CN203803371U - Desulfuration synergistic device - Google Patents

Abstract

The utility model provides a desulfuration synergistic device. The device comprises a slurry spraying module, a slurry tank capacity-increasing portioning module, a communication pipeline and a circulating pump, wherein a spraying pipe is arranged inside the slurry spraying module; at least one portioning isolation assembly for dividing a slurry tank into an oxidization area and an adsorption area is arranged in the slurry tank capacity-increasing portioning module; one end of the communication pipeline is communicated with the spraying pipe while the other end of the communication pipeline is communicated with the adsorption area; the slurry at the adsorption area is pumped into the spraying pipe by virtue of the circulating pump through the communication pipeline. According to the desulfuration synergistic device, the desulfuration efficiency of existing equipment can be effectively improved, the investment cost on desulfuration synergism improvement is controlled, the stable operation of a desulfuration system is guaranteed, and emission on standard of smoke gas is realized.

Description

A kind of desulfurization synergistic device

Technical field

The utility model relates to flue gas desulfurization technique field, espespecially a kind of desulfurization synergistic device.

Background technology

Increasingly strict along with national environmental protection policy, new " fossil-fuel power plant atmospheric pollutant emission standard " promulgated be the also higher requirement of proposition aspect total emission volumn and concentration of emission two (GB13223-2011), meanwhile, the enforcement of new pollution discharge levy system has also formed very large pressure to power plant.In the case, the desulfuration efficiency of existing Limestone-gypsum Wet Flue Gas Desulfurization Process system (being generally 95%), cannot meet new environmental emission standard requirement, therefore the transformation of flue gas desulfur device oneself be imperative.

Desulfurization synergistic transformation has three kinds of modes conventionally:

Mode one, the desulfurizing tower of connecting;

Mode two, the content of sulphur in control fire coal;

Mode three adds desulfurization synergistic agent in existing desulphurization system.

But all there is problem in various degree in above three kinds of modes:

Scheme one needs the desulfurizing tower investment of series connection high, and floor space is large, and most of power plant cannot provide enough places, and modification scheme is difficult to carry out;

Scheme two has greatly increased coal-fired cost, is not good solution concerning most power plant;

Although scheme three can obviously improve desulfuration efficiency at the use initial stage, but cannot effectively ensure the long stable operation of desulphurization system, reason is, desulfurization synergistic agent is after actual motion a period of time, just be difficult to maintain high-caliber desulfuration efficiency, and then affected the stable operation of desulphurization system.And the desulfurization synergistic agent using is now difficult to the variation of flexible adaptation Coal rank and load, existing desulfurization synergistic agent has simultaneously increased the content of impurity in gypsum, has reduced the purity of gypsum.

Therefore, how effectively to improve desulfuration efficiency, realize the qualified discharge of flue gas, control the cost of investment of desulfurization synergistic transformation simultaneously, and ensure the stable operation of desulphurization system, become those skilled in the art and need badly the problem of solution.

Utility model content

The purpose of this utility model is to provide a kind of desulfurization synergistic device, can effectively improve the desulfuration efficiency of existing equipment, realizes the qualified discharge of flue gas.

The technical scheme that the utility model provides is as follows:

A kind of desulfurization synergistic device, comprising:

Slurries spray module, its inside is provided with shower;

Stock tank increase-volume division module, its inside is provided with at least one for being the subregion barrier assembly of zoneofoxidation and uptake zone by slurry pool subregion;

Connecting pipe, its one end is communicated with described shower, and its other end is communicated with described uptake zone;

Circulating pump, it pumps into the slurries of described uptake zone in described shower by described connecting pipe.

Further preferably, the inside of described slurries spray module is provided with at least one deck shower, and every layer of described shower comprises many showers, and the axis of these many showers is in the same plane;

In every layer of described shower, adjacent described shower intersects to misplace to be arranged, and the axis of adjacent described shower at angle, and this angle is 5 °-30 °.

Further preferably, described shower is reducing pipe;

And/or;

Described shower is made up of metal or nonmetallic materials;

And/or;

Described circulating pump is centrifugal pump.

Further preferably, on every described shower, be provided with at least one atomizer,

The spray angle of described atomizer is 40 °-120 °, and/or described atomizer is made up of metal or nonmetallic materials.

