Efficient membrane humidifier for fuel cell

Abstract

The invention discloses a fuel cell efficient membrane humidifier which at least comprises a shell, opposite humidifying medium inlets and outlets are formed in the two sides of the shell, a flow guide cavity is formed in the shell, and the humidifying medium inlets and outlets are communicated with the flow guide cavity; a membrane humidifying assembly is arranged between the flow guide cavitiesin the two sides of the interior of the shell and is at least provided with humidifying membrane pipes arranged in a square matrix mode; connecting flow guide end covers are arranged on the two sides,adjacent to the inlet and outlet, of the shell, and the flow guide end covers on the two sides communicate with air guide openings. By means of the structure, the impact and separation effect betweenpipe bundles of the humidification film pipe can be effectively reduced, disturbance in a flow field is reduced, and the flow distribution uniformity of humidification media on the outer side of thehumidification film pipe is improved; the air flow in the humidifying membrane tube is smoother, the membrane tube is prevented from vibrating, the resistance in the membrane tube is reduced, and theservice life of the membrane tube is prolonged; in addition, the uniform gaps formed in the longitudinal direction of the humidifying film pipe increase the filling rate of the film pipe and meanwhiledo not increase resistance, and therefore the mass and heat transfer efficiency of the whole humidifier is improved.

Description

technical field [0001] The invention relates to the field of proton exchange membrane fuel cell systems, in particular to a fuel cell high-efficiency membrane humidifier. Background technique [0002] Proton exchange membrane fuel cell (PEMFC) has the advantages of environmental protection, high efficiency, fast start-up speed, and high power density. It is one of the main competitors in the future transportation power system. work performance. Both fuel cell air and hydrogen intake need to be humidified to prevent dehydration of the proton exchange membrane from reducing battery performance and working life, so that the fuel cell can work efficiently. Among many humidification technology routes, the wet exhaust gas placed in PEMFC is recycled by the membrane humidifier to humidify and heat the reactants, because it has the advantages of stable humidification, strong controllability, large humidification capacity, and no additional power consumption. It has become the curr...

AI Technical Summary

Problems solved by technology

[0004] in, figure 1 It is randomly placed in the same direction. In this form, since the humidifying membrane tube 20 is soft, the state of the humidifying membrane tube 20 in the humidification module is bent and in a loose state, and bending will increase the flow resistance of the dry air field , and will cause the vibration of the humidifying membrane tube 20 due to the Coanda effect, which will increase the flow resistance and affect the service life of the humidifying membrane tube 20; the randomness of the random distribution of the tube bundle will seriously deteriorate the velocity distribution of the external flow field of the tube bundle , this non-uniform flow distribution makes the random arrangement of the tube bundles lead to a significant decrease in the heat and mass transfer performance, and the conjugate boundary on the membrane surface of the humidifying membrane tube 20 makes this worse effect, and the corresponding convective heat and mass transfer coefficient Lower than that under ideal boundary conditions; the filling rate of the integrated membrane tube of the whole humidifier is lower, which affects the humidification efficiency;

[0005] in, figure 2 It is bundled into bundles and randomly placed in the same direction. In this form, since the humidifying membrane tubes 20 are relatively soft, even if bundled into bundles, although the transverse bending has been improved, there are still disadvantages of random placement; bundled tube bundles

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