System for producing hydrogen by ammonia decomposition reaction and hydrogen production method

1 . A system for producing hydrogen by ammonia decomposition reaction, comprising an ammonia storage device ( 1 ), a heat exchange device ( 2 ), an ammonia decomposition reaction device ( 3 ), a first compression device ( 4 ) and a first adsorption device ( 5 ), wherein a liquid outlet of the ammonia storage device ( 1 ) is in communication with a gas inlet ( 31 ) of the ammonia decomposition reaction device ( 3 ) through a cold liquid channel on the heat exchange device ( 2 ), and a gas outlet ( 32 ) of the ammonia decomposition reaction device ( 3 ) is in communication with the first compression device ( 4 ) through a gas channel on the heat exchange device ( 2 ), the liquid ammonia discharged from the ammonia storage device ( 1 ) is heat-exchanged with the mixed gas discharged from the ammonia decomposition reaction device ( 3 ) through the heat exchange device ( 2 ), and the heat-exchanged gas is introduced into the first compression device ( 4 ); the first adsorption device ( 5 ) comprises a plurality of adsorption columns arranged in parallel, an outlet of the first compression device ( 4 ) is in communication with adsorption inlets of a plurality of adsorption columns arranged in parallel at the same time, wherein a control valve is provided on a pipeline between the adsorption inlet of each adsorption column and the first compression device ( 4 ), the adsorption outlets of a plurality of adsorption columns communicate with each other, a control valve is provided between adsorption outlets of two adjacent adsorption columns, the adsorption inlet of each adsorption column is also in communication with a gas inlet ( 31 ) of the ammonia decomposition reaction device ( 3 ) through a pipeline, a control valve is provided on a pipeline between the adsorption inlet of each adsorption column and the ammonia decomposition reaction device ( 3 ), when the control valves between the adsorption outlets of two adjacent adsorption columns is opened, the mixed gas adsorbed by the adsorption columns is passed into the ammonia decomposition reaction device ( 3 ) through one of the adsorption inlets of adsorption columns. 2 . The system for producing hydrogen by ammonia decomposition reaction according to claim 1 , wherein the heat exchange device ( 2 ) comprises a first heat exchanger ( 21 ) and a second heat exchanger ( 22 ), and the first heat exchanger ( 21 ) is provided with a first cold liquid inlet ( 211 ), a first cold liquid outlet ( 212 ), a first hot gas inlet ( 213 ) and a first hot gas outlet ( 214 ), the first cold liquid inlet ( 211 ) and the first cold liquid outlet ( 212 ) serve as a communicated pair, and the first hot gas inlet ( 213 ) and the first hot gas outlet ( 214 ) serve as a communicated pair; the second heat exchanger ( 22 ) is provided with a second cold gas inlet ( 221 ), a second cold gas outlet ( 222 ), a second hot gas inlet ( 223 ) and a second hot gas outlet ( 224 ), the second cold gas inlet ( 221 ) and the second cold gas outlet ( 222 ) serve as a communicated pair, the second hot gas inlet ( 223 ) and the second hot gas outlet ( 224 ) serve as a communicated pair, the liquid outlet of the ammonia storage device ( 1 ) is in communication with the gas inlet ( 31 ) of the ammonia decomposition reaction device ( 3 ) successively through the first cold liquid inlet ( 211 ), the first cold liquid outlet ( 212 ), the second cold gas inlet ( 221 ) and the second cold gas outlet ( 222 ), and gas outlet ( 32 ) of the ammonia decomposition reaction device ( 3 ) is in communication with an inlet of the first compression device ( 4 ) successively through the second hot gas inlet ( 223 ), the second hot gas outlet ( 224 ), the first hot gas inlet ( 213 ) and the first hot gas outlet ( 214 ). 3 . The system for producing hydrogen by ammonia decomposition reaction according to claim 2 , wherein a second compression device ( 6 ) is also provided on a pipeline between the first adsorption device ( 5 ) and the gas inlet of the ammonia decomposition reaction device ( 3 ); a regulating valve ( 23 ) is provided on a pipeline between the first cold liquid outlet ( 212 ) and the second cold gas inlet ( 221 ); and an air cooling device ( 24 ) is also provided on a pipeline between the second hot gas outlet ( 224 ) and the first hot gas inlet ( 221 ). 4 . The system for producing hydrogen by ammonia decomposition reaction according to claim 3 , wherein an inlet end and an outlet end of the first compression device ( 4 ), and an inlet end and an outlet end of the second compression device are provided with buffer tanks. 5 . The system for producing hydrogen by ammonia decomposition reaction according to claim 1 , wherein the first adsorption device ( 5 ) comprises a first adsorption column ( 51 ) and a second adsorption column ( 52 ) arranged in parallel, and a first control valve (a), a second control valve (b), a third control valve (c), a fourth control valve (d), a five control valve (e), a sixth control valve (f) and a seventh control valve (g) which are arranged at an adsorption inlet and an adsorption outlet of the first adsorption device ( 5 ), wherein the first adsorption column ( 51 ) is provided with a first adsorption inlet ( 511 ) and a first adsorption outlet ( 512 ), the second adsorption column ( 52 ) is provided with a second adsorption inlet ( 521 ) and a second adsorption outlet ( 522 ), wherein a first pipe ( 53 ) is provided between the first adsorption inlet ( 511 ) and the second adsorption inlet ( 521 ), the first adsorption outlet ( 512 ) is in communication with the second adsorption outlet ( 522 ) through a second pipe ( 54 ), and a third pipe ( 55 ) is connected in parallel under the first pipe ( 53 ), a fourth pipe ( 56 ) is provided on the first adsorption outlet ( 512 ), and a fifth pipe ( 57 ) is provided on the second adsorption outlet ( 522 ); the first control valve (a) is provided between the first compression device ( 4 ) and the first adsorption inlet ( 511 ), the third control valve (c) is provided between and the first compression device ( 4 ) and the second adsorption inlet ( 521 ), the fifth control valve (e) is provided on the second pipe ( 54 ), the second control valve (b) is provided on the fourth pipe ( 56 ), a fourth control valve (d) is provided on the fifth pipe ( 57 ), and a sixth control valve (f) is provided between the first adsorption inlet ( 511 ) and the ammonia decomposition reaction device ( 3 ), and a seventh control valve (g) is provided between the second adsorption inlet ( 521 ) and the ammonia decomposition reaction device ( 3 ). 6 . The system for producing hydrogen by ammonia decomposition reaction according to claim 1 , wherein the system further comprises a buffer device ( 7 ) and a second adsorption device ( 8 ), and the second adsorption device ( 8 ) comprises a plurality of adsorption columns arranged in parallel, the adsorption outlet of the adsorption column on the first adsorption device ( 5 ) is in communication with one end of the buffer device ( 7 ), and the other end of the buffer device ( 7 ) is in communication with the adsorption inlet of the adsorption column on the second adsorption device ( 8 ). 7 . The system for producing hydrogen by ammonia decomposition reaction according to claim 6 , wherein the second adsorption device ( 8 ) comprises a third adsorption column ( 81 ) and a fourth adsorption column ( 82 ) arranged in parallel, and an eighth control valve (h), a ninth control valve (i), a tenth control valve (j), an eleventh control valve (k), a twelfth control valve (m), a thirteenth control valve (n) and a fourteenth control valve (p) which are arranged at an adsorption inlet and an adsorption outlet of the second adsorption device ( 8 ), wherein the third adsorption column ( 81 ) is provided with a third adsorption inl