RU99125837A - A REACTOR WITH A CIRCULATING PSEUDO-LIQUID LAYER CONTAINING AN INTERNAL PRIMARY PARTICLE SEPARATOR WITH A COVER - Google Patents

Claims (20)

1. An advanced CFB reactor or combustion chamber device having shock-type particle separators for separating solid particles from the flue gas / solid stream passing through the reactor CFB reactor vessel, including a reactor vessel having an outlet; a group of at least two rows of staggered shock-type particle separators installed upstream of the outlet, bearing in mind the flue gas / solid stream; a second group of at least two rows of staggered shock-type particle separators installed downstream of the outlet; and an overlap installed below the second group of particle separators.  2. The advanced CFB reactor or combustion chamber apparatus according to claim 1, wherein the overlap is angled with respect to the horizontal so that the overlap is tilted toward the reactor shell to cause solids collected by the second group of particle separators to slide down the overlaps along towards the reactor jacket.  3. The advanced CFB reactor or combustion chamber apparatus according to claim 1, wherein the overlap is angled with respect to the horizontal so that the overlap tilts downstream, having in mind the flue gas / solids flow through the reactor shell to force solids collected by a second group of particle separators, slide down the floor in the downstream direction.  4. An advanced CFB reactor or combustion chamber apparatus according to claim 3, further comprising means for receiving collected solids that slide down the floor in a downstream direction.  5. An advanced CFB reactor or combustion chamber device according to claim 1, wherein the means for receiving collected solids includes means from the chamber, hopper, and removable tray.  6. The advanced CFB reactor or combustion chamber device according to claim 1, wherein the overlap is substantially horizontal.  7. The advanced CFB reactor or combustion chamber device according to claim 1, wherein the overlap is substantially flat.  8. The advanced CFB reactor or combustion chamber according to claim 1, wherein the overlap is at an angle α with respect to the horizontal. 9. The advanced CFB reactor or combustion chamber of claim 8, wherein the slope angle α is equal to or greater than the repose angle α _{R of the} collected solids.  10. The advanced CFB reactor or combustion chamber according to claim 7, wherein the overlap is provided by one group of channels and grooves along which the collected solid particles can pass or slide.  11. An advanced CFB reactor or combustion chamber device according to claim 1, further comprising a convection passage and a heat transfer surface installed therein.  12. The advanced CFB reactor or combustion chamber device according to claim 11, wherein the heat transfer surface includes at least one superheat surface, a heating surface, a boiler surface, and an economizer surface.  13. The advanced CFB reactor or combustion chamber device according to claim 1, wherein the impact-type particle separators include U-beams.  14. The advanced CFB reactor or combustion chamber apparatus according to claim 1, wherein the shock-type particle separators include non-planar elements that are U-shaped, E-shaped, W-shaped or any other shape that represents a cup-shaped or concave surface configuration for the flow flue gas / solids.  15. The advanced CFB reactor or combustion chamber apparatus of Claim 8, further comprising flue gas / solids deflectors coupled to particle separators to reduce reverse involvement of the collected solids.  16. The advanced CFB reactor or combustion chamber apparatus of Claim 15, wherein the flue gas / solids deflector means include a plate having a visor on its upper part, a substantially horizontal partition extending from the plate, and retention means for attaching the plate to the rear the wall of the reactor shell in a place near the intersection of the overlap and the back wall of the shell.  17. The advanced CFB reactor or combustion chamber apparatus of claim 15, wherein the flue gas / solids deflector means includes a plate device attached to the lower ends of the impact type particle separators.  18. The advanced CFB reactor or combustion chamber apparatus of claim 1, wherein the overlap is provided with a tip such that the overlap is provided by a first portion angled horizontally so that the overlap tilts toward the reactor jacket to cause solids particles collected by the second group of particle separators, slide down the first overlap section towards the reactor shell, and the second section, angled with respect to the horizontal so that the cross The outlet leaned downstream, meaning the flue gas / solids flow through the reactor jacket to cause the solids collected by the second group of particle separators to slide down the second overlap portion in a downstream direction.  19. An advanced CFB reactor or combustion chamber device having shock-type particle separators for separating solid particles from a flue gas / solid stream passing through a reactor CFB reactor vessel, including a reactor vessel having an outlet; a group of at least two rows of staggered shock-type particle separators installed downstream of the outlet, bearing in mind the flue gas / solid stream; and an overlap installed below the group of particle separators.  20. An improved CFB reactor or combustion chamber device having shock-type particle separators for separating solid particles from the flue gas / solid stream passing through the CFB reactor shell, including a reactor shell having an outlet; at least two rows of staggered shock-type particle separators, at least one row of separators installed upstream of the outlet and at least one row of separators installed downstream of the outlet, having in mind a flue gas / solid stream; and an overlap installed below at least one row of particle separators installed downstream of the outlet.