CN201632251U - Fluid bed reactor with automatic back flush filter - Google Patents

Abstract

The utility model provides a fluid bed reactor with an automatic back flush filter, which belongs to the field of petrochemical industry. The automatic back flush filter, a dust reduction machine, a catalyst bed, a backflow-prevention distributor and a shock-prevention distributor are arranged in the reactor, and the reactor is externally connected with a reducer and a receiver. The filtering performance of the filter can be automatically and efficiently recovered in time by utilizing the fluid bed reactor, and thereby, the labour intensity is reduced; catalyst particles are prevented from flowing back below the reactor, and thereby, gas is evenly distributed on the cross section of the whole reactor; the dust content of the gas is effectively reduced, and thereby, the load of the automatic back flush filter is greatly reduced, the operation cycle of the automatic back flush filter is effectively prolonged and the investments and the maintenance cost of equipment are reduced; the inflow gas is prevented from shocking the backflow-prevention distributor and the gas is promoted to be evenly distributed, and thereby, the efficiency of the reactor is improved. Moreover, the reaction gas and the catalyst outflow from different paths after entering a reaction section via different paths, and thereby, the big-treatment capacity continuous operation is realized.

Description

A kind of fluidized-bed reactor that is provided with automatic backwashing filter

Technical field

The utility model belongs to petrochemical industry, is specifically related to a kind of fluidized-bed reactor that is provided with automatic backwashing filter.

Background technology

Gasoline desulfur mainly adopts fixed bed hydrogenation reactor at present, and catalyst is in closely knit filling state in reactor.The most typical fluidized-bed reactor is a FCC riser in the petrochemical equipment, and its top is provided with fast minute member, strengthens the gas-solid separating effect of gas and catalyst; Gas in the riser reactor and catalyst are bottom-up to flow, and flow velocity is a kind of high speed fluidized state generally at 12-20m/s.

In the prior art, publication number is that the application of CN1824378A discloses and is used for the synthetic fluidized-bed reactor of Fischer-Tropsch, it is synthetic that this fluidized-bed reactor is used for Fischer-Tropsch, the problem of its existence is: (1) filter on it is operation continuously, if problems such as filter generation pressure drop exceeds standard, filter will be forced to out of service, and then whole reactor will quit work; (2) the filter integral installation is unfavorable for maintenance at inside reactor.

In addition, publication number is that the prior art of CN2216860 discloses a kind of fluidized reaction device, the problem of its existence is: the manual cleaning efficiency of (1) its filter is low and manpower labour intensity is big, and depends on people's subjective judgement, is difficult to guarantee efficiently to clean timely; (2) distributor of its bottom adopts spheroid with magnetic and the magnet that can produce alternating magnetic field to form, the gas that produces can only distribute near spheroid and awl section binding site, gas is evenly distributed at the whole reactor cross section, cause its space reactor utilization rate low thus, the treating capacity of reactor is difficult to enlarge; (3) owing to there is not the depositing dust facility, the dustiness height of gas, filter cleans frequent, has further increased operative employee's labour intensity; (4) can only realize intermittent operation, the powder that receives when the discharging receiver reaches in limited time must the replacing receiver, can only shut-down operation between the stage of replacement; (5) can only realize fluidisation less than 40 micron particles, this is because its distributor adopts the mode at magnetic spheres and taper connection place, if particle diameter is bigger, will be difficult to drop to receiver even block magnetic spheres.

The utility model content

The purpose of this utility model is to solve a difficult problem that exists in the above-mentioned prior art, a kind of fluidized-bed reactor that is provided with automatic backwashing filter is provided, realize the automatic cleaning of filter, guarantee filter long-period stable operation and convenient maintenance, promotion gas evenly distributes and then improves the space availability ratio of reactor and realize the high throughput continued operation.

The utility model is achieved through the following technical solutions:

A kind of fluidized-bed reactor that is provided with automatic backwashing filter, it comprises segregation section 4, expansion segment 3, conversion zone 1 from top to bottom successively, in described conversion zone 1 beds 2 is housed.Be provided with automatic backwashing filter 5 at the top of described segregation section 4, described automatic backwashing filter 5 is provided with reactor outlet flange 22 pairings at described segregation section 4 tops; Described automatic backwashing filter 5 tops are provided with gas vent 10, and the bottom is provided with filter core 23, and described filter core 23 stretches into the inside of described segregation section 4.In the course of the work, catalyst dust causes pressure drop to raise at the filter cake that filter core 23 surface formation thickness increase gradually, when pressure drop is elevated to setting value or the time interval reaches when setting value, automatic backwashing filter will start backwashing procedures automatically, adopt gases at high pressure that filter core is carried out pulse backblowing, the filter cake fragmentation on filter core 23 surfaces is come off, and then recover strainability.

