CN203549812U - Pressurized ash residue treatment system - Google Patents

Abstract

The utility model discloses a pressurized ash residue treatment system for solving the problems of the traditional gasification furnace that ash residues cannot be operated under pressure, a pipeline is seriously abraded and the heat energy recovery efficiency is low. According to the technical scheme, the pressurized ash residue treatment system comprises a first-stage fluidized bed cooler, a second-stage cooler and a steam pocket, wherein an ash residue outlet of the upper segment of the first-stage fluidized bed cooler is connected with an ash residue inlet of the middle segment of the second-stage cooler through a water cooling jacketed pipe, the top of the first-stage fluidized bed cooler is provided with a bayonet type water cooling pipe, and the bayonet type water cooling pipe and the water cooling jacketed pipe are both connected with the steam pocket; the second-stage cooler is provided with a cyclone separator at the ash residue inlet, a cooling coil at the lower segment, a gas outlet at the top and an ash residue outlet at the bottom, and a filter is arranged at the gas outlet; and the ash residue outlet is connected with a downstream system through an ash residue pressure reducing device. The system disclosed by the utility model is simple, low in operation and investment costs and high in heat recovery efficiency, the water cooling pipe is not easy to abrade, and the particle sizes of ash residues are wide in application range.

Description

Pressurization ash processing system

Technical field

The utility model relates to a kind of ash processing system, specifically a kind of pressurization ash processing system.

Background technology

At present, recirculating fluidized bed is due to higher raw material circulating ratio, and higher heat transfer, mass transfer rate, be widely used in coal gasification and field of boilers, is particularly suitable for the utilization of China's colm.But large-scale pressurized circulating fluidized bed technique immature at present, one of technical problem is how to realize the continous-stable deslagging of recirculating fluidized bed.Continous-stable deslagging is to control thickness of bed layer, guarantees fluidization quality and then ensures the stable important means of reacting of burner hearth, and the unstable meeting of dreg removing system causes the fluctuation of fluidized bed layer height, directly affects fluidized bed process.And the slag temperature of coal gasification and boiler reaches 800-1000 ℃, lime-ash just can carry out subsequent treatment after need cooling.Therefore, lime-ash heat recovery system is very important to fluid bed deslagging and bed stable operation.

Comparatively conventional slag cooler has spent-bed cooler and rolling-cylinder type slag-cooler at present.The fluidized bed slag cooler of wind and water combined formula adopts fluid bed principle cold wind and water-cooled pipe laying and slag to carry out heat exchange, the composite fluidized bed slag cooler that the patent No. of applying for as University Of Chongqing is ZL200710092413.7, its separate unit treating capacity is large, on large Capacity Circulating Fluidized Bed Boilers, apply more, but it has the following disadvantages: (1) distributes and has relatively high expectations fluid bed charging particle diameter, General Requirements footpath grain is controlled at below 1mm, if bulky grain or instantaneous large flow lime-ash enter fluidized bed slag cooler, when fluidized wind is not enough, easily in slag cooler, deposit, cause coking, stop up, (2) slag cooler water-cooled pipe laying, at the hypomere of water cooler, very easily weares and teares, (3) air-cooled ratio is higher, and the gas heat after air-cooled heat exchange almost can not effectively reclaim, and directly after outer row, environment is easily impacted, if reuse exists again, need to process its cooling, increases the problem of energy consumption, (4) when lime-ash is discharged by superior system, be band pressure condition, and while entering the cooling of cold slag system, because needs synchronously carry out air-cooledly, therefore operating pressure be again normal pressure, and under this pressure conversion, existence is difficult to maintain the problem of superior system operating pressure, (5) tube bank of heat exchange concentrates on the hypomere of slag cooler, and the time of staying of lime-ash between heat-exchanging tube bundle is short, and lime-ash easily rests on the interbank block system in cooler under the effect of gravity, (6) in slag cooler, there are multiple partition walls, affect fluidisation and heat transfer effect, may have the problem of coking in the Heat Room between part partition wall.This has all affected the continuous safety and economic operation of spent-bed cooler.At present, the main spent-bed cooler form of using is multi-chamber selective slag cooler.

