air rectangular tube inside, and cross-sectional area is 2cm ², cooling fluid passes in and out circular pipeline and is arranged in air rectangular tube inside, cross-sectional area is 5cm ²Described hydrogen turnover pipeline, cooling fluid turnover pipeline are arranged in air rectangular tube inside, and from air rectangular tube tube wall into and out of through welded seal.

The circuit design that the utility model will be drawn from battery pile is a rectangular tube, encapsulate with battery pile, saved the space, helped carrying out the water proof and dust proof encapsulation, and rectangular tube is identical with corresponding round tube cross-sectional area, resistance is constant, and it is unimpeded to have guaranteed that fluid flows.

Claims (5)

1. be easy to the fuel cell pack inlet and outlet piping structure that encapsulates, this design comprises that three of hydrogen turnover pipeline, air turnover pipeline, cooling fluid turnover pipeline advances three and go out pipeline, it is characterized in that, described air turnover pipeline is a rectangular tube, this rectangular tube is drawn the pile rear and front end from fuel cell pack intermediate collector plate, be close to the fuel cell pack edge and draw, become square joint with round tube by circle again and dock, be connected to air supply system with this rectangular tube; Described hydrogen turnover pipeline, cooling fluid turnover pipeline are round tube, this round tube is drawn the pile rear and front end from fuel cell pack intermediate collector plate, pass the rectangular tube of turnover air, draw, or draw with the rectangular tube branch both sides of turnover air from air rectangular tube one or both ends.

2. the fuel cell pack inlet and outlet piping structure that is easy to encapsulate according to claim 1, it is characterized in that, described three advance three parts that go out the close fuel cell pack of pipeline encapsulates with fuel cell pack, its outlet is drawn from the package board face as required, and the rectangular tube that wherein passes in and out air adopts the deformable joints of hemispherical dome or old name for the Arabian countries in the Middle East's ground circle to be connected with round tube.

3. the fuel cell pack inlet and outlet piping structure that is easy to encapsulate according to claim 1 is characterized in that described rectangular tube is identical with respective circular pipe cross-sectional area.

4. the fuel cell pack inlet and outlet piping structure that is easy to encapsulate according to claim 1 is characterized in that, described fuel cell pack is that integrated form battery heap comprises the monocell heap.

5. the fuel cell pack inlet and outlet piping structure that is easy to encapsulate according to claim 1 is characterized in that, described hydrogen turnover pipeline, cooling fluid turnover pipeline are arranged in air rectangular tube inside.

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