A dehydrogenation reaction system of liquid hydrogen source material and its application method

Abstract

The invention discloses a liquid hydrogen source material dehydrogenation reaction system and an application method thereof. The dehydrogenation system comprises a storage device used for storing a liquid hydrogen source material and a liquid hydrogen-storage carrier, a reaction kettle used for dehydrogenating the liquid hydrogen source material, a buffering tank used for storing hydrogen gas, and a heating device arranged outside the reaction kettle and used for heating the reaction kettle. According to the invention, the liquid hydrogen source material is delivered into the reaction kettle through a pump; the liquid hydrogen source material is dehydrogenated in the reaction kettle; produced hydrogen gas is delivered to the buffering tank; and residual liquid hydrogen-storage carrier is delivered back to the hydrogen storage tank. The normal-temperature normal-pressure liquid hydrogen source material dehydrogenation system provided by the invention is used for carrying out a dehydrogenation reaction upon the liquid hydrogen source material. The produced hydrogen gas is supplied for a fuel cell or an internal combustion engine. The hydrogen gas is converted into electrical energy or mechanical energy which can be applied in various industrial and civil fields such as automobiles, electrical power, energy storage, chemical engineering, pharmacy, and mobile devices.

Description

technical field [0001] The invention relates to the technical field of organic liquid hydrogen storage, in particular to a dehydrogenation system of a liquid hydrogen source material at normal temperature and pressure and a method for using the same. Background technique [0002] The development of new energy sources to replace or partially replace non-renewable fossil fuels is one of the greatest challenges facing mankind in this century. In the "Twelfth Five-Year" National Strategic Emerging Industry Development Plan promulgated by the State Council last year, new energy and new energy vehicles represented by hydrogen energy fuel cells were listed separately as key development industries, and a clear development goals and routes. Due to its wide source of raw materials, pollution-free and high energy conversion efficiency, hydrogen energy is the preferred new energy technology to solve the future demand for clean energy. [0003] Hydrogen energy technology includes large...

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Problems solved by technology

The liquid organic hydrogen storage material developed in Germany can realize the hydrogen absorption / desorption cycle under relatively mild conditions, but there are important defects such as the hydrogen released by the hydrogen storage material containing gas poisonous to the fuel cell and inconvenient to use; Japan is currently developing a Hydrogen storage technology of traditional organic materials such as benzene, but the dehydrogenation temperature is too high (greater than 300 ° C), and there is also the problem of poisoning fuel cells by by-products, so large-scale application cannot be realized

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