Rolling-cylinder type slag-cooler is less demanding to charging particle diameter, and still, along with the propelling of the equipment enlargings such as CFBB, it is limited in one's ability that rolling-cylinder type slag-cooler is processed lime-ash, and operation is subject to the influence of fluctuations of coal ash content, and the defect that is difficult to amplify also more shows and gives prominence to.With respect to spent-bed cooler, the main operation problem of rolling-cylinder type slag-cooler is: the entrance position of (1) lime-ash serious wear, particularly slag needs frequent repairing especially, and rotating water joint leakiness water; (2) power consumption is high; (3) high-temperature pressurizing operation sealing difficulty.Meanwhile, roller slag cooler adopts industry water or the power plant's condensed water cooling medium as lime-ash conventionally, and the aobvious amount that lime-ash is taken away from burner hearth can not be used effectively.

In sum, pressurised fluidized bed due to cold slag machine sealing problem, be more suitable for adopting spent-bed cooler.And there is at present buried pipe abrasion in spent-bed cooler, air-cooled ratio is excessive, the problems such as easily coking, stifled slag, therefore be necessary that exploration can better spent-bed cooler, reduce slag cooler operation air quantity, improve adaptability and water-cooled ratio thereof that it distributes to charging particle diameter, improve safety in operation and the reliability of slag cooler.

Summary of the invention

The purpose of this utility model is in order to solve the problems of the technologies described above, provide that a kind of technique is simple, system operation cost and cost of investment is low, heat recovery efficiency is high, water cooling tube is difficult for abrasion, lime-ash particle diameter is applied widely, applicable to the pressurization ash processing system of cooling with pressure.

The utility model system comprises one-level fluidized bed cooler, secondary coolers and drum, wherein, the lime-ash outlet of described one-level fluidized bed cooler epimere is connected with the lime-ash entrance in secondary coolers stage casing through water-cooling jacket pipe, the top of described one-level fluidized bed cooler is provided with sword bayonet type water cooling tube, and described sword bayonet type water cooling tube and water-cooling jacket Guan Junyu drum connect; The lime-ash porch of described secondary coolers is provided with cyclone separator, and hypomere is provided with cooling coil, and gas vent is established at top, and lime-ash outlet is established in bottom, and described gas outlet is equipped with filter; Described lime-ash outlet is connected with down-stream system through lime-ash dropping equipment.

The tube pitch of described sword bayonet type water cooling tube is 100mm-200mm.

The lime-ash entrance of described one-level fluidized bed cooler is connected with J moulding mixture leg.

The hypomere of described J moulding mixture leg and one-level fluidized bed cooler is provided with multiple loosening gas tube orifice.

Described one-level fluidized bed cooler hypomere is also provided with the water Quench mouth of pipe.

Described cooling coil is communicated with and forms successively by many vertical tubes, and in same plane, around the same center of circle, is wound in the Guan Yuan of multiple different radiis.

Described lime-ash dropping equipment comprises with the lime-ash of secondary coolers and exports the grey collecting tank being connected successively, grey lock hopper and ash to batch can, and described grey lock hopper is provided with pressurising mouth and pressure relief opening, and described pressure relief opening is connected with cloth envelop collector.

Technique for said system comprises: by pressure, be 3-4Mpag, temperature is 900-1000 ℃, particle diameter is that the mode that the high-temperature ash of 30-2000 micron is carried with Pneumatic type is entered in one-level fluidized bed cooler by the lime-ash entrance of bottom, under the effect of fluidized gas, with the cooling water indirect heat exchange in the mode of fluidisation and the sword bayonet type water cooling tube at top, be cooled to 300-330 ℃, then by the lime-ash outlet of one-level fluidized bed cooler epimere, through water-cooling jacket pipe, entered in secondary coolers, by after the cyclone separator sedimentation of lime-ash porch with the cooling coil of hypomere in cooling water heat exchange be cooled to 80-170 ℃, lime-ash after cooling and fraction gas are discharged by bottom, after step-down, send into down-stream system, all the other most of gases that separate through cyclone separator are after the filter at top filters, through pressure-regulating valve, discharge as circulating air reuse again, liquid-vapor mixture in described sword bayonet type water cooling tube and water-cooling jacket after heat exchange is sent into drum and is isolated low-pressure steam and water, and isolated water enters in sword bayonet type water cooling tube and water-cooling jacket and carries out heat exchange with high temperature lime-ash with pressure with loopback together with fresh cooling water.

