CN1079724A - Outer decomposition technique of plaster kiln and device - Google Patents

Abstract

The present invention relates to a kind of improved gypsum Kiln with precalciner technique.The present invention is applied to gypsum with circulating fluidized bed technique and decomposes on system sulfuric acid and the cement clinker, and gypsum needn't reenter kiln and decompose, but circulation is decomposed in the fluidized bed reactor of decomposing furnace.Apparatus of the present invention comprise by the main body reactor, partially bevel-type does not have decomposing furnace main part and the whirlwind preheating system that inner core cyclonic separator and solids constituent glassware are formed.Process characteristic of the present invention comprises gypsum powder 20-60 seconds residence time in the main body reactor, and the solid decomposer material returns the main body reactor from tripper the amount of returning is 70-90% etc.

Description

Outer decomposition technique of plaster kiln and device

The present invention relates to the improvement that gypsum is processed into a kind of precal cination technique of sulfuric acid and cement clinker.

Circulating fluidized bed technique is applied to gypsum decomposition system sulfuric acid and the cement clinker aspect is a new technology, and gypsum needn't add in the kiln again and decompose, but decomposes in the decomposing furnace of circulating fluidized bed, and the gypsum raw material after the preheating add in the decomposing furnace of fluidized-bed, with CO or H ₂Decompose, decompositions that circulate again of the intact material of unreacted, the material that reacts completely discharge enters rotary calciner calcining cement clinker, the SO that concentration is higher ₂Tail gas is sent to manufacturing sulfuric acid.

United States Patent (USP) 4102989 discloses the technology of " carrying out the reduction and the oxygenolysis of calcium sulfate on fluidized-bed ", is characterized in making the bottom of hydrogenous carbon element fuel and primary air importing reduction zone-fluidized-bed the reduction zone effectively CaSO ₄Change the mixture of CaO and CaS into, draw secondary air again and enter fluidized-bed top (and on this horizontal plane, importing fuel), make top form oxidation zone, change CaS into CaO.CaO and SO that reaction generates ₂All discharge by fluidized-bed top.This fluidized-bed can be the top sectional area greater than the long-pending cone of lower section.Primary air is the required O of fuel combustion ₂20～90%, secondary air is for importing 10～60% of air total amount.Temperature range is 1195～1250 ℃.This patent specification discloses, CaSO ₄Entered in the reactor by reactor head, powder enters the top of fluidized-bed by a pipe; Cyclonic separator is located in the reactor, on fluidized-bed, is communicated with the fluidized-bed top by pipe; Primary air and secondary air all enter (indivedual embodiment secondary airs enter fluidized-bed by the top) by the fluidized-bed bottom, and the secondary air pipe is long slightly, air is imported the top of fluidized-bed conical part.Fluidisation is supported by gas distribution grid.

United States Patent (USP) 4102989 disclosed technology, secondary air pipe stretch into the fluidized-bed middle part, and pipe is longer, wants long term maintenance indeformable in the high flame of thousands of degree, and this is to be difficult to carry out and grasp aborning.Simultaneously, reactor volume is huge, and cyclonic separation and fluidized-bed etc. is included in the reactor, and this is also reasonable inadequately.This patented technology is in fact very difficult in a word, and does not in fact also use aborning.The improvement technology of German patent DE 3622688A1 then connects cyclonic separator and tripper and forms the outer loop decomposing system outside the main body reactor; Remedied the defective of United States Patent (USP); But the raw material of its new input drops into reactor after the preheating of cement rotary kiln tail gas, " waste gas " heat energy of reactor fails to be fully used, and has used the level Four preheater, and facility investment is bigger.

The object of the present invention is to provide a kind of heat energy utilization rate height, outer decomposer of the plaster kiln that technical process is more simplified and technology.

The fluidized bed type decomposer that is used for the gypsum decomposition provided by the present invention is because the main part of a decomposing furnace and a whirlwind preheating system are formed, the principal feature of invention is the main part of said decomposing furnace: have one to become the inclined to one side bevel-type of integral body not have the inner core cyclonic separator with it above a cylindrical bodies reactor, below cyclonic separator, connect a box solids constituent glassware, said box solids constituent glassware becomes the fluidized bed type blowdown valve of integral body to be made up of the sub-material chamber with one with it, make solid powder when the solids constituent glassware is distributed, solid powder is shunted between the returning charge mouth of blowdown valve and sub-material chamber in proportion.Above cyclonic separator, be connected with the two stage cyclone preheater.

