TH5229B - Methods and apparatus for incineration in recirculating bed ash and desulfurization of released gases consisting of gas. Unburned and SO2, SO3 and / or H2S - Google Patents

Abstract

Methods and apparatus for recirculating bed ash incineration and desulfurization of gases released from at least partial generation regions and constituting parts of SO2,SO3 and/or H2S. According to this invention will feed the released gas into reactor (14) at temperatures in the range from 600 to 1000 C and speeds from 5 to 40 m/s in the presence of absorbent substances such as calcium carbohydrates. Bonette Combustion is carried out in a reactor and the gas released from the disulfurization region is extracted in the separation region (17), and the released gas is recovered from the sulfur-rich solid particles. If necessary, the particles are cooled in the cooling zone (1a), where at least some particles are recirculated in the reactor. After some particles are extracted from the reactor through the tubes (37), new particles are inserted through the tubes (16).

Claims (5)

1. A process for incineration of ash, desulfurization of the released gas with the amount of CO, CH2, C2H6, SO2 and / or H2S are most common. The emitted gas is obtained from particle regeneration. The process consists of a) a) a process of insertion of sorbent particles at a channel size from 5 to 5,000 μm and a specific surface in the range from 0.1 to 500 m 2 / g. At the first end of the tubular reaction region; b) the process of inserting the released gas at temperatures in the range from approximately 600 to 1,000 C at that end of the reaction region. So that the surface speed in the machine The reactor ranges from 5 to 40 m / s and the process consists of the following steps: c) The exposure of the said gas to the solid particles in a circulating fluidized bed. Where there is a gas with oxygen under reaction, which causes the sulfur content of the released gas to be reduced, and a mixture of sulfur-rich solid particles with the lower sulfur content of the released gas d ) The separation of at least some of the sulfur-rich solid particles from the emitted gas with low sulfur content. In the separation region at the opposite end of the reaction zone, e) the recovery of the released gas that reduces the sulfur, carbon monoxide and hydrocarbons, f) the circulation of sulfur-rich solid particles, at least some The first end of the reaction area 2. Process according to claim 1, which removes some of the substance Absorb a lot of sulfur. The new sorbent is then fed to replace it in equal amounts. 3. The process according to claim 1 or 2, in which the catalyst particle reconstructive of the fracture of the molecule is entered in the atmosphere. Vene regeneration for the first time The gas released from the first regeneration at the temperature ranges from 600 to 750 ° C and then in the second regenerative region passes the gas released from the second generation. At temperatures in the range from 700 to 1000 C, then the second gas released from the first regeneration is fed separately into the first such end of the reaction area with the same pressure. One of the claims 1 to 3, where the condition of the procedure c) is such that the amount by weight of the sulfur in the said gas has been reduced by at least 70% and should be 80 to 99%. 5. Treatments pursuant to any 1 to 4 claim in which a solid particle consists of at least one metal carbonate or a metal oxide selected from a group containing alkaline metals. Alkali-earth metals 6. Any process of claim 1 to 5 in which the discharge of the said gas is composed of a metal, carbonate or oxide given the flow ratio. Molar flow ratio of sulfur present in the released gas The output ranges from approximately 0.5 to 3 and at temperatures in the range from 750 to 1,000 ° C for contact times ranging from 0.5 to 4 s. 7. Procedures of claim 1 to 6, either of which The solid particles consist of calcium carbonate 8. Process according to claim 1 to 7, after d) of separation of sulfur-rich solid particles. And before the recirculation process, the particles are cooled to at least partially in the fluidized bed cooling area. 9. One of the procedures in accordance with claim 3 to 8, which feeds a gas containing Oxygen at least partially by the gas released from the said regeneration second time 1 0. Treatment according to Claim 1 to 9, which feeds any of the available gas. At least some of the oxygen enters the first end of the reaction area 1. 1. Procedure according to claim 3, which feeds one of the two discharged gas strands at the bottom of the first end of the reaction area and the other emitted gas strands on the side of the reaction zone 1. 2. Equipment to support the process of claim 1 to 11, one of which is unique, consisting of a) a tubular reactor (14) with the first tip (14a) and the second tip (14b). B) the sorbent particle feeder (16) attached to the first end of the reactor; c) at least one of the emitted gas feeders (30) connected to Regenerators with at least one catalyst particle on the first end of the reactor. It was then adjusted for contact and fluidized bed circulation of solid particles and gas released in at least one oxygen-containing reactor and gas feeder connected to that first end of Reactor d) separation apparatus (17) Sulfur-rich sorbent particles from the emitted gas With the inlet (17a) which is connected to the second end (14b) of the said reactor (14) and the outlet (17b) of the sulfur-rich particles e) the emission apparatus (18) of The gas emitted from the desulfurization apparatus connected to the separation apparatus (17) f) the recirculating feeding apparatus (32,33 in Figures 2 and 20, 21 in Fig. 1) of sulfur-rich particles which connected To the outlet (17a) of the separation apparatus and to the first end (14a) of the reactor (14) and g) the extraction apparatus (36) of the solid particles, which is connected to the aforementioned recirculating feeding apparatus (33) and to tool Such separation (17) and / or with such reactor 1 3. The tools according to claim 12, which are unique in that they include At least two separate feeders (30,31) of the emitted gas are attached to the first end of the reactor, where the first (30) is connected to the regenerator. The first catalyst particle and the second device (31) are connected to the second catalyst particle's regenerator. Molecular separator with such catalyst 1 4. The tools according to claim 13, which are unique, as follows: One of the two feeders attached to the bottom of the reactor. And the second feeder is attached to the side of the first end of the tubular reactor 1. 5. One of the instruments according to Claim 12 to 14 which is unique is The recirculation apparatus consists of a cooling zone (19) (Figure 1) for at least some solid particles. This area is between the exit (17b) of the separation apparatus and the first end (14a) of the reactor.