In concrete enforcement, in described expansion segment 3 and segregation section 4, can be provided with dust settler 9, be used to reduce the gas dustiness.The fixed position of described dust settler 9 can specifically determine according to the gas flow rate of beds, and when the gas flow rate design load of beds during greater than 0.35m/s, the lower edge of dust settler can be higher than the upper edge of expansion segment; Described dust settler 9 can adopt blocking type dust settler 20 or spiral-flow type dust settler 21; Described blocking type dust settler 20 can adopt conical structure, the hypotenuse of its conical structure and horizontal angle must be greater than the angles of repose of catalyst, so-called catalyst angle of repose is meant in gravitational field, the angle the when Free Surface of catalyst buildup body is in the limiting condition of balance between Free Surface and the horizontal plane.Described spiral-flow type dust settler 21 can adopt the twisted blade structure, and lobe numbers can be 3 to 8.From effect, blocking type dust settler 20 can reduce catalyst content that gas carries under the low speed circulating fluidized bed situation about 30%, and spiral-flow type dust settler 21 can reduce dustiness about 22% under the situation of higher speed fluid bed.

In concrete enforcement, can be provided with anti-backflow distributor 8 in the bottom of described conversion zone 1, be used to prevent that catalyst granules from flowing back to the below of described anti-backflow distributor 8; Described anti-backflow distributor 8 comprises distribution grid 19, one group of bubble cap 15 and group switching centre pipe 16; Evenly have one group of hole on the described distribution grid 19, a described central tube 16 is installed in each perforate; Each described central tube 16 upper end communicates with a bubble cap 15, and each described central tube 16 lower end has opening 18; Tooth-shape structure 17 is adopted in the lower surface of described bubble cap 15.Size by control opening, central tube, bubble cap, particularly the internal diameter of central tube 16 guarantees that the gas flow rate in the various operating mode lower center tubes surpasses 5m/s, thereby avoid catalyst granules to flow back to the distributor below, obtain at the equally distributed gas of whole reactor cross section.In addition, adopt anti-backflow distributor 8 can realize the fluidisation of larger particles, particle diameter reaches 110 microns in the practical application.

In concrete enforcement, be provided with gas access 6 in the bottom of described conversion zone 1, in described conversion zone 1 gas access 6 above be provided with erosion control distributor 7; Described erosion control distributor 7 adopts circular shield structure, and the diameter of circular shield is 1.3-1.9 a times of described gas access 6 diameters.

In concrete enforcement, on described conversion zone 1 top to being circumscribed with receiver 14; Described receiver 14 is connected with described conversion zone 1 by regenerative agent transverse tube 12, and the inlet of described regenerative agent transverse tube 12 is arranged on the position that is lower than beds 2 upper surfaces.

In concrete enforcement, in described conversion zone 1 bottom to being circumscribed with reductor 13; Described reductor 13 is connected with described conversion zone 1 by reducing agent inclined tube 11, and described reducing agent inclined tube 11 oblique cuttings are gone in the described conversion zone 1, and the outlet of reducing agent inclined tube 11 is positioned at anti-backflow distributor 8 tops.

The active catalyst that reduces enters receiver 14 from regenerative agent transverse tube 12, finally removes regenerative system from receiver 14 bottoms.Described reductor 13 is connected with described conversion zone 1 by reducing agent inclined tube 11, and the outlet oblique cutting of described reducing agent inclined tube 11 is gone in the described conversion zone 1.Catalyst enters reactor lower part from reductor 13 through reducing agent inclined tube 11.Therefore, the continued operation of fluid bed can be realized, the high throughput continued operation can be realized.

In concrete enforcement, in order to satisfy the requirement of low speed fluidisation, the gas flow rate in the described conversion zone 1 is controlled in the scope of 0.2-0.6m/s.

Compared with prior art, the beneficial effects of the utility model are: 1. judge automatically and the startup backwash process, recovered the strainability of filter in time, automatically, efficiently, reduced labour intensity; Realized that easily filter integral body being hung out the realization response device overhauls outward; 2. effectively reduce the dustiness of gas, thereby significantly reduce the load of automatic backwashing filter, prolonged the automatic backwashing filter operation cycle effectively, reduced equipment investment and maintenance cost; 3. avoided catalyst granules to flow back to the distributor below, gas is evenly distributed at the whole reactor cross section, and the gas of having avoided flowing into from the gas access impacts the anti-backflow distributor, has promoted that further gas evenly distributes, and has improved the space availability ratio and the efficient of reactor; 4. realized the fluidisation of larger particles, particle diameter reaches 110 microns in the practical application; 5. reacting gas passes through with catalyst and flows out from different paths again after different paths enters conversion zone, has realized the high throughput continued operation.