Further preferably, described subregion barrier assembly comprises the subregion division board and the subregion isolated tube that are intervally arranged, wherein, leaves the gap for slurry flow between adjacent described subregion division board and described subregion isolated tube.

Further preferably, described subregion division board comprises plate body and is arranged on the fin of these plate body both sides;

The length direction of described plate body is the axis direction of described subregion isolated tube;

The number of described fin is multiple, and distributes along the length direction of described plate body.

Further preferably, described subregion isolated tube is along being provided with reverse-resistance type nozzle on its axis direction, and this reverse-resistance type nozzle is distributed in the both sides of described subregion isolated tube; In the both sides of described subregion isolated tube, described reverse-resistance type nozzle and described fin interval are arranged.

Further preferably, described fin is uniformly distributed along described plate body;

And/or;

Described reverse-resistance type nozzle is uniformly distributed along described subregion isolated tube;

And/or;

At the length direction perpendicular to described plate body, described plate body has semi-circular cross-section or square-section or triangular-section;

And/or;

Described reverse-resistance type nozzle is orifice plate nozzle, and described subregion isolated tube side is drawn side pipe, and described reverse-resistance type nozzle is arranged on this side pipe place, and described side pipe inside is provided with non-return lobe.

According to desulfurization synergistic device as the aforementioned, the utility model also provides a kind of method of modifying that is applied to existing equipment, comprises the steps:

Between the spraying layer of existing equipment and demister, cut, described slurries spray module is placed between the spraying layer and demister of existing equipment;

Cut slurry pool position at existing equipment, and the slurry pool of existing equipment is divided into starching liquid pool and lower slurry pool, and described stock tank increase-volume division module is placed in to this location of cut, and between described starching liquid pool and described lower slurry pool.

Further preferably, described slurries spray module and described stock tank increase-volume division module when mounted, adopt hydraulic lifting installation mode;

And/or;

Adopt girth member to reinforce the link position place of desulfurization synergistic device and existing equipment.

The utility model can bring following at least one technique effect:

1, can effectively improve the desulfuration efficiency of existing equipment.The utility model provides a kind of desulfurization synergistic device that can be used for existing desulphurization plant, and it is simple in structure, is made up of slurries spray module, stock tank increase-volume division module, connecting pipe and circulating pump.The utility model can directly be reequiped on existing equipment, wherein, between the spraying layer of existing equipment and demister, cut, slurries are sprayed between the spraying layer and demister that module is placed in existing equipment, but the spraying layer that does not limit existing equipment and slurries spray the upper-lower position relation of module; , cut in the slurry pool position of existing equipment meanwhile, the slurry pool of existing equipment is divided into starching liquid pool and lower slurry pool, stock tank increase-volume division module is placed in to this location of cut, and between starching liquid pool and lower slurry pool.(1) the former spraying layer of the spray module of the slurries in the utility model and existing equipment forms high flux spraying layer, owing to further having increased slurries spray module on the basis of former spraying layer, increase one or more layers shower, the area coverage of spray is increased, slurries internal circulating load is increased to 50%, is far longer than traditional 30% design flow.(2) the stock tank increase-volume division module inside in the utility model is provided with for being the subregion barrier assembly of zoneofoxidation and uptake zone by slurry pool subregion, like this in the time that stock tank increase-volume division module is placed between the cut rear starching liquid pool forming of existing desulphurization plant and lower slurry pool, existing slurry pool is also partitioned barrier assembly and has been isolated into zoneofoxidation (starching liquid pool) and uptake zone (lower slurry pool), so just form the slurry environments of different pH values, the pH value of zoneofoxidation is lower, be conducive to complete (the sulfurous acid composition in spray solution is oxidized to stable sulfuric acid) of oxidizing process, the pH value of uptake zone is higher, alkaline solution more easily carries out the absorption of SO2 etc. in the time of spray, and (slurries of uptake zone are recycled pump and pump into shower by connecting pipe, spray).The subregion of slurry pool is key point of the present utility model, can form different pH value slurries districts, and being respectively oxidation and absorbing provides better slurry environments, realizes respectively oxidation and absorption function, has met efficient desulfurization requirement.And prior art is not carried out subregion to slurry pool, the pH value of slurries is mixed median, has reduced absorbability and the oxidability of slurries simultaneously, cannot realize efficient sweetening process.