Further, the back pressure of controlling the outlet of secondary coolers lime-ash is less than the pressure 1-3bar of one-level fluidized bed cooler lime-ash entrance, and the transporting velocity of controlling lime-ash in one-level fluidized bed cooler is 3-5m/s.

Described fluidized gas and ash weight are than being 0.8-1.5, the tube pitch 100mm-200mm of described sword bayonet type water cooling tube.

Described high temperature lime-ash with pressure is sent into the bottom inlet of one-level fluidized bed cooler through J moulding mixture leg, simultaneously to J moulding mixture leg and one-level fluidized bed cooler hypomere, fill into loosening gas and be conveyed into one-level fluidized bed cooler to guarantee high temperature lime-ash with pressure.

The step-down process of the lime-ash after described cooling and fraction gas is: the lime-ash after described cooling and fraction gas are discharged and first sent into grey collecting tank after secondary coolers and collect by bottom, then pass through to grey lock hopper pressurising, when the pressure of grey lock hopper is identical with grey collecting tank, open the valve between grey collecting tank and grey lock hopper, lime-ash in grey collecting tank is entered in grey lock hopper according to gravity, then close the valve between grey collecting tank and grey lock hopper, give grey lock hopper pressure release, the gas of pressure release is discharged after cloth envelop collector filters, ash lock hopper pressure is given after batch can balance with ash, open grey lock hopper and ash to the valve between batch can, lime-ash according to gravity current ash charge in batch can.

Described circulating air can be used as conveying gas, loosening gas and/or the reuse of pressurising gas after pressurization.

The form that the utility model adopts one-level fluidized bed cooler to add secondary coolers is carried out cooling to high temperature lime-ash with pressure, in one-level fluidized bed cooler, at top, adopt sword bayonet type water cooling tube, it is cooling that the form of the lime-ash employing fluidisation that bottom is sent into is carried out mediate contact formula, its advantage is 1) adopt fluidized gas from bottom to top bubbling gush out, drive lime-ash with the form of fluidised form and the sword bayonet type water cooling tube heat exchange at top, heat exchange mode is directly effective, good fluidity, the lime-ash of fluidisation can maintain the required time of staying of heat exchange in one-level fluidized bed cooler, owing to not needing to carry out lime-ash separation in one-level fluidized bed cooler, therefore without partition wall is set, do not affect the active force of fluidized gas, can obtain maximum fluidisation heat transfer effect, 2) due to sword bayonet type water cooling tube, be positioned at the top of cooler, and lime-ash is fluidised form, because gravity is difficult for accumulating lime-ash, do not exist lime-ash to rest on the interbank problem resulting in blockage of water cooling tube yet, the abrasion problem of water cooling tube also can drop to the lightest, and this structure is specially adapted to the heat exchange to lime-ash, 3) conveying gas forms fluidized gas after entering one-level fluidized bed cooler, this part gas is only as carrying and the object of fluidisation, do not bear the effect of heat exchange cooling, all heat energy of lime-ash heat exchange are all absorbed by sword bayonet type water cooling tube, in one-level fluidized bed cooler, all use water-cooled to reclaim heat energy, thereby this part high temperature heat can effectively be reclaimed, can pass through the more useful low pressure steam of drum by-product.

For obtaining effective low pressure steam, one-level fluidized bed cooler can not be too low to the chilling temperature of lime-ash, be cooled to 300-330 ℃ for well, further cooling can be undertaken by the secondary coolers being connected with one-level fluidized bed cooler, in secondary coolers, hypomere arranges cooling coil, through the preliminary cooled lime-ash of one-level fluidized bed cooler, enter in secondary coolers, by the cyclone separator of lime-ash porch, carry out the separation of gas slag, utilize cooling coil further to lower the temperature to lime-ash simultaneously, to meet the requirement of follow-up ash processing system, secondary coolers is cooled to 80-170 ℃ to lime-ash, cooling temperature can not be too low, to avoid hardening of cold conditions lime-ash, block system, excess Temperature can make the Master Cost of deslagging tank increase and the lime-ash that enters ash silo further there is the situations such as personnel scald in entrucking process.

