CN202173881U - Smoke baffling type absorption tower with double slurry ponds - Google Patents

Smoke baffling type absorption tower with double slurry ponds Download PDF

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Publication number
CN202173881U
CN202173881U CN2011202538330U CN201120253833U CN202173881U CN 202173881 U CN202173881 U CN 202173881U CN 2011202538330 U CN2011202538330 U CN 2011202538330U CN 201120253833 U CN201120253833 U CN 201120253833U CN 202173881 U CN202173881 U CN 202173881U
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China
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slurries
tower
slurry
pond
absorption
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CN2011202538330U
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卢作基
王文超
代旭东
于爱华
钟学进
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Nanjing No7425 Factory Of Zhongche Group
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Nanjing No7425 Factory Of Zhongche Group
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Abstract

The utility model relates to a smoke baffling type absorption tower with double slurry ponds. The smoke baffling type absorption tower with the double slurry ponds is characterized in that the interior of the absorption tower is divided by a baffle into an independent pre-washing region slurry pond and an absorption region slurry pond; correspondingly, an upper gas-liquid contact region is divided into a pre-washing region and an absorption region; a certain distance is kept between the baffle and the top of the tower; guidance blades are arranged at the top of the tower; an outlet smoke flue is internally provided with a demister; the PH (potential of hydrogen) value of slurry in the pre-washing region slurry pond is lower than that in the absorption region slurry pond; and a one-way conveying pipeline is arrange between the two slurry ponds for communication. In the utility model, due to the slurry ponds of different PH values and a baffling smoke path, a desulfurization system has strong SO2 buffering capability, the desulfurization efficiency does not fluctuate with the smoke flow and the change of SO2 load in the smoke, the utilization ratio of limestone is greatly increased, and the occurrence of gypsum rain phenomenon can be effectively avoided.

Description

The two absorption towers, slurries pond of flue gas baffling type
Technical field
The utility model relates to a kind of coal steam-electric plant smoke limestone-gypsum wet desulphurization (WFGD) absorption tower that is applicable to and is used for the equipment of segmentation control reaction, particularly relates to the two absorption towers, slurries pond of a kind of flue gas baffling type, belongs to the technical field of environmental protection equipment.
Background technology
The coming years China will to keep with the coal fired power generation unit be master's electric power energy structure situation, can cause the serious characteristics of air pollution, one of major pollutants are SO 2In the flue gas desulphurization field, most widely used technology is a limestone-gypsum wet process of FGD technology, and desulfuration efficiency can reach more than 95%.
In the limestone-gypsum wet fuel gas desulfurizing technology, the desulfurizing tower of employing is traditional countercurrent spray tower.This spray column is divided into three parts from the bottom up, is slurries pond, smoke absorption district successively and removes the fog-zone, in the smoke absorption district with remove between the fog-zone spraying layer is set.Wherein, the slurries pond is used to store desulfurizer slurry, and desulfurizer slurry is by lime stone, and part of sulfuric acid calcium and calcium sulfite are formed; Flue gas contacts with the desulfurization slurry gas-liquid in the smoke absorption district, accomplishes gas-liquid mass transfer; Thereby flue gas is removed entrapped moisture and is become clean flue gas and discharge desulfurizing tower removing the fog-zone.Sweetening process is that slurry circulating pump extracts the desulfurization slurry in the desulfurizing tower slurries pond to the shower of top, smoke absorption district; Slurries spray after by nozzle atomization; (no GGH:110 ℃~150 ℃ of the former flue gas of high temperature that gets into the bottom, uptake zone; Have GGH:80 ℃~90 ℃) the one-tenth counter current contacting, SO in the former flue gas 2Be dissolved in the sprayed slurry; The SO of liquid phase in the slurries pond 2CaCO with dissolving 3Serial reaction takes place generate CaSO 3, the air oxidation that airduct blasts