2, can carry out effective subregion to slurry pool.In the utility model, the subregion buffer action of stock tank increase-volume division module realizes by subregion barrier assembly, preferably, subregion barrier assembly can be subregion division board and the subregion isolated tube being intervally arranged, also can be understood as, subregion division board and the coupling of subregion isolated tube are arranged, wherein, between adjacent subregion division board and subregion isolated tube, leave the gap for slurry flow, so just reduce the circulation passage area in upper and lower twoth district of slurry pool (zoneofoxidation and uptake zone), when slurries are flowed through this gap from top to bottom, produce Venturi effect, effectively suppress the mixing of upper and lower region slurries.Further preferably, in the time that the both sides of subregion division board are provided with fin, can further dwindle the circulation passage area for upper and lower two district's slurry flow; Still more preferably, when reverse-resistance type nozzle is drawn in the both sides of subregion isolated tube, and when being intervally arranged, reverse-resistance type nozzle and fin (also can draw side pipe from the both sides of subregion isolated tube, reverse-resistance type nozzle is arranged in this side pipe, side pipe and fin are intervally arranged), further dwindle the circulation passage area for upper and lower two district's slurry flow, more effectively suppressed the mixing of upper and lower region slurries, realized the subregion of separation instrumentation.

3, easy to use, in improving desulfuration efficiency, can effectively control cost, can effectively ensure that high-efficiency desulfurization moves steadily in the long term simultaneously.Desulfurization synergistic device of the present utility model can directly be reequiped on existing equipment, the dependency structure of existing equipment is cut, and carry out hydraulic lifting and install, easy to use.Simultaneously the utility model also can be realized on the basis of high-efficiency desulfurization existing equipment being carried out to subregion, can be cost-saving, and without dropping into larger cost, the desulfurizing tower or control the larger cost that the content of sulphur in fire coal produces of for example connecting.Also due to the use without adding desulfurization synergistic agent, be structural change simultaneously, can effectively ensure high-efficiency desulfurization steady in a long-term.

4, design odd jobs, the scope of application is wide.Slurries spray module and stock tank increase-volume division module flexible design in desulfurization synergistic device of the present utility model, structure is not unique, can determine flexibly according to different exhaust gas volumns and amount of sulfur contenting in smoke.Specifically can spray the number of plies of shower and the height of stock tank increase-volume division module in module by the different exhaust gas volumn of calculative determination and the applicable slurries of amount of sulfur contenting in smoke, effectively ensure desulfurization synergistic effect.

Brief description of the drawings

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:

Fig. 1 is the schematic diagram of a kind of embodiment of desulfurization synergistic device of the present utility model;

Fig. 2 is that the shower of a kind of embodiment of spray synergy module of the present utility model is arranged schematic diagram;

Fig. 3 is the subregion division board of a kind of embodiment of the present utility model and the schematic diagram of arranging of subregion isolated tube;

Fig. 4 is the front view of the subregion division board of a kind of embodiment of the present utility model;

Fig. 5 is the side view of subregion division board embodiment illustrated in fig. 4;

Fig. 6 is the top view of subregion division board embodiment illustrated in fig. 4;

Fig. 7 is the side view of the subregion isolated tube of a kind of embodiment of the present utility model;

Fig. 8 is the front view of subregion isolated tube embodiment illustrated in fig. 7;

Fig. 9 is the partial schematic diagram of the orifice plate nozzle of a kind of embodiment of the present utility model;

Figure 10 is the structural representation of the reverse-resistance type nozzle of a kind of embodiment of the present utility model.

Drawing reference numeral explanation:

1-slurries spray module, 2-stock tank increase-volume division module, 3-shower, 4-housing one, 5-housing two, 6-subregion division board, 7-subregion isolated tube, 8-reverse-resistance type nozzle, 9-connecting pipe, the non-return lobe of 10-, 11-orifice plate nozzle, 12-fin.

Detailed description of the invention

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, to the accompanying drawing of required use in embodiment or description of the Prior Art be briefly described below, apparently, accompanying drawing in the following describes is only embodiment more of the present utility model, for those of ordinary skill in the art, do not paying under the prerequisite of creative work, can also obtain according to these accompanying drawings other accompanying drawing.