The cyclonic separator that uses in the prior art is cartridge type cyclonic separator in the right cone, in this gypsum decomposing system, use, because temperature of charge height, contain the higher sulfur dioxide gas of concentration in the system, the inner core of cyclonic separator easily is corroded, and damages distortion, thereby has reduced the separating effect of separator, often repair and replacement involve great expense.The present invention has adopted cartridge type cyclonic separator in a kind of nothing according to desired separation efficiency, in order to overcome the difficult problem of gypsum material high temperature current downflow difference, taked inclined to one side tapered, awl has changed the trend of air-flow and streams partially, promote the slippage of material, thereby improved gas-solid body separation efficiency, reached effective gas-solid separating effect, solved in the prior art damage that easily is corroded of cyclonic separator inner core, the problem that separation efficiency descends.Inclined to one side bevel-type used in the present invention does not have the inner core cyclonic separator, and the eccentric angle of cone (the minimum angle of cylindrical shell bus and cone generatrices) can be selected in 0～30 ° of scope.Can certainly select the inclined to one side bevel-type cyclonic separation of inner core for use, such problem that still exists inner core easily to be corroded, if select corrosion resistant material inner core for use, facility investment will be much higher.Positive bevel-type cyclonic separator cone angle increase also can be used, but effect is not as inclined to one side bevel-type.

Adopted the said box solids constituent glassware of CN92240256.6 patent in the present invention, it is a kind of fluidized bed type tripper, comprises sub-material chamber 24 and blowdown valve 30 two portions.Blowdown valve 30 is made an integral body with sub-material chamber 24, also is fluidized bed type, as shown in Figure 3.An opening for feed 25 is arranged above sub-material chamber 24, and it is relative with the valve opening 31 of the blowdown valve 30 of being located at 24 bottoms, sub-material chamber; The other end of sub-material chamber 24, top are provided with discharge gate 27, i.e. returning charge mouth, and the major part of the solid materials after the separation is from returning main body reactor 4 here.Bottom, sub-material chamber is provided with two blast inlets 28, and pressing close to bottom, sub-material chamber above blast inlet 28 has one deck dispersion plate 29, constitutes a wind box with sub-material chamber base plate.There is the lock aerofoil 26 of an adjustment height centre of sub-material chamber, and the sub-material chamber is divided into two portions.The control of lock aerofoil 26 height is by the pressure reduction decision of tripper 24 into and out of the material mouth, and generally its height is 1.5～3 times of both pressure differences.The up-down adjustment of lock aerofoil 26 is in order to control the size of passage between the separated two portions of tripper, to play the effect of lock wind, avoiding producing between pressure bigger import 25 and the discharge gate 27 and scurry the wind phenomenon.Fluidized bed type blowdown valve 30 bottoms are provided with a blast inlet 28, and blowdown valve 30 bottoms of pressing close to blast inlet 28 also are provided with one deck dispersion plate 29.One side of valve is provided with discharge port 34, and the small portion solid materials enters rotary kiln thus and produces cement clinker; A spool 32 is arranged in the blowdown valve 30, reached in the blowdown valve 30 by center at the bottom of the valve, spool 32 is aimed at valve opening 31, can regulate height by setter 33.By the height of regulating spool 32, size that can control valve bore 31, thus regulate the materials flow ratio that the tripper branch is expected sub-material chamber 24 and blowdown valve 30 and is discharged to main body reactor 4 and rotary kiln 14 respectively.To return the amount of main body reactor from the solids constituent glassware be the 70-90% that enters the tripper inventory to the solid decomposer material in the present invention.Because the fluidized bed type structure is all adopted with blowdown valve 30 in sub-material chamber 24, material remains active state in the tripper, make solid materials in tripper, be able to quantitatively shunt uniformly and stably, like this, rationally controlled, to reach the abundant decomposition of gypsum the residence time of material in circulating fluidized bed.