is the CaSO of dissolving down 3Generate CaSO 4After the atomization slurry counter current contacting of spraying layer, flue gas is carried more slurries drop secretly, and remove most drop separation through demister in the tower this moment, and flue gas after being purified is discharged from the tower top outlet flue.In said process, flue gas desulfurization is through SO 2Absorption and oxidation embody, be embodied in three key reaction processes that take place in the slurries, be respectively lime stone solubilizing reaction, SO 2Absorption reaction, CaSO 3Generation and oxidation reaction.Wherein, SO 2Absorption reaction occur in the uptake zone, flue gas is accomplished the process of gas-liquid mass transfer with the atomizing desulfurization slurry in counter current contacting; Lime stone solubilizing reaction and CaSO 3Generation and oxidation reaction then occur in the slurries pond of below, uptake zone.More than in three extents of reaction and the tower pH value environment of slurries substantial connection is arranged, so the control of reaction condition directly has influence on the carrying out of whole desulphurization reaction.But at present thorny also is in the control of reaction condition.Reason is: this three types of reaction pair slurries pH environmental requirement is not quite similar, even conditions each other.High pH environment such as slurries helps SO 2Absorption, when the pH value reached 6, slurries were to SO 2Assimilation effect best; But the low pH environment of slurries helps lime stone dissolving and CaSO 3Oxidation, when slurry pH value was lower than 3.5, oxidation rate and rate of dissolution were high, but this moment slurries to SO 2Absorption but very the difficulty.
There is following defective in traditional countercurrent spray tower: 1. the setting in single slurries pond certainly will cause the compromise of slurry pH value to be chosen, and the compacting slurries are to SO 2Absorbability, promptly choosing of pH value is the dissolving and the CaSO of lime stone from improve slurries 3Oxidation set out, sacrificed slurries to a certain extent to SO 2Maximum absorbance capacity, system's desulphurizing ability is restricted; 2. in tower under the limited situation of flue gas flow rate, the slurries amount that the pure counter current contacting mode of gas-liquid causes flue gas to carry is more, flue gas takes place easily carry a large amount of slurries secretly and discharge chimneys and cause " gypsum rain " phenomenon.
In order to ensure the high desulfurization efficiency of desulphurization system, the general measures such as quantity of adopting increase liquid-gas ratio, increase spraying layer, but also derive a series of problem: the increase of liquid-gas ratio; Make in the flue gas of gas-liquid contact back and carry the increase of slurries amount secretly; " gypsum rain " phenomenon more is prone to take place, and slurries pool volume and the also corresponding increase of slurries internal circulating load simultaneously causes circulating pump and oxidation fan power consumption to increase; The increase of the spray number of plies can cause the lifting of absorption tower height; Finally cause the cost and the desulfurization power consumption of desulfurizer to increase, operating cost increases, and this gives heavy the operation burden and the financial burden of bringing of power plant.In addition, along with China's energy supply in recent years goes wrong, a lot of power plant uncontrollable coal source, coal-fired inferior quality, the coal sulfur content is higher, and the coal elemental composition that causes boiler of power plant to use alters a great deal, the SO in the flue gas 2Can produce very great fluctuation process, desulfurizer even need overload operation to handle high-sulphur flue gas, its desulphurizing ability can be had a greatly reduced quality.Therefore, seek a kind of to SO 2Load variations adaptability is strong, desulfuration efficiency is high and there do not have pure adverse current in the tower to cause flue gas to carry the desulfuration absorbing tower of " gypsum rain " phenomenon of slurries in a large number secretly to be very necessary and significant.
The utility model content
It is a kind of to desulphurization system SO that the utility model technical problem to be solved is to provide 2The adaptability of load variations is strong, can keep higher desulfurizing agent utilization rate and desulfuration efficiency, effectively avoid the flue gas baffling type pair absorption towers, slurries pond of " gypsum rain " phenomenon.