In an embodiment of the present utility model, with reference to accompanying drawing 1, desulfurization synergistic device comprises slurries spray module 1 and stock tank increase-volume division module 2, wherein, the inside of slurries sprays module 1 is provided with shower 3, and the inside of stock tank increase-volume division module 2 is provided with at least one for being the subregion barrier assembly of zoneofoxidation and uptake zone by slurry pool subregion.Between slurries spray module 1 and stock tank increase-volume division module 2, be communicated with by connecting pipe 9, particularly, one end of connecting pipe 9 is communicated with shower 3, the other end is communicated with the uptake zone of stock tank increase-volume division module 2 bottoms, and circulating pump is for pumping into shower 3 by connecting pipe 9 by the slurries of uptake zone.Wherein, subregion barrier assembly in stock tank increase-volume division module 2 can be for realizing the structure of sectoring function, by reducing the circulation area of slurries between the stock tank of subregion barrier assembly top and the stock tank of below, for example can on subregion barrier assembly, leave the gap for slurry flow, can dwindle the circulation area of slurries, realize the function of subregion.Wherein, shower can be set to one or more layers, and every layer of shower also can arrange one or more shower, specifically can adjust according to the different needs of reality.Wherein, circulating pump also can be set to one or more, and in the time that circulating pump is one, it is corresponding with all showers 3 in slurries sprays module, sprays to pumping into slurries in multiple showers simultaneously; When circulating pump is while being multiple, each circulating pump can be corresponding with every layer of shower, in the shower of every layer, pumps into slurries simultaneously, or the separately corresponding every shower of each circulating pump, and each circulating pump is controlled and pump into slurries in every shower separately.Preferably, circulating pump is preferentially selected centrifugal pump, the compact conformation of centrifugal pump, flow and range of lift are wide, and flow evenly, smooth running, vibration be little, do not need the basis of special damping.Meanwhile, the equipment installation and maintenance recondition expense of centrifugal pump is all lower.

Preferably, slurries spray module and stock tank increase-volume division module are respectively arranged with housing, the housing 1 of example slurries spray module as shown in Figure 1, and the housing 25 of stock tank increase-volume division module.The setting of housing can be convenient to manufacture desulfurization synergistic device as individuality independently, be carried, installation etc.Preferably, housing one and housing two can adopt metal and nonmetallic materials to make, and do not limit selecting of material.Preferably, the inwall of housing one and housing two can arrange line with rubber layer or glass flake layer, effectively avoids the corrosion of slurries to housing.

Preferably, the inside of slurries spray module is provided with one or more layers shower, and every layer of shower comprises one or more shower.In a specific embodiment, with reference to accompanying drawing 2, be provided with Multi-layer sprinkling pipe, and every layer of shower comprise many showers, and the axis of these many showers is in the same plane; In every layer of shower, adjacent shower intersects to misplace to be arranged, and the axis of adjacent shower β (Fig. 2) at angle, and this angle is 5 °-30 °, between adjacent shower, becomes the angle of one 5 °-30 °.Between adjacent shower, have angle, can effectively avoid in the time that the situation of Multi-layer sprinkling pipe is set, the slurries of upper strata shower spray directly spray on lower floor's pipeline, and lower floor's pipeline is caused to corrosion.

Preferably, shower is selected reducing pipe, can realize the reducing of pipeline, the user demand of different slurries amounts while meeting spray.Preferably, in the time using reducing pipe, the excursion of its caliber is 10mm-500mm, and the caliber of other number ranges also should be within protection domain of the present utility model.Preferably, the length of shower is the actual use of being more convenient between 5m-20m, but the length of other number ranges also should be within protection domain of the present utility model.Preferably, shower is made up of metal or nonmetallic materials, not selecting of limiting material.Preferably, the inner surface of shower arranges glass flake layer or other anticorrosive coats, can effectively avoid the corrosion of slurries to shower.

Preferably, an embodiment of the present utility model arranges atomizer on shower, the angle can be convenient to like this handle spray time, and then can effectively control spray scope.Preferably, in use, the spray angle of atomizer is generally made as 40 °-120 °, can realize and preferably spray scope, but the spray angle of other number ranges also should be within protection domain of the present utility model.Preferably, atomizer also can be made up of metal or nonmetallic materials, not selecting of limiting material.

