RU2000125237A - METHOD AND CONVERTER FOR PRODUCING AMMONIA - Google Patents

Claims (3)

1. A method for producing ammonia, in which three separate streams of fresh synthesis gas for producing ammonia are introduced into a converter for producing ammonia, containing at least two catalyst beds arranged in series, the first stream of fresh synthesis gas is fed to the first gas mixing stage; a second stream of fresh synthesis gas is supplied to a first heat exchange step through a wall with a first stream leaving the first catalyst bed; and a third stream of fresh synthesis gas is supplied to a second heat exchange stage through a wall with a second stream exiting the first catalyst bed; the first and second exiting streams are formed by separating the partially converted synthesis gas stream exiting the first catalyst bed; the first effluent stream is supplied to the first heat exchange stage, and the second effluent stream is fed to the second heat exchange stage, and thus the second and third streams of fresh synthesis gas are heated through the wall with heat coming from the first and second effluents; the heated second and third streams are fed to the mixing stage, to obtain a gas stream of a process for producing ammonia, the heated streams of fresh synthesis gas are mixed and combined with the first stream of fresh synthesis gas; process gas is supplied to the first catalyst bed and a partially converted synthesis gas stream is discharged; the first and second effluents are combined with a partially converted process gas; and to obtain a product stream enriched with ammonia, a partially converted process gas is supplied to at least a second catalyst bed.  2. The method according to p. 1, characterized in that in a specific implementation of the present invention, the first layer is divided into the first part and the second part, and between the first and second parts the exhaust gas is cooled rapidly.  3. An ammonia converter containing at least the first and second catalyst layers in series in the high pressure housing, the first and second heat exchangers located downstream of the first catalyst layer, the first and second heat exchangers being connected in parallel and adapted to heat through the wall of the first and the second stream of fresh synthesis gas to produce ammonia, and partially converted synthesis gas to produce ammonia is removed from the first catalyst bed and is divided into the first part of the stream and the second part of the flow by means of a separating device and is supplied to the first and second heat exchangers; a first mixer for mixing the first and second heated streams of fresh gas to produce ammonia with a third stream of fresh synthesis gas to produce ammonia; a second mixer for mixing and combining the first and second parts of the partially converted synthesis gas stream to produce ammonia; means for supplying the combined partially converted synthesis gas to at least a second catalyst bed.