Process and plant for producing olefins from oxygenates

The invention claimed is: 1. A process for producing olefins from oxygenates, the process comprising the following steps: (i) converting, by heterogeneous catalysis, at least one oxygenate to a stream containing propylene, aromatics, and cyclic olefins; (ii) separating the stream containing propylene, aromatics, and cyclic olefins into a C 5− fraction containing propylene, a C 5+ fraction containing aromatics and cyclic olefins, and an aqueous fraction containing oxygenates, wherein at least parts of the C 5+ fraction are supplied to a hydrogenation in step (iii); (iii) at least partially hydrogenating the at least parts of the C 5+ fraction containing aromatics and cyclic olefins to obtain naphthenes; and (iv) at least partially recirculating the naphthenes into the heterogeneously catalyzed conversion in step (i). 2. The process according to claim 1 , wherein hydrogen is used as hydrogenating agent in step (iii). 3. The process according to claim 2 , wherein the hydrogenation is carried out such that parts of a product stream of the hydrogenation are recirculated into the hydrogenation, and that a ratio between the recirculated product stream of the hydrogenation and the at least parts of the C 5+ fraction containing aromatics and cyclic olefins lies between 1:10 and 10:1 and/or a molar excess of hydrogen lies between 200 and 5000% of the quantity theoretically necessary for the complete saturation of all contained double and aromatic bonds. 4. The process according to claim 2 , wherein after step (iv) hydrogen is separated from a product stream of the hydrogenation. 5. The process according to claim 1 , wherein from the aqueous fraction containing oxygenates, the oxygenates and water are separated. 6. The process according to claim 5 , wherein the separated oxygenates and/or the separated water are/is at least partly recirculated into step (i). 7. The process according to claim 6 , wherein the heterogeneously catalyzed conversion is effected in two stages, wherein in the first stage methanol is converted into dimethyl ether and in the second stage dimethyl ether is converted to a stream containing propylene, aromatics and cyclic olefins, and wherein methanol is recirculated to before the first stage and/or water is recirculated in the form of steam to before the second stage. 8. The process according to claim 1 , wherein step (ii) further comprising separating the C 5+ fraction into a C 7− fraction and a C 7+ fraction, and at least parts of the C 7+ fraction are supplied to step iii and at least parts of the C 7− fraction are recirculated to step (i). 9. A process for producing olefins from oxygenates, the process comprising the following steps: (i) converting, by heterogeneous catalysis, at least one oxygenate to a stream containing propylene, aromatics, and cyclic olefins; (ii) separating the stream containing propylene, aromatics, and cyclic olefins into a C 7− fraction containing propylene and a C 7+ fraction containing aromatics and cyclic olefins, wherein at least parts of the C 7+ fraction are supplied to a hydrogenation in step (iii); (iii) at least partially hydrogenating the at least parts of the C 7+ fraction containing aromatics and cyclic olefins to obtain naphthenes; and (iv) at least partially recirculating the naphthenes into the heterogeneously catalyzed conversion in step (i). 10. The process according to claim 9 , wherein at least parts of the C 7− fraction are recirculated into step (i). 11. The process according to claim 9 , wherein the heterogeneously catalyzed conversion is effected in two stages, wherein in the first stage methanol is converted into dimethyl ether and in the second stage dimethyl ether is converted to a stream containing propylene, aromatics and cyclic olefins, and wherein at least parts of the C 7− fraction are recirculated after the first stage and before the second stage.