In a preferred embodiment of the present utility model, with reference to accompanying drawing 1 and accompanying drawing 3, subregion barrier assembly in slurries increase-volume division module comprises multiple subregion division boards 6 and multiple subregion isolated tube 7 of be intervally arranged (also can be regarded as coupling arranges), wherein, between adjacent subregion division board and subregion isolated tube, leave the gap for slurry flow, the slurries of subregion barrier assembly top just can only flow in the slurry pool of subregion barrier assembly below by this gap like this.Because gap is less, when slurries are flowed through this gap from top to bottom, can produce Venturi effect, can effectively suppress the mixing of upper and lower slurries, realize the subregion of slurry pool, formation is beneficial to the zoneofoxidation of the top that oxidizing process carries out, and is conducive to the uptake zone of the below of absorption process, and the pH value of the two slurries is different.Except this programme, thus the mixing that can effectively suppress upper and lower slurries realize the subregion barrier assembly of other structures of sectoring function also should be within protection domain of the present utility model.

Preferably, above-described embodiment is carried out to refinement, with reference to accompanying drawing 3, accompanying drawing 4, accompanying drawing 5, accompanying drawing 6, subregion division board comprises plate body (position of semi-circular cross-section in Fig. 4) and is arranged on the fin 12 of plate body both sides, with reference to accompanying drawing 3, the length direction of plate body is the axis direction of subregion isolated tube, and the number of fin is multiple, and distributes along the length direction of plate body.The function that fin is set is, can further dwindle the gap that slurry stream is passed through in the time of subregion barrier assembly, is conducive to the subregion of slurry pool.The shape of fin can be various shape, for the ease of manufacturing and coincideing with other structures, fin can be with reference to being set to square structure (from depression angle in accompanying drawing 3 and accompanying drawing 6, the cross sectional shape of fin is rectangle), preferably, fin is arranged on the top of plate body, with reference to accompanying drawing 4 and accompanying drawing 5, the upper surface of fin 12 and the upper surface flush of plate body, the slurries that are conducive to above further suppressing flow down by gap.Meanwhile, plate body can be surface plate structure, but considers for the steadiness of structure, and plate body can be for having certain thickness structure, for example plate body structure in Fig. 4, and plate body is being far longer than the thickness of fin perpendicular to the thickness on its length direction.Further, plate body can be semicircle (with reference to Fig. 4) or other shapes such as rectangle or triangle at the cross sectional shape perpendicular on its length direction, preferably, the upper surface of plate body (towards the surface of the slurry pool of top zoneofoxidation) is plane.

Preferably, further above-described embodiment is carried out to refinement, with reference to accompanying drawing 8, subregion isolated tube 7 is at the nozzle arrangements along being provided with reverse-resistance type nozzle 8 or other on its axis direction and can playing reverse-resistance type function, reverse-resistance type nozzle is distributed in the one or both sides of subregion isolated tube, and arrange with fin interval, such structure can further be dwindled the circulation area that slurries flow through from top to bottom, for the subregion of slurry pool is further given security.Reverse-resistance type nozzle is in order to blast air in slurry pool, to be beneficial to the carrying out of oxidizing process.Preferably, because the structure of part reverse-resistance type nozzle is not easy to be set directly at the side of pipeline, simultaneously also for the further realization of sectoring function of the present utility model, side at subregion isolated tube is drawn side pipe, reverse-resistance type nozzle is arranged on to this side pipe place, is so not only convenient to arrange nozzle, the structure of while side pipe is easier to same fin than the structure of nozzle and carries out interval layout, dwindle further the circulation area of slurries, promote the realization of subregion.