Further, the pressure 1-3bar that the back pressure of control secondary coolers lime-ash outlet is less than one-level fluidized bed cooler lime-ash entrance is the reasonable flow velocity in order to control lime-ash and fluidized gas, pressure differential is crossed conference makes ash flow rate too fast, and too small meeting easily causes secondary coolers to stop up; The transporting velocity of controlling lime-ash in one-level fluidized bed cooler is 3-5m/s, and in one-level fluid bed, the control of the transporting velocity of lime-ash is to make lime-ash have the suitable time of staying, and the too high meeting of transporting velocity is shortened the time of staying, and lime-ash can not get fully cooling; Too low meeting makes lime-ash can not get abundant fluidisation.After making lime-ash Fen Li with gas in the cyclone separator of secondary coolers lime-ash porch, lime-ash is further cooling by coil pipe according to gravitational settling.

It is good cooling for lime-ash is obtained that the tube pitch of described sword bayonet type water cooling tube is controlled at 100mm-200mm, this tube pitch is special in the heat exchange of fluidisation state lime-ash, spacing is crossed conference and is reduced cooling effect, too small meeting easily causes the abrasion of lime-ash to water cooling tube because gas speed is too fast, described sword bayonet type water cooling tube adopts the form of outer tube socket inner tube, between described inner and outer pipe, by Ω, manage connection, to increase its intensity.Control described fluidized gas and ash weight than being 0.8-1.5, fluidized gas in one-level fluidized bed cooler is formation after conveying gas and the loosening gas of strength while carrying enters one-level fluidized bed cooler bubbling and gushes out in fact, fluidized gas and lime-ash ratio are too small, can make lime-ash carry not because of the effect of gravity, or rest on the interbank block system in heat exchanger, cross conference and make to can not get the required time of staying of heat exchange in the lime-ash of fluidisation state.

In one-level fluidized bed cooler, design J moulding mixture leg, the throughput direction in order to change material on the one hand, its bottom by one-level fluidized bed cooler is upwards entered in cooler, on the other hand, J-shaped dipleg also can guarantee that the pressure in one-level fluidized bed cooler is greater than the pressure of the front conveyance conduit of J moulding mixture leg, lime-ash can be sent in one-level fluidized bed cooler smoothly, the bending radius of described J moulding mixture leg is preferably greater than 3D, be preferably 3～5D, can make like this to reduce wearing and tearing and the local resistance of lime-ash to bend pipe; Described one-level fluidized bed cooler hypomere is also provided with the water Quench mouth of pipe, uses, by spraying into chilled water to one-level fluidized bed cooler to prevent the bottom coking of one-level fluidized bed cooler when lime-ash thermic load is larger.

Further, can fill into loosening gas to J moulding mixture leg and one-level fluidized bed cooler hypomere, to regulate, send into pressure, avoid accumulating and coking of lime-ash.Described loosening gas fills into position can carry out appropriate design according to actual needs, at this, is not described further.

In native system, the mode that curls up of cooling coil is also improved, and is communicated with successively on the basis of many vertical tubes, and from horizontal cross-section, many vertical tubes are wound the Guan Yuan of multiple different radiis in same plane around the same center of circle.This form that curls up can, well for the lime-ash falling leads, make it evenly fall and carry out heat exchange with the tube bank of cooling coil on the one hand, and the version of this coil pipe also can well be avoided the abrasion of lime-ash to tube bank, the service life of extension device on the other hand.

Beneficial effect:

1. the utility model adopts Pneumatic type to carry the heat exchange of cooperation fluidisation state water-cooled to lime-ash, adopt two-stage water-cooled to reclaim the heat energy of lime-ash, in one-level fluidized bed cooler, reclaim heat for the higher low pressure steam of by-product economic worth, more simple water-cooled or wind and water combined cooling, cooling-down effect is better, heat recovery and utilization efficiency is higher; And air-cooled owing to not carrying out, be only water-cooled, fluidized gas also adopts pressurized circulation gas, therefore can well realize the band press operation of system, thereby can reduce equipment volume, reduces equipment investment cost, improves lime-ash treating capacity.

2., although adopted secondary cooling, the structure of equipment is very simple, saves the dependency structures such as the classification of partition wall, lime-ash, greatly simplified technical process, reduced device fabrication and operating cost.