In circulating fluidized bed, decompose gypsum and become solid CaO and gas SO ₂Production technique, be to carry out in the recycle system formed of main body reactor, cyclonic separator, tripper and return line in fluidised bed decomposition furnace main body part and finish.Gypsum powder, fuel are dropped into the cylindrical bodies reactor, and import primary air wind as fluidized wind, make powder and fuel combustion produce CO or H from the main body reactor bottom ₂, make Ca-SO ₄Reduction.Feed secondary air wind controlled oxidation atmosphere on reactor top, make the CaS oxidation, for the atmosphere in the controlling reactor, also can on reactor, feed tertiary air wind in the middle part, like this, form a reduction zone and an oxidation zone in the main body reactor, the gypsum particulate is at a wind, between reduction zone and oxidation zone, constantly circulate decomposition under the secondary air effect, gypsum degradation production CaO, SO ₂And other reactant gasess, discharge from the top of reactor simultaneously, through cyclonic separator and tripper, the solid materials that gypsum is decomposed partly turns back in the reactor, mixes with the gypsum powder of new input, realizes kiln outer circulation decomposition reaction.An important feature of the present invention be the new gypsum powder that drops into second stage cyclone preheater 2 in expellant gas enter first step cyclone preheater 1 after directly mixing, separated solid materials mixes for expellant gas in the cyclonic separator 5 of one with gas reactor 4 again, again after second stage cyclone preheater 2 separates, in pipeline investment subject reactor 4, mix with the decomposing materials that from decomposing furnace solids constituent glassware 6, returns and to proceed the decomposition reaction that circulates.The ratio of the decomposing materials that returns in new gypsum powder that drops into and the solids constituent glassware is 1: 2.5～6.0.The residence time of gypsum powder in the main body reactor is 20-60 second, the temperature of control reduction zone is 850～1080 ℃ in the main body reactor, the temperature of oxidation zone is 1000-1150 ℃, and cross section, reduction zone wind speed is the 1.6-5 meter per second, and oxidation zone cross section wind speed is the 3.4-6 meter per second.

Introduce technical process of the present invention below in conjunction with accompanying drawing in detail with an example.

Fig. 1 is that gypsum decomposes agent set and process flow diagram.

Fig. 2 decomposes and producing cement clinker device technique schematic flow sheet for gypsum.

Fig. 3 is the cross-sectional view of solids constituent glassware.

Fig. 4 does not have inner core cyclonic separator cross-sectional view for inclined to one side bevel-type.

Fig. 5 does not have inner core cyclonic separator vertical view for inclined to one side bevel-type.

Among the figure, 1. one-level cyclone preheater, 2. secondary cyclone preheater, 3. gypsum powder pipeline system, 4. main body reactor (fluidized-bed), 5. cyclonic separator, 6. solids constituent glassware 7. enters the solid material pipelines system of rotary kiln, 8. fluidized wind (primary air wind), 9. secondary air wind, 10. fuel delivery system, 11. pipelines from cyclonic separator to the secondary cyclone preheater.12. pipeline from the secondary cyclone preheater to the one-level cyclone preheater.13. with SO ₂Gas is sent to the pipeline of relieving haperacidity.14. rotary kiln, 15. cement clinker coolers, 16. Pulverized Coal Bin, 17. raw material silo, 18. raw mills, 19. gypsum storehouses, 20. the subsidiary material storehouse, 21. dryers, 22. dust-precipitators, 23. chimney, sub-material chambers 24., 25. opening for feeds, 26. the lock aerofoil, 27. discharges (returning charge) mouth, 28. blast inlets, 29. gas distribution grid, 30. blowdown valves, 31. valve openings, 32. spool, 33. spool setters, 34. discharge ports, 35. gas feed, the minimum angle of 36. cylindrical shell buses and cone generatrices, 37. material outlets, 38. cone, 39. cylindrical shell bus and cone generatrices angle, 40. cylindrical shells, 41. pneumatic outlets

Fig. 1, Fig. 2 arrow solid line are represented the material direction, and the arrow dotted line is represented gas direction.