Particularly, with reference to accompanying drawing 9 and accompanying drawing 10, in reverse-resistance type nozzle of the present utility model, nozzle is different from traditional arrangement of nozzles mode, and traditional nozzle adopts downward arrangement, needs supporting cloth agitating device simultaneously, the cutting that is used for bubbling, increases specific area and the time of staying of bubble.Nozzle of the present utility model adopts side direction type to arrange (preferably realizing by drawing side pipe), can increase like this nozzle perforate number of side pipe (referring to the orifice plate nozzle 11 in Fig. 9, plate is provided with multiple perforates), dwindle perforate aperture, the bubble diameter of generation is less; Simultaneously, Bubble formation position is between subregion passage (supplying slurries from the gap above flowing down), bubble dispersal direction (level) presents perpendicular cuts with slurries flow direction (vertically), after liquid phase cutting, bubble diameter further dwindles, and has increased mass transfer area, and bubble has certain mix and blend effect to slurries simultaneously, without the other supporting agitating device that arranges, save equipment investment.Further, the bubble that side direction nozzle produces has further suppressed the mixing of levels slurries, has realized better subregion in tower.Meanwhile, the air bubble that the fin of subregion division board also can blast reverse-resistance type nozzle effectively cuts, and has further strengthened the air utilization ratio of oxidation panel, has improved oxidation effectiveness.

Particularly, with reference to accompanying drawing 7 and accompanying drawing 9, reverse-resistance type air nozzle of the present utility model is orifice-plate type.Traditional perforate mode is perforate on main pipeline, in order to ensure the mechanical strength of pipeline, will consider the scale formation in oxidation pipeline simultaneously, generally opens a limited number of apertures in main pipeline bottom.The utility model, at main pipeline upper side edge skirt, has increased perforate number greatly, has dwindled perforate aperture simultaneously, and perforate number has on average increased more than 50 times, under the same terms, and the corresponding increase of the specific surface of the air passing into; Non-return lobe (the non-return lobe 10 in Figure 10) is installed simultaneously in side pipe, non-return lobe has ensured the one-way of side pipe, only allow air to flow to nozzle direction, in the time of stuffiness, check (non-return) valve cuts out automatically, can prevent that the fine particles such as gypsum from entering air supervisor by nozzle, can effectively reduce in supervisor scale formation occurs, extend the service life of air duct.Non-return lobe does not connect mutually, when stopping up appears in part side pipe, other side pipe is not affected, and system operation, without impact, has been increased to the stability of system operation.

Preferably, fin is uniformly distributed along plate body, and reverse-resistance type nozzle is uniformly distributed along subregion isolated tube, makes symmetrical configuration, is convenient to manufacture, and can suppresses equably the mixing of upper and lower slurries.

At one comparatively in preferred embodiment of the present utility model, desulfurization synergistic device comprises slurries spray module and stock tank increase-volume division module, wherein, slurries spray inside modules is provided with Multi-layer sprinkling pipe, and every layer of shower comprises many showers, wherein, stock tank increase-volume division module inside is provided with multiple for being the subregion barrier assembly of zoneofoxidation and uptake zone by slurry pool subregion, and in a row the arranging of multiple subregion barrier assemblies.Particularly, subregion barrier assembly comprises subregion division board and subregion isolated tube, and the two is intervally arranged, and subregion division board comprises plate body and is arranged on multiple fins of plate body both sides, the length direction of plate body is the axis direction of subregion isolated tube, and multiple fins are uniformly distributed along the length direction of plate body.Wherein, plate body is semicircle in the cross section perpendicular to its length direction, be that plate body is semicylinder, and in the time arranging, the plane of semicircle main body is the upper surface of plate body, fin is rectangle laminated structure, and is arranged on the top of plate body, the upper surface of fin and the upper surface flush of plate body (with reference to accompanying drawing 3 and accompanying drawing 4).Subregion isolated tube is being drawn many lateral canals along the both sides of its axis direction, is provided with reverse-resistance type nozzle (orifice-plate type structure) and non-return lobe in side pipe; In the both sides of subregion isolated tube, (coupled arrangement) arranged at side pipe and fin interval, is similar to the coupled arrangement of two row's dentalations of slide fastener; And between side pipe and fin, leave the gap of flowing through from top to down for slurries, the circulation area of greatly having dwindled slurries, has realized the subregion to slurry pool.And side pipe place has multiple holes, the bubble that the slurries that flow through from top to bottom bloat reverse-resistance type nozzle carries out the cutting of vertical direction, has further dwindled the particle diameter of bubble, and bubble also can play certain stirring action to slurries.Desulfurization synergistic device is also provided with connecting pipe and circulating pump, connecting pipe sprays module by slurries and is communicated with stock tank increase-volume division module, particularly, one end of connecting pipe is communicated with shower, the other end of connecting pipe is connected with the uptake zone of stock tank increase-volume division module, and circulating pump is pumped into the slurries of uptake zone in shower and sprays by connecting pipe.Particularly, circulating pump is multiple, and each circulating pump is corresponding with every shower respectively, and each circulating pump pumps into the slurries of uptake zone in every corresponding with it shower by connecting pipe.Preferably, in order to make the slurries of slurry pool mixedly more even, also can jet mixing device be further installed in the slurry pool of bottom, slurries are carried out to mix and blend.