3. in one-level fluidized bed cooler, adopt the sword bayonet type water cooling tube at top to carry out the lime-ash of top fluidisation state cooling, the good fluidity of its good effect of heat exchange, lime-ash, effectively avoided lime-ash in interbank coking, deposition and the abrasion problem to tube bank.In secondary coolers, adopt cooling coil further to lower the temperature to lime-ash, can fall to leading for lime-ash, more uniform heat exchange, and effectively reduce the abrasion of lime-ash to tube bank.

4. utilize the loosening gas of ejection to purge lime-ash, loosening gas forms fluidized gas together with entering the conveying gas of one-level fluidized bed cooler, under the operating pressure of 3-4Mpag, upwards bubbling is gushed out, make lime-ash fluidisation and rise and carry out heat exchange with sword bayonet type water cooling tube with fluidized gas, the fluidised form of lime-ash is good, particle diameter to ash-slag delivery applied widely, applicable to the lime-ash of 30-2000 micron grain size scope, its fluidized state of lime-ash after fluidisation cooling is better, distribution of particles is more even, be difficult for bonding, be more suitable for subsequent recovery, can be used as pressurized reactor lime-ash thermal recovery unit uses.

5. the utility model system can be moved under high pressure-temperature, due to machinery-free rotating machinery, is not easy to break down.Employing fluidizing agent is cheap and easy to get, can adopt the isolated circulating air of secondary coolers as conveying gas, loosening gas and/or pressurising gas, greatly reduces operating cost.Service life of equipment is long, reliability is high.

6. step-down technical process is simple, pressurising and pressure leak process reliability is high, good sealing effect, easy and simple to handle.

7. adopt native system, take gasification furnace 1700t/d coal feeding amount, lime-ash flow as 3.3t/h, lime-ash enters temperature in one-level fluidized bed cooler and cools to 315 ℃ for example from 970 ℃, and only this can recovered steam 760kg/h, with 120 yuan/t of steam, calculate, year recovered steam is worth 730,000.

Accompanying drawing explanation

Fig. 1 is the utility model system diagram and process chart.

The tube bank layout drawing (cross section state) that Fig. 2 is sword bayonet type water cooling tube.

Fig. 3 is the sectional view of the single tube bank of sword bayonet type water cooling tube.

Fig. 4 is secondary coolers cooling coil elevation.

Fig. 5 is the sectional view of secondary ash cooler cooling coil;

Fig. 6 is the layout drawing (cross section state) of the loosening gas tube orifice in one-level fluidized bed cooler hypomere tapering.

Wherein, 1-J moulding mixture leg, 1.1-becomes flexible gas tube orifice, 2-one-level fluidized bed cooler, 2.1-sword bayonet type water cooling tube, 2.11-tube bank, 2.12-inner tube, 2.13-outer tube, 2.14-reinforced pipe, the 2.2-water Quench mouth of pipe, 2.3-becomes flexible gas tube orifice, 2.4-lime-ash entrance, the outlet of 2.5-lime-ash, 3-water-cooling jacket pipe, 4-secondary coolers, 4.1-cooling coil, 4.11-vertical tube, 4.2-sintered metal filter, 4.3-lime-ash entrance, the outlet of 4.4-lime-ash, 4.5-gas vent, 4.6-cyclone separator, 5-drum, 6-ash collecting tank, 7-ash lock hopper, 7.1-pressurising mouth, 7.2-pressure relief opening, 8-ash is given batch can, 9-cloth envelop collector, 10-pressure-regulating valve.

The specific embodiment

Below in conjunction with accompanying drawing, the utility model system is further explained to explanation.