As shown in Figure 1 and Figure 2, the gypsum powder that has carried out the grinding batching through raw mill 18 adds pipeline 12 from raw material silo 17, by the SO that discharges from secondary cyclone preheater 2 ₂Air-flow is brought the one-level cyclone preheater into, and after one-level preheating and gas solid separation, gypsum powder enters pipeline 11, accompanys or follow the SO that contains of cyclonic separator 5 discharges ₂Air-flow is sent in the secondary cyclone preheater 2, by the secondary preheating and send into the bottom of main body reactor 4 by pipeline system 3 through gas solid separation, fuel (can be kerosene or Sweet natural gas etc.) also is admitted to reactor lower part from delivery system 10, and gypsum raw material and fuel all are added on the interior grid distributor of reactor.Expect that from the cement heat of rotary kiln the fluidized wind 8 that cooler 15 draws enters reactor as primary air wind from main body reactor 4 bottoms, CO or H that non-complete combustion of fuel is generated ₂Carry out reduction reaction Deng reducing medium and gypsum powder, generate CaO, SO ₂With a small amount of CaS, at this moment temperature of reaction is at 850-950 ℃, and reduction zone atmosphere is CO1.5～4%, and primary air wind is 3～3.5 meter per seconds at the cross section of reduction zone wind speed.The waste gas that comes out from rotary kiln enters the middle part of going up of main body reactor 4 as secondary air wind 9 by annular passage, and the middle and upper part of control main body reactor is an oxidation zone, keeps micro-oxidizing atmosphere to contain O ₂0.5～2%, make the CaS oxidation, accelerated the gas velocity in the fluidized-bed simultaneously, the material after decomposing is taken out of, enter cyclonic separator 5.Secondary air is 4～4.5 meter per seconds in the cross section of oxidation zone speed, and the oxidation zone temperature is 1000～1050 ℃.The reduction zone accounts for 2/3rds of reactor volume, the reduction and oxidizing atmosphere be by fuel add-on, once adjust with secondary air flow.

The effect of cyclonic separator 5 is that the feed separation of recirculation is got off.Because the temperature of charge height is hung at the conical part knot easily, causes cone and the pipeline below it (dipleg) to stop up, inclined to one side bevel-type of the present invention does not have the inner core cyclonic separator and has solved this difficult problem preferably.

In main body reactor 4, all material suspended in air-flow, the density of suspensoid is successively decreased to the top by reactor bottom, gas flow rate increases progressively, material approximately stops 20-60 second through reduction-oxidation two sections in reactor, go out reactor with gas entrainment, separated following in cyclonic separator 5, again through box solids constituent glassware 6 shuntings, 80% material returns main body reactor 4 through the returning charge mouth 27 of sub-material chamber 24, another small portion material (20%) is discharged by the discharge port 34 of the blowdown valve 30 of tripper 6, sends into rotary kiln 14 calcinings through pipeline 7 and makes cement clinker.The cement clinker kiln discharge is after cooler 15 discharges.

The SO that contains from reactor 4 discharges ₂Gas remove light breeze preheater 2 through pipeline 11, in pipeline 11 with after the gypsum raw material that come out from one-level cyclone preheater 1 mix, enter in the secondary cyclone preheater 2 and feed separation, remove one-level cyclone preheater 1 through pipeline 12 again, in pipeline 12 ways, be mixed mutually with initiate gypsum raw material again and enter in the one-level cyclone preheater 1, separate after pipeline 13 is sent to relieving haperacidity with solid materials, contain SO ₂Gas SO when reactor 4 is discharged ₂Concentration is 15%(dry gas volume percent).

Because tripper 6 also is a fluidized bed type, therefore the fluidized wind (also being the primary air wind of sending into reactor) 8 that comes from rotary kiln has also been introduced tripper 6.According to the reaction and the operational circumstances that drop in the unit time in inventory and the reactor 4, regulate the height of the spool 32 of blowdown valve 30, can adjust the size of valve opening 31, thus the material amount of control Returning reactor 4 and the material amount ratio that is discharged into rotary kiln 14.The gypsum powder of the new input of control reactor is 1: 2.5～6.0 with the ratio of returns amount.Like this, just controlled the residence time of material in reactor, guaranteed that gypsum fully decomposes.For example: dropping into the virgin material amount is 11.0～11.6 tons/hour, is 35～38 tons/hour from the inventory of tripper 6 Returning reactors 4, and discharging material (return stove or go into kiln) quality index is CaS＜0.32, SO ₃＜0.17.

The hot gas of rotary kiln waste gas and cement clinker cooler is used for for oven dry gypsum, burning (wind of reactor, secondary air) and preheating (fluidized wind of tripper 6 also has pre-heat effect), and heat is fully used.And from the SO that contains of decomposing furnace main reactor 4 ₂Gas then in two (or three) level cyclone preheater and pipeline to the direct preheating of new gypsum powder, contain SO ₂Furnace gas is to separate running with rotary kiln waste gas, thereby can accurately control the operational condition that gypsum decomposes and grog is produced, and guarantees to produce normal operation.