Desulfurization synergistic device of the present utility model can directly apply to existing desulphurization plant, only need reequip existing equipment.Particularly, in an embodiment of the present utility model, desulfurization synergistic application of installation is comprised in the method for modifying of existing equipment: step 1, between the spraying layer of existing equipment and demister, cut, slurries are sprayed between the spraying layer and demister that module is placed in existing equipment; Step 2, cut slurry pool position at existing equipment, the slurry pool of existing equipment is divided into starching liquid pool and lower slurry pool, stock tank increase-volume division module is placed in to this location of cut, and between starching liquid pool and lower slurry pool (step 1 and step 2 do not limit enforcement order).Preferably, when mounted, the part of existing equipment is adopted to hydraulic lifting installation.Preferably, adopt girth member to reinforce the link position place of desulfurization synergistic device and existing equipment.

Particularly, existing desulphurization plant is mainly desulfurizing tower, in the time that slurries spray module is installed, position cutting by original tower body between spraying layer and demister, after cutting, slurries are sprayed to module and be placed in tower body cutting position, after placing, weld again the junction of slurries spray module and original tower body, and adopt bracing means to carry out second consolidation; While carrying out the installation of stock tank increase-volume division module, the position of original tower body stock tank is cut, after cutting, adopt hydraulic way to carry out jacking, top entirety after cutting is carried out to lifting, then stock tank increase-volume division module is inserted between top entirety and substructure, and carry out the layout installation of intrinsic control.After installation, the junction of stock tank increase-volume division module and original tower body is welded, and adopt girth member to carry out second consolidation; Finally, adopt connecting pipe that slurries are sprayed to module and be connected with stock tank increase-volume division module, so far, the whole installations of desulfurization synergistic device.

In concrete use, after desulfurization synergistic device is installed, original desulfurizing tower becomes Dan Ta two-region efficient desulfurizing tower (slurries increase-volume division module also divides original slurry pool for zoneofoxidation and uptake zone), and the spraying layer of slurries spray module and former desulfurizing tower forms novel high flux spraying layer; After the slurry pool increase-volume of stock tank increase-volume division module and former desulfurizing tower, form two-region slurry pool.

After the desulfurization synergistic device that uses the utility model to provide, can generally improve desulfuration efficiency.Specific embodiment is as follows:

(1) certain the 2 × 630MW of Utilities Electric Co., Ltd. units gas desulfurization device technique improvement project.One of newly-increased slurries spray module, the shower number of plies is 2, height 4.0m; One of newly-increased stock tank increase-volume division module, is highly 1.4m, supporting increase relevant device.

After desulphurization system transformation, in the time of unit oepration at full load, when entrance so2 concentration reaches 3000mg/m3, export clean smoke SO 2 concentration of emission in 50mg/m3, meet the requirement of design and national environmental protection new policy, desulfuration efficiency also meets 98.3% designing requirement.

(2) certain the 2 × 630MW of Utilities Electric Co., Ltd. units gas desulfurization device technique improvement project.One of newly-increased slurries spray module, the shower number of plies is 1, height 2.0m; One of newly-increased stock tank increase-volume division module, is highly 1.0m, supporting increase relevant device.

After desulphurization system transformation, in the time of unit oepration at full load, when entrance so2 concentration reaches 2794mg/m3, export clean smoke SO 2 concentration of emission in 50mg/m3, meet the requirement of design and national environmental protection new policy, desulfuration efficiency also meets 98.3% designing requirement.