Referring to Fig. 1, the utility model system comprises the J moulding mixture leg 1, one-level fluidized bed cooler 2, the secondary coolers 4 that connect successively, wherein, the lime-ash outlet 2.5 of described one-level fluidized bed cooler 1 epimere is connected with the lime-ash entrance 4.3 in secondary coolers 4 stage casings through water-cooling jacket pipe 3, the top of described one-level fluidized bed cooler 2 is provided with sword bayonet type water cooling tube 2.1, described sword bayonet type water cooling tube 2.1 and water-cooling jacket pipe 3 are all communicated with drum 5, form the cooling water circulation line of sealing, and isolate low pressure steam by drum 5; Lime-ash entrance 4.3 places of described secondary coolers 4 are provided with cyclone separator 4.6, and hypomere is provided with cooling coil 4.1, and gas vent 4.5 is established at top, and lime-ash outlet 4.4 is established in bottom, and sintered metal filter 4.2 is equipped with at described gas vent 4.5 places; Described lime-ash outlet 4.4 is connected with down-stream system through lime-ash dropping equipment, referring to Fig. 2, the tube bank 2.11 spacing 100mm-200mm of described sword bayonet type water cooling tube 2.1, referring to Fig. 3, every tube bank 2.11 comprises inner tube 2.12 and outer tube 2.13, the interior circulation cooling water of inner tube 2.12 (as boiler feedwater), the steam after the interior circulation heat exchange of outer tube 2.13, uses reinforced pipe 2.14 reinforcement of Ω shape between inner and outer pipe.The bending radius of described J moulding mixture leg 1 is 3～5D, and described J moulding mixture leg 1 is provided with multiple loosening gas tube orifice 1.1, and referring to Fig. 6, the hypomere of one-level fluidized bed cooler 2 (comprising tapering) is provided with the water Quench mouth of pipe 2.2 and multiple loosening gas tube orifice 2.3; Referring to Fig. 4 and Fig. 5, described cooling coil 4.1 is communicated with and forms successively by many vertical tubes 4.11, is wound in the Guan Yuan (forming altogether 6 Guan Yuan in the utility model) of multiple different radiis in same plane around the same center of circle.Described lime-ash dropping equipment comprises that with the lime-ash outlet 4.4 grey collecting tanks 6 that are connected successively, grey lock hopper 7 and the ash of secondary coolers 4, to batch can 8, described grey lock hopper 7 is provided with pressurising mouth 7.1 and pressure relief opening 7.2, and described pressure relief opening 7.2 is connected with cloth envelop collector 9.

Technical process:

Take the circle fluidized-bed gasification furnace of 1700t/d coal feeding amount as example, from the burner hearth of gasification furnace, discharge 3.1MPag, the lime-ash (lime-ash particle diameter is 30-2000 micron) of 970 ℃, lime-ash flow is 3320kg/h, through 3-4Mpag, conveying gas (adopt circulating air as the conveying gas) pneumatic transporting of 150 ℃, deliver to J moulding mixture leg 1, circulating air is blown into through the multiple loosening gas tube orifice 1.1 of J moulding mixture leg 1 as loosening gas, prevents that lime-ash is at J moulding mixture leg 1 bottom dust stratification, then lime-ash is transferred gas and loosening gas by the lime-ash entrance 2.4 of one-level fluidized bed cooler 2 bottoms, to send into one-level fluidized bed cooler 2(operating pressure is 3.15MPag) in, introduce circulating air (3.7MPag simultaneously, 150 ℃) as loosening gas, through the loosening gas tube orifice 2.3 in one-level fluidized bed cooler 2 hypomere taperings, spray, conveying gas and loosening gas composition fluidized gas bubbling are gushed out (fluidized gas and ash weight compare for 0.8-1.5), drive lime-ash to overcome self gravitation fluidisation rising (transporting velocity of lime-ash is 3～5m/s), 2.1 interior cooling waters in the sword bayonet type cooling water pipe 2.1 at the lime-ash of fluidisation state and top (the present embodiment use boiler feedwater) heat exchange is cooling, boiler feedwater in low-pressure steam drum 5 is sent into by pipeline in the inner tube 2.12 of sword bayonet type cooling water pipe 2.1, boiler feedwater is to downstream to upwards flowing out by the annular space between inner and outer pipe behind inner tube 2.12 bottoms, while is carried out heat exchange vaporization with the lime-ash outside pipe, steam water interface after boiler feedwater gasification separates through tedge admission bag 5, produces 0.4MPag low-pressure steam (757kg/h), when the unexpected increase of lime-ash thermic load causes sword bayonet type cooling water pipe 2.1 not make cooling lime-ash, by the boiler feedwater Quench mouth of pipe 2.2, spray into direct cooling lime-ash in cooler, guarantee that lime-ash is cooled to 300-330 ℃ in one-level fluidized bed cooler 2.

