RU2021136124A - STEAM NETWORK SYSTEM FOR INSTALLATION CONTAINING AMMONIA PRODUCTION UNIT AND UREA PRODUCTION UNIT - Google Patents

Claims (12)

1. Steam network system for an installation containing an ammonia production unit and a urea production unit, including a high pressure steam line (1), two medium pressure steam lines (2, 3), as well as the first and second turbines (10, 12) connected to the steam line (1) high pressure to supply both turbines with high pressure steam; moreover, the first turbine (10), which is supplied with high pressure steam by the high pressure steam line (1), is a condensing type turbine with discharge into one of the two medium pressure steam lines (2) and is configured to transfer energy to the syngas compressor in the ammonia production unit installations; And while the second turbine (12), which is supplied with high-pressure steam by the high-pressure steam line (1), is a counter-pressure type turbine with an outlet connected to two medium-pressure steam lines (2, 3) and is configured to transfer energy to the carbon dioxide compressor ( CO ₂ ) in the urea production unit of the plant. 2. Steam network system according to claim 1, in which the high pressure steam line (1) contains steam at a pressure of from about 8.0 MPa to about 12.0 MPa, in particular from about 9.0 MPa to about 11, 0 MPa. 3. Steam network system according to claim 1 or 2, in which one of the two medium pressure steam lines (2) contains steam at a pressure of from about 2.0 MPa to about 6.0 MPa, in particular from about 3.0 MPa to approximately 4.0 MPa. 4. Steam network system according to claim 3, in which the other one of the two medium pressure steam lines (3) contains steam at a pressure of from about 1.0 MPa to about 5.0 MPa, in particular from about 1.5 MPa up to approximately 3.0 MPa. 5. An installation containing an ammonia production unit, a urea production unit and a steam network system according to any one of paragraphs. 1-4. 6. Plant according to claim 5, wherein the plant is a plant for the production of fertilizers. 7. Method for distributing high-pressure steam in a steam network system containing a high-pressure steam line (1) and two medium-pressure steam lines (2, 3) for an installation containing an ammonia production unit and a urea production unit, including the stage of introducing high-pressure steam from the steam line (1) high pressure into a condensing type turbine (10) with an outlet into one of the two medium pressure steam lines (2) and a counterpressure type turbine (12) with an outlet connected to the two medium pressure steam lines (2, 3), the condensing type turbine (10) is configured to supply power to the syngas compressor in the ammonia production unit of the plant, and the backpressure type turbine (12) is configured to supply power to the CO ₂ compressor in the urea production unit of the plant. 8. A method for reconstructing a steam network system for an installation containing an ammonia production unit and a urea production unit, containing a high-pressure steam line (1), two medium-pressure steam lines (2, 3), two condensing-type turbines with an outlet (10, 11), which supplies steam to the high pressure steam line and two condensers (20, 21), with one of the two condensing type turbines (10) connected to one of the two condensers (20) and one of the two medium pressure steam lines (2), and the other of the two the condensing type turbine (11) is connected to the other of the two condensers (21) and to the other of the two medium pressure steam lines (3), while one of the two condensing type turbines (10) is configured to transfer the output energy to the syngas compressor, and the other of the two condensing type turbines (11) is configured to transfer energy to the CO ₂ compressor, the method comprising the following steps: a) replacing the condensing type steam turbine (11) configured to transfer energy to the CO ₂ compressor with a counter pressure type turbine (12) with an outlet connected to two medium pressure steam lines (2, 3); And b) removing the condenser connected to the condensing type turbine removed in step (a).