In sum, the desulfurization synergistic device that the utility model provides can improve desulfuration efficiency effectively, and can not bring larger cost of investment.Reequip the desulphurization plant having after desulfurization synergistic device of the present utility model in the time of operation, slurries spray module has increased the slurries internal circulating load of existing equipment, internal circulating load margin of safety calculated value is more than 50%, be significantly higher than 30% conventional levels, internal circulating load has also just increased the liquid-gas ratio in absorption tower after increasing.Flue gas enters after desulfurizing tower, increases with the contact probability of slurries, and gas-liquid mass transfer surface area increases, and number of mass transfer unit also increases thereupon, and desulfuration efficiency significantly improves.

Desulphurization system is in service, upper strata slurries fall into stock tank, and in stock tank, the subregion barrier assembly of coupled arrangement, has effectively controlled the mixing of levels slurries, stock tank is divided into efficient oxidation district, upper strata and efficient absorption district of lower floor by success, changed the present situation of the homogeneous pH value of traditional stock tank.And the subregion barrier assembly of efficient coupling, the bubble that reverse-resistance type nozzle is produced effectively cuts, and has improved oxidation effectiveness; Slurries increase-volume division module has reasonably increased the slurry pool height in existing equipment simultaneously, has improved significantly the time of staying of slurries in absorption tower.

So far, spray module and slurries increase-volume division module by slurries, improved the desulfuration efficiency of original desulfurizing tower, the in the situation that of single tower and effective controlled investment cost, can meet new combustion machine discharge standard.

Claims (8)

1. a desulfurization synergistic device, is characterized in that, comprising:

Slurries spray module, its inside is provided with shower;

Stock tank increase-volume division module, its inside is provided with at least one for being the subregion barrier assembly of zoneofoxidation and uptake zone by slurry pool subregion;

Connecting pipe, its one end is communicated with described shower, and its other end is communicated with described uptake zone;

Circulating pump, it pumps into the slurries of described uptake zone in described shower by described connecting pipe.

2. desulfurization synergistic device according to claim 1, is characterized in that:

The inside of described slurries spray module is provided with at least one deck shower, and every layer of described shower comprises many showers, and the axis of these many showers is in the same plane;

In every layer of described shower, adjacent described shower intersects to misplace to be arranged, and the axis of adjacent described shower at angle, and this angle is 5 °-30 °.

3. desulfurization synergistic device according to claim 1, is characterized in that:

Described shower is reducing pipe;

And/or;

Described shower is made up of metal or nonmetallic materials;

And/or;

Described circulating pump is centrifugal pump.

4. desulfurization synergistic device according to claim 2, is characterized in that:

On every described shower, be provided with at least one atomizer,

The spray angle of described atomizer is 40 °-120 °, and/or described atomizer is made up of metal or nonmetallic materials.

5. according to the desulfurization synergistic device described in claim 1-4 any one, it is characterized in that:

Described subregion barrier assembly comprises the subregion division board and the subregion isolated tube that are intervally arranged, wherein, leaves the gap for slurry flow between adjacent described subregion division board and described subregion isolated tube.

6. desulfurization synergistic device according to claim 5, is characterized in that:

Described subregion division board comprises plate body and is arranged on the fin of these plate body both sides;

The length direction of described plate body is the axis direction of described subregion isolated tube;

The number of described fin is multiple, and distributes along the length direction of described plate body.

7. desulfurization synergistic device according to claim 6, is characterized in that:

Described subregion isolated tube is along being provided with reverse-resistance type nozzle on its axis direction, and this reverse-resistance type nozzle is distributed in the both sides of described subregion isolated tube;

In the both sides of described subregion isolated tube, described reverse-resistance type nozzle and described fin interval are arranged.

8. desulfurization synergistic device according to claim 7, is characterized in that:

Described fin is uniformly distributed along described plate body;

And/or;

Described reverse-resistance type nozzle is uniformly distributed along described subregion isolated tube;

And/or;

At the length direction perpendicular to described plate body, described plate body has semi-circular cross-section or square-section or triangular-section;

And/or;

Described reverse-resistance type nozzle is orifice plate nozzle, and described subregion isolated tube side is drawn side pipe, and described reverse-resistance type nozzle is arranged on this side pipe place, and described side pipe inside is provided with non-return lobe.