Description of drawings

Below in conjunction with accompanying drawing the utility model is described in further detail:

Fig. 1 is the structure chart of fluidized-bed reactor of the present utility model

Fig. 2 is two kinds of structure charts of dust settler in the utility model

Fig. 3 is the structure chart of anti-backflow distributor in the utility model

The specific embodiment

As shown in Figure 1, a kind of fluidized-bed reactor that is provided with automatic backwashing filter, it comprises segregation section 4, expansion segment 3, conversion zone 1 from top to bottom successively, in described conversion zone 1, beds 2 is housed, on described conversion zone 1 top to being circumscribed with receiver 14, in described conversion zone 1 bottom to being circumscribed with reductor 13.Wherein, beds 2 relies on uprising gas to hold, and it highly is that catalyst inventory by gas flow rate and bed determines jointly.Under the stable situation of gas flow rate, can increase or reduce reserve by adding or drawing off catalyst, thus the height of adjusting beds 2.

Be provided with automatic backwashing filter 5 at the top of described segregation section 4, described automatic backwashing filter 5 is provided with reactor outlet flange 22 pairings at described segregation section 4 tops; Described automatic backwashing filter 5 tops are provided with gas vent 10, and the bottom is provided with filter core 23, and described filter core 23 stretches into the inside of described segregation section 4.In the course of the work, can carry out automatic backwash one time every 10 to 100 minutes automatic backwashing filters 5 usually, the filterability of filter core is restored.

In described expansion segment 3 and segregation section 4, be provided with dust settler 9, be used to reduce the upwards dustiness of flowing gas, reduce the filtration load of automatic backwashing filter 5.Specifically, the structure of dust settler 9 as shown in Figure 2, described dust settler 9 adopts blocking type dust settler 20 or spiral-flow type dust settlers 21; Described blocking type dust settler 20 adopts conical structure, and the hypotenuse of its conical structure and horizontal angle must be greater than the angles of repose of catalyst.The catalyst granules that blocking type dust settler 20 carries when upwards flowing with gas bumps, and reduces the catalyst granules flow velocity even changes its direction of motion, stops catalyst granules to continue upwards to flow to reach the purpose that reduces the gas dustiness.Described spiral-flow type dust settler 21 adopts the twisted blade structure, lobe numbers is 3 to 8, the twisted blade structure can guide the gas and the catalyst granules that upwards flow to produce the momentum that rotates in a circumferential direction, and then generation centrifugal force, utilize catalyst granules catalyst granules to be thrown to the purpose that reactor limit wall realizes reducing the gas dustiness much larger than the centrifugal force of gas.

Be provided with anti-backflow distributor 8 in the bottom of described conversion zone 1, be used to prevent that catalyst granules from flowing back to the below of described anti-backflow distributor 8.Specifically, its structure as shown in Figure 3, described anti-backflow distributor 8 comprises distribution grid 19, one group of bubble cap 15 and group switching centre pipe 16; Evenly have one group of hole on the described distribution grid 19, a described central tube 16 is installed in each perforate; Each described central tube 16 upper end communicates with a bubble cap 15, and each described central tube 16 lower end has opening 18; Tooth-shape structure 17 is adopted in the lower surface of described bubble cap 15.In the course of work, gas enters central tube 16 by opening 18, and the tooth type structures 17 from bubble cap 15 lower surfaces enters in the conversion zone 1 then.Arrangement pitches by control bubble cap 15 guarantees that gas flows out the flow velocity of tooth-shape structure 17, thereby guarantees that gas is evenly distributed on the whole reactor cross section.Size by control opening, central tube, bubble cap, particularly the internal diameter of central tube 16 guarantees that the gas flow rate in central tube surpasses 5m/s under the various operating modes, thereby avoid catalyst granules to flow back to the distributor below, and guarantee that gas is evenly distributed on the whole reactor cross section.Like this, go out the size of central tube 16 by the big or small inverse of gas flow rate.

Described receiver 14 is connected with described conversion zone 1 by regenerative agent transverse tube 12, and the inlet of described regenerative agent transverse tube 12 is arranged on the position that is lower than beds 2 upper surfaces.The active catalyst that reduces enters receiver 14 from regenerative agent transverse tube 12, finally removes regenerative system from receiver 14 bottoms.

Described reductor 13 is connected with described conversion zone 1 by reducing agent inclined tube 11, and described reducing agent inclined tube 11 oblique cuttings are gone in the described conversion zone 1, and described reducing agent inclined tube 11 outlets are positioned at the top of described anti-backflow distributor 8.Catalyst enters reactor lower part from reducing agent 13 through reducing agent inclined tube 11.

Be provided with gas access 6 in the bottom of described conversion zone 1; In described conversion zone 1, the below of the top of gas access 6, anti-backflow distributor 8 is provided with erosion control distributor 7.Described erosion control distributor 7 adopts circular shield structure, and the diameter of circular shield is 1.3-1.9 a times of gas access 6 diameters.

