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Fuel cell cold start system based on liquid magnetic heat flow and control method

A technology of fuel cells and fuel cell stacks, which is applied in the direction of fuel cells, fuel cell additives, fuel cell heat exchange, etc., and can solve the problem of reduction of electrochemically active surface area, loss of electrochemically active area, and damage to fuel cell power generation performance, etc. question

Pending Publication Date: 2022-01-11
CHINA THREE GORGES NEW ENERGY CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] When the fuel cell does not take any protective measures, when it is started in a low temperature environment below 0°C, the water produced by the reaction will first freeze inside the catalytic layer, causing the active sites of the catalytic layer to be covered and oxygen The transmission is blocked, and the voltage drops suddenly; when the catalytic layer is completely covered by ice and the stack temperature has not risen above 0°C, ice will form in the diffusion layer and flow channel, resulting in cold start failure
On the other hand, the freezing process of the catalytic layer can lead to gaps between the catalytic layer and the proton exchange membrane, while the freezing / thawing cycle can cause the collapse and densification of the microporous structure of the catalytic layer and the coarsening of platinum particles in the catalytic layer. , resulting in the reduction of the electrochemically active surface area and it is difficult to recover, thereby causing permanent damage to the power generation performance of the fuel cell, and the more cycles, the lower the cold start temperature, the greater the damage to the battery
[0004] The current technical solution for the cold start of the fuel cell is to use gas purging to reduce the water content of the fuel cell membrane electrode when the stack is shut down, thereby reducing the formation of solid ice. The water generated by the electric stack will freeze, and firstly, ice will be generated at the part where the surface of the platinum particles is in contact with the ion resin. Once the temperature rises to room temperature, the melting of the ice at the interface between the platinum and the ion resin will cause the interface to detach, resulting in an irreversible electric current. loss of chemically active area

Method used

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  • Fuel cell cold start system based on liquid magnetic heat flow and control method
  • Fuel cell cold start system based on liquid magnetic heat flow and control method
  • Fuel cell cold start system based on liquid magnetic heat flow and control method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0073] Example 1, in cold start mode,

[0074] The thermal management controller 3 opens the second valve of the three-way solenoid valve 207 in the fuel cell thermal management unit 2, and then starts the first circulation pump 201 and the second circulation pump 202 respectively, so that the cooling liquid circuit of the fuel cell stack 1 The running trajectory is: first circulation pump 201 → three-way solenoid valve 207 → magnetic heat flow heat exchanger 204 → coolant temperature sensor 208 before the fuel cell stack inlet → fuel cell stack 1 → coolant temperature after the fuel cell stack outlet The sensor 209→the first circulation pump 201, thus forming the heat transfer fluid transfer circuit of the fuel cell stack;

[0075]The running track of the liquid magnetic substance is: second circulation pump 202→magnetic heat flow heat exchanger 204→third temperature sensor 210→second radiator 206→second circulation pump 202; during this process, the thermal management unit o...

Embodiment 2

[0076] Embodiment 2, in the normal thermal management mode, there are two different circulation paths for the coolant of the fuel cell stack 1, wherein,

[0077] When the fuel cell stack 1 has just completed low-temperature startup and has not yet reached the optimum operating temperature, the thermal management controller 3 turns off the second circulation pump 202 and the second radiator fan in the fuel cell thermal management unit 2, and maintains the first circulation The pump 201 and the second valve of the three-way solenoid valve 207 are still in an open state, so that the cooling fluid circulates according to the heat-carrying fluid transfer circuit of the aforementioned material-battery stack.

[0078] When the fuel cell stack 1 has entered the optimum operating temperature range, the thermal management controller 3 opens the first valve of the three-way solenoid valve 207 in the fuel cell thermal management unit 2, so that the cooling liquid circuit of the fuel cell s...

Embodiment 3

[0084] The above embodiments of the present invention also provide a control method for a fuel cell cold start system based on liquid magnetic heat flow, such as Figure 7 As shown, the method is implemented through the following steps:

[0085] In step 500, the thermal management controller 3 monitors the temperature T of the coolant passing through the fuel cell stack 1 F Value; in embodiment 1, thermal management controller 3 adopts T Fi and T Fo The average value of the fuel cell stack 1 coolant temperature T F value. Then, compare the fuel cell stack coolant temperature T F and the first threshold temperature T 1 and go to step 510.

[0086] In step 510, thermal management controller 3 monitors whether there is T F 1 If yes, go to step 511, otherwise go to step 520.

[0087] In step 511, the thermal management controller 3 turns on the second valve of the three-way solenoid valve 207 of the fuel cell thermal management unit 2, the first circulation pump 201, the s...

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Abstract

The invention relates to a fuel cell cold start system based on liquid magnetic heat flow and a control method, a fuel cell thermal management unit is communicated with a fuel cell stack, and a cooling loop and a magnetic working medium loop are arranged in the fuel cell thermal management unit, a heat management controller is electrically connected with a first circulating pump, a first radiator, a three-way electromagnetic valve, a first temperature sensor and a second temperature sensor in the cooling loop, and is electrically connected with a second circulating pump, a second radiator and a third temperature sensor in the magnetic working medium loop; the cold start of the fuel cell is realized by circularly transferring heat in the environment to the fuel cell stack by constructing magnetization heat release-demagnetization heat absorption-magnetization heat release in a low-temperature environment by utilizing a magnetothermal effect of a magnetic material, so that the energy consumption is low, the utilization rate and the endurance mileage of the fuel cell are favorably improved, and the loss of irreversible electrochemical active area caused by interface separation of platinum and ion resin due to ice melting is avoided.

Description

technical field [0001] The invention belongs to the technical field of fuel cells, and relates to a fuel cell cold start system and control method based on liquid magnetic heat flow. Background technique [0002] As one of the solutions for vehicle electrification, the large-scale commercialization of fuel cell vehicles still has problems such as high cost, short life, and weak hydrogen infrastructure. Among them, the cold start problem of fuel cells is one of the key technical bottlenecks hindering the commercialization of fuel cells, and it is the biggest challenge for fuel cell vehicles to operate in winter. [0003] When the fuel cell does not take any protective measures, when it is started in a low temperature environment below 0°C, the water produced by the reaction will first freeze inside the catalytic layer, causing the active sites of the catalytic layer to be covered and oxygen The transmission is blocked, and the voltage drops suddenly; when the catalytic layer...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M8/04007H01M8/04029H01M8/04223H01M8/04225H01M8/04302H01M8/04701F25B21/00
CPCH01M8/04225H01M8/04302H01M8/04268H01M8/04029H01M8/04074H01M8/04253H01M8/04701F25B21/00H01M2250/20Y02E60/50Y02B30/00
Inventor 季孟波
Owner CHINA THREE GORGES NEW ENERGY CO LTD
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