RU2021126354A - Process and plant for producing a propylene product - Google Patents

Claims (22)

1. A method (100) for producing a propylene product (9), comprising providing a mixture (2) of components containing propane, propylene and hydrogen, using propane dehydrogenation (10), to which the reaction feedstock (1) containing propane and hydrogen is subjected, wherein the mixture (2) of the components, or a portion thereof, is subjected, as the first separation feedstock, to a first membrane separation (40), which produces a first permeate (3) enriched in hydrogen compared to the first separation feedstock, and a first retentate (4 ) depleted in hydrogen compared to the first separation feed and containing hydrogen, propane and propylene; wherein the first retentate (4) or a portion thereof is subjected as a second separation feedstock to a second membrane separation (50), which produces a second permeate (6) containing at least a major portion of the hydrogen from the second separation feedstock, and a second a retentate (7) containing at least a major portion of the propane and propylene from the second separation feed; in which the first membrane separation (40) is carried out using a purge gas (5) containing propane, while the first permeate (3) is obtained in the form of permeate (3) saturated with propane from the purge gas (5), and/or the second membrane separation (50) is carried out using a purge gas (5) containing propane, while the second permeate (6) is obtained in the form of permeate (6) saturated with propane from the purge gas (5); wherein the first permeate (3) saturated with propane from the purge gas (5) and/or the second permeate (6) saturated with propane from the purge gas, or one or more parts thereof, is used to form a feedstock (1) for the reaction. 2. Process according to claim 1, wherein the reaction feedstock (1) contains 45 to 95 vol% propane and 1 to 50 vol% hydrogen. 3. The process according to claim 1 or 2, wherein the mixture (2) of the components and the first separation feed contain 40 to 60 vol% propane, 20 to 30 vol% propylene and 25 to 35 vol% hydrogen . 4. A process according to any one of the preceding claims, wherein the first retentate and the second separation feed contain 10 to 20% hydrogen by volume. 5. A process according to any one of the preceding claims, wherein the second retentate contains 5 to 15% hydrogen by volume. 6. The method according to any one of the preceding claims, wherein the mixture (2) of the components or part thereof subjected to the first membrane separation (40) is subjected to cooling (20) and compression (30) before being subjected to the membrane separation (40). 7. Method according to claim 6, wherein the compression (30) is carried out at a pressure level of 0.2 to 3.8 MPa (2 to 38 bar). 8. Process according to claim 6 or 7, wherein the compression (30) is carried out using one or more multi-stage turbochargers, in particular with two or less intercooling stages. 9. Process according to any one of the preceding claims, wherein the second retentate or part thereof is fed to one or more other process steps (60), in particular at a pressure level of 0.1 to 3.8 MPa (1 to 38 bar) . 10. The process of claim 9, wherein the other step(s) (60) of the process comprises a steam cracking process or one or more separation steps associated with the steam cracking process. 11. Process according to any one of the preceding claims, wherein only the first membrane separation (40) is carried out using a propane-containing purge gas (5) and only the first permeate (3) is obtained as propane-saturated permeate (3) from the purge gas (5), or in which only the second membrane separation (50) is carried out using a purge gas (5) containing propane, and only the second permeate (6) is obtained as permeate (6) saturated with propane from the purge gas (5), while the permeate (3, 6) or part thereof, which, in each case, is not saturated with propane from the purge gas (5), is burned for heating in one or more reactors used for propane dehydrogenation (10). 12. The method according to claim 11, in which the permeate (3, 6), not saturated with propane from the purge gas (5), is fed to the membrane separation (40, 50) at a pressure level of 0.3 to 0.7 MPa (from 3 to 7 bar). 13. Installation for the production of a propylene product (9), containing one or more reactors designed to obtain a mixture (2) of components containing propane, propylene and hydrogen, using the dehydrogenation (10) of propane, which is subjected to the raw material (1) for the reaction, containing propane and hydrogen, means for subjecting the mixture (2) of the components or part thereof as the first separation feedstock to a first membrane separation (40) which produces a first permeate (3) enriched in hydrogen compared to the first separation feedstock, and a first retentate (4) depleted in hydrogen compared to the first separation feed and containing hydrogen, propane and propylene; means for subjecting the first retentate (4) or part thereof as a second separation feedstock to a second membrane separation (50) which produces a second permeate (6) containing at least a major part of the hydrogen from the second feedstock for separation, and propane from the purge gas, and a second retentate containing at least a major part of the propane and propylene from the second source material for separation; means for carrying out the first membrane separation (40) using a purge gas (5) containing propane, and for obtaining the first permeate (3) in the form of permeate (3) saturated with propane from the purge gas (5), and/or for carrying out a second membrane separation (50) using a purge gas (5) containing propane, and to obtain a second permeate (6) in the form of a permeate (6) saturated with propane from the purge gas (5); means for using the first permeate (3) saturated with propane from the purge gas (5) and/or the second permeate (3) saturated with propane from the purge gas, or one or more parts thereof, in forming the raw material (1) for the reaction. 14. Installation according to claim 13, which is intended for carrying out the method according to any of the preceding claims.