Because device provided by the invention and technology make the kiln of gypsum be able to continuous operation in actual production outer the decomposition, carry out smoothly.In the cover production equipment by the present invention design, per hour drop into 11.4 tons of new gypsum materials, but 6.3 tons of the materials that decompose of output per hour, the SO after the decomposition ₂Gas concentration is that rate of decomposition reaches 100% more than 15%, has guaranteed the quality of sulfuric acid and cement clinker.And because this device has overcome the defective that exists in the prior art, the heat energy utilization rate is higher, such as utilizing the reactor furnace gas, contains SO ₂The directly pre-thermal material of gas, utilize rotary kiln waste gas for oven dry, burning etc. form each stage heat closed circulation, thereby guarantee that the heat energy that produces in the flow process obtains optimum utilization, both make full use of heat energy, saved the energy, simplified technical process again, reduced primary heater unit and reached good effect than prior art, saved a large amount of construction investments, reduced production cost, helped decomposing the maximization production of system sulfuric acid, cement clinker with gypsum.

Claims (9)

1, a kind of fluidized bed type decomposer that is used for the gypsum decomposition, main part and a whirlwind preheating system of comprising a decomposing furnace, said fluidized bed type decomposer is characterized in that the main part of said decomposing furnace has one to become the inclined to one side bevel-type of integral body not have the inner core cyclonic separator with it above a cylindrical bodies reactor, below cyclonic separator, connect a box solids constituent glassware, said box solids constituent glassware becomes the fluidized bed type blowdown valve of integral body to be made up of the sub-material chamber with one with it, make solid powder when the solids constituent glassware is distributed, solid powder is shunted between the returning charge mouth of blowdown valve and sub-material chamber in proportion; Above cyclonic separator, link to each other with the two stage cyclone preheater.

2, according to the described fluidised bed decomposition device of claim 1, it is characterized in that said inclined to one side bevel-type cyclonic separator, the minimum angle of its cylindrical shell bus and cone generatrices is 0-30 °.

3,, it is characterized in that having in the said fluidized bed type blowdown valve spool of an adjustable valve hole size according to the described fluidised bed decomposition device of claim 1.

4, decompose gypsum with the described fluidized bed type decomposer of claim 1 and become solid CaO and gas SO ₂Production technique, the recycle system that is formed by fluidized-bed reactor, cyclonic separator, tripper and return line drops into the cylindrical bodies reactor with gypsum powder, fuel, and imports primary air as fluidized wind from reactor bottom, makes its burning produce CO or H ₂, import secondary air on reactor top, in the main body reactor, form a reduction zone and an oxidation zone, the gypsum particulate constantly circulates decomposition between reduction zone and oxidation zone, gypsum degradation production CaO, SO ₂And other reactant gasess, discharge from cylindrical bodies reactor top simultaneously, through cyclonic separator and solids constituent glassware, the solid materials that gypsum is decomposed partly turns back to the main body reactor, mix with the gypsum powder of new input, realize the outer loop decomposition reaction, another part discharges into calcined by rotary kiln and becomes cement clinker, it is characterized in that entering first step cyclone preheater after expellant gas directly mixes in the new material that drops into and the second stage cyclone preheater, separated solid materials mixes with expellant gas in the main body reactor cyclone again, after second stage cyclone preheater separates in the investment subject reactor; The residence time of gypsum powder in the main body reactor is 20-60 second, and the solid decomposer material returns the main body reactor from the solids constituent glassware the amount of returning is 70-90%.

5, according to the outer decomposition and production process of the described plaster kiln of claim 4, the temperature of reaction that it is characterized in that reduction zone in the main body reactor is 850-1080 ℃, and is 1000-1150 ℃ in the temperature of reaction of oxidation zone.

6,, it is characterized in that the cross section wind speed of reduction zone in the main body reactor is controlled at the 1.6-5 meter per second, and be controlled at the 3.4-6 meter per second at the cross section of oxidation zone wind speed according to the described gypsum decomposition and production process of claim 4.

7, according to the described gypsum decomposition and production process of claim 4, the ratio that it is characterized in that newly dropping into gypsum inventory and the returns amount of returning the main body reactor from tripper is 1: 2.5-6.0.

8, according to the described gypsum decomposition and production process of claim 4, the atmosphere CO that it is characterized in that controlling reduction zone in the main body reactor is 1.5～4%, the atmosphere O of oxidation zone ₂Be 0.5～2%.

9,, it is characterized in that wind of said main reactor goes into main reactor through the rotary kiln heating by the exhaust gases is laggard according to the described gypsum decomposition and production process of claim 4.

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