UREA PRODUCTION PROCESS AND PLANT

Abstract

Process for the preparation of urea granules comprising the steps of obtaining an aqueous urea solution from one or more synthesis and recovery steps wherein ammonia and carbon dioxide are reacted together, subjecting the aqueous urea solution to an evaporation step wherein water is removed to obtain a urea melt (1), processing and treating said urea melt in a granulation step (7) and optionally in a cooling section (10) to obtain solid urea granules (14); the process further comprises a scrubbing step (3) of granulation offgas and an atmospheric evaporation step (32) to recover a urea solution (2) and a water-saturated air stream (18): the water-saturated air stream is fed back to the scrubbing section (3) without condensation, and the recovered urea solution is conveyed to the granulation step (7).

Claims

1. A urea production plant comprising: a synthesis section configured for the production of an aqueous urea solution from reaction of ammonia and carbon dioxide; a recovery section configured to process the aqueous urea solution effluent from the synthesis section and to recover therefrom unconverted reagents to be sent back to the synthesis section; a first evaporation section configured to obtain a urea melt from a urea solution withdrawn from the recovery section; a finishing section configured to process the urea melt obtained in said first evaporation section and to obtain urea granules, wherein the finishing section comprises at least a granulation section, a scrubbing section and optionally a cooling section; wherein the granulation section is in communication with the scrubbing section via a gas flow line arranged to convey granulation offgas withdrawn from the granulation section into said scrubbing section; wherein the plant comprises: a second evaporation section, which is placed downstream of the scrubbing section and is separated from said first evaporation section; a line arranged to send a portion of an aqueous urea solution withdrawn from the scrubbing section to the second evaporation section; a line arranged to feed an air stream to the second evaporation section for contact with said portion of aqueous urea solution; a line arranged to send a water saturated air stream withdrawn from the second evaporation section back into the scrubbing section; wherein said second evaporation section is an atmospheric or sub-atmospheric evaporation section.

2. The urea production plant according to claim 1, wherein said second evaporation section includes a shell-and-tube apparatus, wherein said portion of aqueous urea solution and said air stream are fed to the tubes of the apparatus in counter-current.

3. The urea production plant according to claim 1, further comprising an air supply section, said air supply section comprises a main header, a first line and a second line, wherein said first and said second line are branched off from said main header, and said first line is in communication with said granulation section and said second line is communication with said second evaporation section.

4. The urea production plant according to claim 3, further comprising a heat exchanger section arranged on said second line of the air supply section.

5. A method for modifying a pre-existing urea synthesis plant so as to provide a modified plant, said pre-existing plant comprises: a synthesis section configured for the production of an aqueous urea solution from reaction of ammonia and carbon dioxide wherein said synthesis section comprises at least a urea reactor; a recovery section configured to process the aqueous urea solution from the synthesis section and to recover therefrom unconverted reagents to be sent back to the synthesis section; a first evaporation section configured to obtain a urea melt from a urea solution withdrawn from the recovery section; wherein said evaporation section comprises at least a vacuum evaporator; a finishing section configured to process said urea melt obtained in said first evaporator section and to obtain a solid urea granulates, wherein said finishing section comprises at least a granulator, a scrubber and optionally a cooler; wherein the modification of the pre-existing plant comprises to add a second atmospheric or sub-atmospheric evaporator arranged downstream of the scrubber, a line arranged to send a portion of an aqueous urea solution withdrawn from the scrubber to the second atmospheric evaporator, a line arranged to feed an air stream to the second atmospheric evaporator for contact with said portion of aqueous urea solution, a line arranged to send the water-saturated air stream withdrawn from the second evaporator back to the scrubber.

6. The method for modifying a pre-existing urea synthesis plant according to claim 5, further comprising to add at least one heat exchanger on the line arranged to feed said air stream to the second atmospheric evaporator.

Description

DESCRIPTION OF THE FIGURES

[0059] FIG. 1 is a schematic representation of a urea granules production process according to an embodiment of the invention.

DETAILED DESCRIPTION

[0060] A urea melt 1 is obtained in a urea plant comprising at least a synthesis section, a recovery section, a section for vacuum evaporation (concentration) and a water treatment section. These sections are of standard design and are well known to the skilled person in the art and for those reasons, are not represented herein. The urea plant producing the melt 1 may be a urea stripping plant.

[0061] The urea melt 1 is sent together with a recovered urea solution 2 to a granulator 7 (fluidised bed) wherein the urea melt is solidified in the form of granules 9. The heat of solidification is removed via a fluidising air 5 that leaves the granulator 7 as granulation offgas 8 retaining some urea dust.

[0062] Heat is removed in the cooling section 10 from the solidified urea particles 9 in order to cool them to a suitable temperature for safe and conform storage and transport of this final product. Solid urea granules 14, ready for transportation or storage, are extracted from the cooling section 10.

[0063] The cooling air 12 supplied by an air blower 11 comes into direct contact with the solidified urea particles in the cooling section 10. Therefore, also the cooling air withdrawn from the cooling section 10 (cooling offgas stream 13) is contaminated with some urea dust.

[0064] The granulation offgas 8 and the cooling off-gas stream 13 are sent to a scrubber 3 for removal of the urea dust contained therein. More specifically the granulation offgas 8 and the cooling offgas 13 are mixed with a water-saturated air stream 18 to yield a gas mixture 30. Said water-saturated air stream 18 is extracted from an atmospheric evaporator 32 which will be described below.

[0065] The gas mixture 30 is treated in the scrubber 3 with an aqueous scrubbing agent 50 to yield an aqueous urea solution 22 (containing the urea removed from the gas) and a purified gaseous stream 24.

[0066] A first portion 23 of the aqueous urea solution 22 is recycled into the scrubber 3 together with a make-up water 25. The recycled solution and the make-up water 25 form the above-mentioned aqueous scrubbing agent 50. The purified gaseous stream 24 may be vented to the atmosphere.

[0067] A second portion 31 of the aqueous urea solution 22 is fed to atmospheric or sub-atmospheric evaporator 32 in presence of an air stream 6 to yield a recovered urea solution 2 and a water-saturated air stream 18. The air stream 6 lowers the partial pressure of water in the evaporator 32 and facilitates the evaporation process.

[0068] The heat required for the evaporation of water is provided through steam 19.

[0069] The evaporator 32 is a shell-and-tube apparatus wherein the evaporation is performed inside the tubes in a falling-film condition. The tubes are externally heated by the steam 19; the solution 31 evaporates while descending in the tubes in counter-current direction with an ascending flow of the air 6.

[0070] The recovered urea solution 2 is at a concentration such that it can be directly recirculated back to the granulator via a pump 21 whilst the water-saturated air stream 18 is recirculated back and mixed with the granulation offgas 8 and with the cooling off-gas stream 13.

[0071] The air stream 6 is supplied to the evaporator 32 preferably after a pre-heating stage in the heat exchanger 26.

[0072] In FIG. 1 it can be appreciated that the line carrying the air stream 6 and the line carrying the fluidising air 5 are branched off from a main collector carrying a main air stream 60 so to limit the number of air blower 10 to just one. Pre-heating of the main air stream is carried out via the heat exchanger 4.