Lime-ash after 2 coolings of one-level fluidized bed cooler exports 2.5 by lime-ash also can introduce boiler feedwater as cooling water through water-cooled clamp cover described in water-cooling jacket pipe 3(, gas-vapor mix after heat exchange is also sent into drum 5), the lime-ash entrance 4.3 of secondary coolers 4 enters secondary cinder cooler 4, by secondary cinder cooler 4(operating pressure, be 3MPag) cyclone separator 4.6 of porch, most of cinder according to gravitational settling to bottom, through cooling coil 4.1, be cooled to after 80-170 ℃ and discharged by the lime-ash outlet 4.4 of bottom, the gas that separated by cyclone separator 4.6 of part fine grained is carried secretly after upwards the sintered metal filter 4.2 by top filters, by gas vent 4.5, through pressure adjusting pressuring valve 10, discharged, after can pressurizeing, uses as described circulating air this part gas.In described cooling coil 4.1, passing into demineralized water is lime-ash cooling as cooling water.Utilize pressure-regulating valve 10 to regulate lime-ash outlet back pressure, i.e. the back pressure of secondary coolers lime-ash outlet 4.4 is less than the pressure 1-3bar of the lime-ash entrance 2.4 of one-level fluidized bed cooler.

The lime-ash of discharging from the lime-ash outlet 4.4 of secondary cinder cooler 4 enters grey collecting tank 6 and collects, as pressurising gas, by the sequence program of setting, through pressurising mouth 7.1, give grey lock hopper 7 pressurisings with circulating air, when pressure and grey collecting tank 6 balance, open grey collecting tank 6 lower ball valve, lime-ash, by gravity current ash charge lock hopper 7, enters grey EP (end of program); Then close grey collecting tank 6 lower ball valve, grey lock hopper 7 enters pressure release program, and decompression gas enters torch or home after pressure relief opening 7.2 filters by cloth envelop collector 9; When the pressure in grey lock hopper 7 and ash, give after batch can 8 balances, open grey lock hopper 7 lower ball valve, cinder leans on gravity current ash charge in batch can 8.By grey lock hopper system, realize the discharge to low-pressure system by high-pressure system of cooling rear lime-ash.Ash gives cinder in batch can 8 more for example, through conveying gas (N ₂) deliver to continuously ash silo.

Adopt native system, take gasification furnace 1700t/d coal feeding amount, lime-ash flow as 3.3t/h, lime-ash enters temperature in one-level fluidized bed cooler and cools to 315 ℃ for example from 970 ℃, and only this can recovered steam 760kg/h, with 120 yuan/t of steam, calculate, year recovered steam is worth 730,000.

Claims (7)

1. a pressurization ash processing system, it is characterized in that, comprise one-level fluidized bed cooler, secondary coolers and drum, wherein, the lime-ash outlet of described one-level fluidized bed cooler epimere is connected with the lime-ash entrance in secondary coolers stage casing through water-cooling jacket pipe, the top of described one-level fluidized bed cooler is provided with sword bayonet type water cooling tube, and described sword bayonet type water cooling tube and water-cooling jacket Guan Junyu drum connect; The lime-ash porch of described secondary coolers is provided with cyclone separator, and hypomere is provided with cooling coil, and gas vent is established at top, and lime-ash outlet is established in bottom, and described gas outlet is equipped with filter; Described lime-ash outlet is connected with down-stream system through lime-ash dropping equipment.

2. pressurization ash processing system as claimed in claim 1, is characterized in that, the tube pitch of described sword bayonet type water cooling tube is 100mm-200mm.

3. pressurization ash processing system as claimed in claim 1 or 2, is characterized in that, the lime-ash entrance of described one-level fluidized bed cooler is connected with J moulding mixture leg.

4. pressurization ash processing system as claimed in claim 3, is characterized in that, the hypomere of described J moulding mixture leg and one-level fluidized bed cooler is provided with multiple loosening gas tube orifice.

5. pressurization ash processing system as claimed in claim 1, is characterized in that, described one-level fluidized bed cooler hypomere is also provided with the water Quench mouth of pipe.

6. pressurization ash processing system as claimed in claim 1, is characterized in that, described cooling coil is communicated with and forms successively by many vertical tubes, and in same plane, around the same center of circle, is wound in the Guan Yuan of multiple different radiis.

7. pressurization ash processing system as claimed in claim 1, it is characterized in that, described lime-ash dropping equipment comprises with the lime-ash of secondary coolers and exports the grey collecting tank being connected successively, grey lock hopper and ash to batch can, described grey lock hopper is provided with pressurising mouth and pressure relief opening, and described pressure relief opening is connected with cloth envelop collector.

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