The technical scheme that the utility model adopted is following:
The two absorption towers, slurries pond of flue gas baffling type; Comprise slurries zone, absorption region, demist zone and import and export flue; Be divided into slurries pond, pre-wash district and slurries pond, uptake zone in the slurries zone by the tower Internal baffle, wherein slurry pH value is lower than slurry pH value in the slurries pond, uptake zone in the slurries pond, pre-wash district; The absorption region is divided into pre-wash district and uptake zone by baffle plate, and wherein baffle plate and top, absorption tower are reserved with certain distance; Inlet flue duct is arranged on the sidewall in pre-wash district, and exhaust pass is arranged on the uptake zone sidewall, and wherein demister is arranged in the exhaust pass;
The two absorption towers, slurries pond of described flue gas baffling type is characterized in that slurry pH value is 3.5~4.8 in the slurries pond, described pre-wash district, and slurry pH value is 5.8~6.3 in the slurries pond, uptake zone;
The two absorption towers, slurries pond of described flue gas baffling type; It is characterized in that slurries pond, said pre-wash district with slurries pond, uptake zone in unidirectional slurries conveyance conduit is set; Pipe outlet is arranged on top, slurries pond, pre-wash district in the tower, and conduit entrance is communicated with slurries pond, uptake zone.
Use above technical scheme, the entrance and exit flue all keeps certain angle of inclination with tower body, prevents that smoke backflow causes slurries to pour in down a chimney in the flue in the tower.After flue gas gets into the prewashing district; Bottom-up mobile through the spray zone; Carry out counter current contacting with the desulfurization absorbent of downward spray; One or more layers spraying layer (quantity of spraying layer is decided based on concrete condition) is set in this district, every layer of corresponding slurry circulating pump of spray, slurry circulating pump is got to spraying layer with the bottom slurries in slurries pond, pre-wash district.In this zone, tentatively remove SO 2In time, can be reduced flue-gas temperature and made its cigarette temperature that reaches capacity fast, simultaneously can be with the HF in the flue gas, HCL flush away in the lump.The main CaSO that accomplishes in pre-wash slurries pond 3Complete oxidation and CaSO 4Generation, the pH value of these district's slurries generally is controlled at about 4.5.
Behind pre-wash district spraying layer, flue gas from the bottom up is through the water conservancy diversion of the guide vane of cat head passage area setting, and the upset of flue gas baffling gets into the uptake zone downwards, and the flue gas that flows downward is following current with the atomization slurry of the injection of spraying layer and contacts.Be about in the pH value under 6 the situation, owing to contain excessive CaCO in the slurries pond, uptake zone 3, the buffer capacity of slurries is big, the SO in the flue gas 2The atomization slurry that almost can all be sprayed by spraying layer absorbs and removes, and the sort buffer effect is controlled in the stable optimal pH scope system automatically, not with flue gas flow and SO 2The load variation and fluctuate.
The flue gas that flows downward through the uptake zone spraying layer after, liquidate with the liquid level in slurries pond, below, the flue gas behind the baffling gets into exhaust pass.Because flue gas is the baffling path of " Ω " shape in tower; Flue gas through the adverse current gas-liquid contact in pre-wash district with after the following current gas-liquid of uptake zone contacts; Its entrained slurries drop decreases than the pure countercurrent spray gas-liquid way of contact of traditional spray column; Especially because exhaust pass is arranged on the middle part, absorption tower; Flue outlet is tilted to layout, and the flue gas that flows downward in the uptake zone can get into exhaust pass with the below stock tank liquid level baffling that liquidates, and the slurries drop that carries in the flue gas is the slurries pond in most of direct entering tower under the effect of gravity and inertia force; Another part is then removed by the demister in the tower outer vent flue, and final clean flue gas is discharged through chimney.
In the exhaust pass at middle part, absorption tower, the two-stage demister is set, is equipped with wash tub pipe and nozzle, regularly it is washed, stop up to avoid demister.The mode that demister is set with the tower on traditional absorption tower top is compared, and demister has following advantage in the exhaust pass at tower middle part, and the one, flue gas has got rid of through baffling and has taken off a part of slurries drop before getting into exhaust pass, reduces the demister operating load; The 2nd, demister is arranged in the exhaust pass, and the gas speed of removing front and back, fog-zone flue gas is even, and demister efficient is not affected, and can effectively avoid the generation because of flue gas flow and unbalanced " the gypsum rain " that causes of velocity flow profile; The 3rd, the reduction of the layout height of outlet demister more helps daily equipment operation maintenance and maintenance.
