초록 ▼

A cyclone separator provided with an inlet for receiving gas and solid particles, + a gas outlet at its upper end and a lower tubular part, wherein the lower tubular part is provided with a closed lower end, through which closed lower end a substantially vertical particle withdrawal conduit extends

A cyclone separator provided with an inlet for receiving gas and solid particles, + a gas outlet at its upper end and a lower tubular part, wherein the lower tubular part is provided with a closed lower end, through which closed lower end a substantially vertical particle withdrawal conduit extends from a position below the closed lower end to a position in the tubular part and below the inlet for receiving gas and solid particles, said conduit being provided with openings to withdraw solid particles from the cyclone separator and wherein said conduit has a smaller cross-sectional area than the lower tubular part, thereby defining a space between conduit and inner wall of the lower tubular part, wherein in the lower part of said space main means to add a primaxy fluidizing medium are present.

대표청구항 ▼

We claim: 1. An elongated cyclone separator vessel having an upper end and a lower tubular part which has an inner wall defining a lower tubular part cross-sectional area, wherein said elongated cyclone separator vessel is provided with an inlet for receiving gas and solid particles and a gas outle

We claim: 1. An elongated cyclone separator vessel having an upper end and a lower tubular part which has an inner wall defining a lower tubular part cross-sectional area, wherein said elongated cyclone separator vessel is provided with an inlet for receiving gas and solid particles and a gas outlet at said upper end, wherein the lower tubular part is provided with a closed lower end, through which said closed lower end a substantially vertical particle withdrawal conduit, which defines a smaller cross-sectional area, extends from a position below the closed lower end to a position within the lower tubular part and below the inlet for receiving gas and solid particles, wherein said substantially vertical particle withdrawal conduit is provided with an opening for withdrawing solid particles from within the elongated cyclone separator vessel, and wherein said smaller cross-sectional area and said lower tubular part cross-sectional area define a space having a lower part and an upper part between said substantially vertical particle withdrawal conduit and said inner wall of the lower tubular part, and wherein provided within the lower part of said space is main means for adding a primary fluidizing medium. 2. The elongated cyclone separator vessel according to claim 1, wherein above the substantially vertical particle withdrawal conduit a vortex finder is positioned spaced away from said opening and positioned below the inlet for receiving gas and catalyst. 3. The elongated cyclone separator vessel according to claim 2, wherein said opening includes a plurality of openings above or at the same level as the main means for adding the primary fluidizing medium. 4. A reactor vessel, comprising: a reactor riser having a downstream end; at least one elongated cyclone separator vessel according to claim 3, which said at least one elongated cyclone separator vessel is fluidly connected to the downstream end of said reactor riser, wherein the reactor vessel is further provided with a gas outlet and a solid particles outlet. 5. The elongated cyclone separator vessel according to claim 2, wherein the substantially vertical particle withdrawal conduit is provided with at least one substantially horizontal conduit fluidly connecting the space of the lower tubular part and the substantially vertical particle withdrawal conduit, wherein said at least one substantially horizontal conduit is provided with means for adding a secondary fluidizing medium and is positioned below the position of the main means for adding the primary fluidizing medium. 6. A reactor vessel, comprising: a reactor riser having a downstream end; at least one elongated cyclone separator vessel according to claim 5, which said at least one elongated cyclone separator vessel is fluidly connected to the downstream end of said reactor riser, wherein the reactor vessel is further provided with a gas outlet and a solid particles outlet. 7. The reactor vessel according to claim 6, wherein said reactor vessel further includes a stripping zone. 8. A reactor vessel, comprising: a reactor riser having a downstream end; at least one elongated cyclone separator vessel according to claim 2, which said at least one elongated cyclone separator vessel is fluidly connected to the downstream end of said reactor riser, wherein the reactor vessel is further provided with a gas outlet and a solid particles outlet. 9. A solid particle withdrawal means suited to withdraw solid particles in a controlled manner from a fluidised bed of solid particles, wherein said solid particle withdrawal means comprises main means for adding a primary fluidizing medium; a substantially vertical particle withdrawal conduit protruding the fluidised bed from below, wherein the substantially vertical particle withdrawal conduit is provided with at least one substantially horizontal conduit fluidly connecting the fluidised bed at a position below the main fluidizing means and the substantially vertical particle withdrawal conduit, wherein said substantially horizontal conduit is provided with means for adding a secondary fluidizing medium. 10. The elongated cyclone separator vessel according to claim 1, wherein said opening includes a plurality of openings above or at the same level as the means for adding the primary fluidizing medium. 11. The elongated cyclone vessel separator according to claim 1, wherein the substantially vertical particle withdrawal conduit is provided with at least one substantially horizontal conduit fluidly connecting the space of the lower tubular part and the substantially vertical particle withdrawal conduit, wherein said substantially horizontal conduit is provided with means for adding a secondary fluidizing medium and is positioned below the position of the main means for adding the primary fluidizing medium. 12. A reactor vessell, comprising: a reactor riser having a downstream end; at least one elongated cyclone separator vessel according to claim 1, which said at least one elongated cyclone separator vessel is fluidly connected to the downstream end of said reactor riser, wherein the reactor vessel is further provided with a gas outlet and a solid particles outlet.