Patent ID: 6426434
Filing Date: 2002-07-30
Classification: C07C

Abstract:
A process for synthesizing urea comprising:(a) reacting carbon dioxide with ammonia at temperature and pressure suitable for synthesis of urea in a urea synthesis zone to form a urea synthesis solution; (b) stripping said urea synthesis solution with carbon dioxide at a pressure substantially equal to the urea synthesis pressure to decompose unreacted ammonium carbamate contained in the urea synthesis solution as a gas mixture of ammonia, carbon dioxide and water; (c) condensing the gas mixture obtained from (b) and recycling the condensate into the urea synthesis zone; (d) decomposing at high pressure the unreacted ammonium carbamate in the urea synthesis solution obtained from stripping the urea synthesis solution, thereby decomposing unreacted ammonium carbamate remaining in the stripped urea synthesis solution into a gas mixture of ammonia, carbon dioxide and water; (e) decomposing at low pressure unreacted ammonium carbamate in the urea synthesis solution obtained from the high pressure decomposition, thereby obtaining a low pressure gas mixture of ammonia, carbon dioxide and water, and obtaining an aqueous urea solution substantially free of unreacted ammonium carbamate; (f) condensing the low pressure gas mixture obtained from the low pressure decomposition to obtain a condensate of the low pressure gas mixture; (g) condensing the high pressure gas mixture obtained from the high pressure decomposition of the urea synthesis solution by: (i) contacting it with a condensate of gases obtained from the high and low pressure decomposition of the urea synthesis solution, (ii) indirectly contacting the mixture of (i) with aqueous urea solution under conditions suitable for indirect heat exchange, thus heating the aqueous urea solution and obtaining a partially condensed mixture of gases, (iii) introducing the partially condensed mixture of gases (ii) into a first cooling and condensation zone under conditions suitable for further condensation of said mixture of gases, and recycling the resulting condensate to (c) to facilitate cooling and condensation of the gases obtained from (b), (iv) introducing the remaining uncondensed mixture of gases (iii) into a second cooling and condensation zone under conditions suitable for further condensation of said mixture of gases, and mixing the resulting condensate with the off-gases from high-pressure decomposition (d), (v) washing the remaining uncondensed gases from (iv) with a washing solution comprising the pressurized condensate of gases from low pressure decomposition (f), introducing said washing solution to the second cooling zone (iv), and optionally discharging inert gas.