Production of carbon dioxide and ammonia from residual gases in the steel and metal industries

The invention claimed is: 1. A process for the production of carbon dioxide and ammonia for the production of H 2 NC(O)X, wherein X=NH 2 or O − NH 4 + , comprising: (a) subjecting a mixture comprising (i) basic oxygen furnace gas and (ii) steam to a separation-enhanced water gas shift reaction to obtain a first product gas comprising H 2 and N 2 and a second product gas comprising CO 2 ; (b) subjecting the first product gas originating from step (a) to NH 3 synthesis to obtain a product gas comprising NH 3 ; and (c) optionally subjecting at least part of the CO 2 originating from step (a) and at least part of the NH 3 originating from step (b) to the synthesis of H 2 NC(O)X, wherein the H 2 to N 2 ratio in the first product gas originating from step (a) is in a range of 2.5 to 3. 2. The process according to claim 1 , wherein the process is for the production of H 2 NC(O)X and wherein step (c) is performed. 3. The process according to claim 2 , wherein the molar ratio NH 3 to CO 2 in step (c) is in the range of 2-4. 4. The process according to claim 3 , wherein all of the NH 3 originating from step (b) and part of the CO 2 originating from step (a) is used in the feed of step (c). 5. The process according to claim 1 , wherein the H 2 to N 2 molar ratio in A the first product stream that is subjected to step (b) is set to 3 by addition of H 2 . 6. The process according to claim 5 , wherein 0-10 mol % H 2 is added to the first product gas prior to step (b), based on the molar content of H 2 in the first product gas. 7. The process according to claim 1 , wherein the remainder of the second product gas originating from step (a) is subjected to CO 2 sequestering. 8. The process according to claim 1 , wherein X=NH 2 . 9. The process according to claim 1 , wherein in case the first product gas originating from step (a) comprises CO and CO 2 , it is subjected to methanation to convert CO and CO 2 into CH 4 , prior to being subjected to step (b). 10. The process according to claim 1 , wherein a pre-shift step is performed prior to step (a), wherein the mixture is subjected to a water gas shift reaction that is not separation-enhanced before being subjected to step (a). 11. The process according to claim 1 , wherein step (a) involves: (a1) contacting the incoming gas with a sorbent capable of adsorbing CO 2 , under conditions suitable to convert CO and H 2 O in H 2 and CO 2 , to obtain a first product gas comprising H 2 and N 2 , and a sorbent loaded with CO 2 ; and (a2) regenerating the loaded sorbent to obtain a second product gas comprising CO 2 . 12. The process according to claim 1 , wherein the electricity needed to perform the process is obtained from renewable resources. 13. The process according to claim 1 , wherein step (b) involves: (b1) providing a reaction mixture comprising the first product gas originating from step (a); (b2) subjecting the reaction mixture to an equilibrium reaction in a reactor or sequence of reactors, to obtain a reactor outlet mixture comprising NH 3 and at least one of the reactants; (b3) regenerating the loaded sorbent obtained in step (b5) by flushing the loaded sorbent with the reactor outlet mixture originating from step (b2), to obtain regenerated sorbent and an effluent comprising desorbed product NH 3 ; (b4) separating the effluent originating from step (b3) into a product stream comprising NH 3 and a reactant stream comprising N 2 , H 2 and NH 3 ; (b5) a sorption step, wherein (i) the reactant stream originating from step (b4); and/or (ii) an intermediate reactor mixture, which is obtained at the outlet of a reactor not being the last reactor of the reactor sequence, prior to being subjected to the subsequent reactor of the reactor sequence, is subjected to a sorption step by contacting with a sorbent selective for NH 3 , wherein the sorbent is not capable of sorbing N 2 and H 2 , to obtain a sorbent loaded with NH 3 and a depleted mixture comprising N 2 and H 2 that in case step (b5) is performed on the intermediate reactor mixture, is subjected to the subsequent reactor of the reactor sequence. 14. The process according to claim 1 , wherein the mixture that is subjected to a separation-enhanced water gas shift reaction in step (a) consists of (i) basic oxygen furnace gas and (ii) steam.