In order to satisfy the requirement of low speed fluidisation, the gas flow rate in the described conversion zone 1 is controlled in the scope of 0.2-0.6m/s.

Technique scheme is a kind of embodiment of the present utility model, for those skilled in the art, on the basis that the utility model discloses application process and principle, be easy to make various types of improvement or distortion, and be not limited only to the described method of the above-mentioned specific embodiment of the utility model, therefore previously described mode is preferably, and does not have restrictive meaning.

Claims (9)

1. fluidized-bed reactor that is provided with automatic backwashing filter, it comprises segregation section (4), expansion segment (3), conversion zone (1) from top to bottom successively, and beds (2) is housed in described conversion zone (1), it is characterized in that:

Be provided with automatic backwashing filter (5) at the top of described segregation section (4), described automatic backwashing filter (5) is provided with reactor outlet flange (22) pairing at described segregation section (4) top; Described automatic backwashing filter (5) top is provided with gas vent (10), and the bottom is provided with filter core (23), and described filter core (23) stretches into the inside of described segregation section (4).

2. the fluidized-bed reactor that is provided with automatic backwashing filter according to claim 1 is characterized in that:

In described expansion segment (3) and segregation section (4), be provided with dust settler (9).

3. the fluidized-bed reactor that is provided with automatic backwashing filter according to claim 2 is characterized in that:

Described dust settler (9) adopts blocking type dust settler (20) or spiral-flow type dust settler (21); Described blocking type dust settler (20) adopts conical structure, and the hypotenuse of its conical structure and horizontal angle must be greater than the angles of repose of catalyst; Described spiral-flow type dust settler (21) adopts the twisted blade structure, and lobe numbers is 3 to 8.

4. the fluidized-bed reactor that is provided with automatic backwashing filter according to claim 1 is characterized in that:

Be provided with anti-backflow distributor (8) in the bottom of described conversion zone (1); Described anti-backflow distributor (8) comprises distribution grid (19), one group of bubble cap (15) and a group switching centre pipe (16); Evenly have one group of hole on the described distribution grid (19), a described central tube (16) is installed in each perforate; Each described central tube (16) upper end communicates with a bubble cap (15), and each described central tube (16) lower end has opening (18); Tooth-shape structure (17) is adopted in the lower surface of described bubble cap (15).

5. according to claim 2 or the 3 described fluidized-bed reactors that are provided with automatic backwashing filter, it is characterized in that:

Bottom at described conversion zone (1) is provided with anti-backflow distributor (8; Described anti-backflow distributor (8) comprises distribution grid (19), one group of bubble cap (15) and a group switching centre pipe (16); Evenly have one group of hole on the described distribution grid (19), a described central tube (16) is installed in each perforate; Each described central tube (16) upper end communicates with a bubble cap (15), and each described central tube (16) lower end has opening (18); Tooth-shape structure (17) is adopted in the lower surface of described bubble cap (15).

6. the fluidized-bed reactor that is provided with automatic backwashing filter according to claim 5 is characterized in that:

Be provided with gas access (6) in the bottom of described conversion zone (1), the top of gas access (6) is provided with erosion control distributor (7) in described conversion zone (1); Described erosion control distributor (7) adopts circular shield structure, and the diameter of circular shield is 1.3-1.9 a times of described gas access (6) diameter.

7. the fluidized-bed reactor that is provided with automatic backwashing filter according to claim 5 is characterized in that:

On described conversion zone (1) top to being circumscribed with receiver (14); Described receiver (14) is connected with described conversion zone (1) by regenerative agent transverse tube (12), and the inlet of described regenerative agent transverse tube (12) is arranged on the position that is lower than beds (2) upper surface.

8. the fluidized-bed reactor that is provided with automatic backwashing filter according to claim 5 is characterized in that,

In described conversion zone (1) bottom to being circumscribed with reductor (13); Described reductor (13) is connected with described conversion zone (1) by reducing agent inclined tube (11), and described reducing agent inclined tube (11) oblique cutting is gone in the described conversion zone (1), and the outlet of reducing agent inclined tube (11) is positioned at anti-backflow distributor (8) top.

9. the fluidized-bed reactor that is provided with automatic backwashing filter according to claim 6 is characterized in that:

On described conversion zone (1) top to being circumscribed with receiver (14); Described receiver (14) is connected with described conversion zone (1) by regenerative agent transverse tube (12), and the inlet of described regenerative agent transverse tube (12) is arranged on the position that is lower than beds (2) upper surface;

In described conversion zone (1) bottom to being circumscribed with reductor (13); Described reductor (13) is connected with described conversion zone (1) by reducing agent inclined tube (11), and described reducing agent inclined tube (11) oblique cutting is gone in the described conversion zone (1), and the outlet of reducing agent inclined tube (11) is positioned at anti-backflow distributor (8) top.

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