Through tower unidirectional slurries conveyance conduit is set outward, quantitative the replenishing of the upper strata slurries in slurries pond, uptake zone is delivered in the pre-wash district slurries.
The number of plies of the spraying layer in pre-wash district and the uptake zone can design according to actual needs, and different spraying layers is equipped with the circulating pump of different size.The oxidizing condition in slurries pond, pre-wash district is better, can adopt conventional mode of oxidizing and side-feeding type agitating device in this pond, and slurries pond, uptake zone volume is bigger, selects the agitator of big blade for use, need not to be provided with oxidation unit.
In a word; The utility model is divided into independently slurries pond, pre-wash district (promptly low pH value slurries Chi Qu with tower entoplasm liquid pool; The pH value is generally about 4.5) and slurries pond, uptake zone (be high pH value slurries Chi Qu, the pH value is generally about 6), the bubbling area in the absorption tower is divided into pre-wash district and uptake zone; Two zones are partly isolated by the tower Internal baffle, and the top is communicated with.In the velocity interval of a suitable gas-liquid turbulent flow contact of velocity of flue gas control, flue gas path in tower is " Ω " shape, and demister is arranged in the exhaust pass.
The utility model beneficial effect is:
1. in tower in the different pH environment, SO 2Absorption and oxidation reaction can both under the electrochemical conditions of the best, carry out, slurries can be accomplished SO 2Big capacity absorb and CaSO 4Complete oxidation generate.In the slurries pond of uptake zone, because slurries are in high pH value, have very strong buffer capacity, can effectively guarantee the highest SO 2Even removal efficiency is SO 2The fluctuation that marked change can not cause desulfurization degree yet takes place in load.In slurries pond, pre-wash district, the low pH value of slurries then helps the dissolving and the CaSO of lime stone 3Oxidation helps improving the purity of lime stone utilization rate and gypsum.
2. slurries pond in uptake zone is moved under high pH value, when same desulfurization degree, than the conventional counter-current spray column; Required liquid-gas ratio is less; Reduced the quantity and the spraying layer quantity of slurry circulating pump, because the absorption tower height reduces, the required pressure head of circulating pump diminishes simultaneously.And in slurries pond, pre-wash district, the oxidizing condition that gypsum generates the district is good, can effectively reduce the liquid level in pre-wash slurries pond and the pressure head of oxidation fan.
3. bubbling area is set to pre-wash district and uptake zone in the absorption tower; Flue gas is adverse current with desulfurizer slurry successively and contacts with following current; " Ω " shape path in flue gas path is more conducive to the wash-out of sulfur dioxide in flue gas and separating of slurries drop in the tower, effectively avoids " gypsum rain " phenomenon to take place.
Therefore, adopt this kind desulfurizing tower, not only can adapt to power plant desulfurization demand now, can also effectively reduce the construction costs and the operating cost of desulphurization system.
Description of drawings
Fig. 1 is the device sketch map of the utility model.Wherein: the unidirectional slurries conveyance conduit of slurry circulating pump, 17-in 1-circulating pump, 2-pre-wash district slurries pond agitator, 3-oxidation unit, slurries pond, 4-pre-wash district, 5-inlet flue duct, 6-flue gas pre-wash district, 7-pre-wash district spraying layer, 8-tower body baffle plate, 9-cat head guide vane, 10-smoke absorption district spraying layer, 11-uptake zone, 12-absorption tower exhaust pass, 13-demister, slurries pond, 14-uptake zone, 15-agitator, slurries pond, 16-uptake zone.
The specific embodiment
Below in conjunction with accompanying drawing and embodiment the utility model is elaborated:
As shown in Figure 1, the two absorption towers, slurries pond of a kind of flue gas baffling type comprise slurries pond, pre-wash district 4, pre-wash district 6, uptake zone 11, slurries pond, uptake zone 14; Scrubbing section slurries pond 4 separates through tower body baffle plate 8 with pre-wash district 6 with slurries pond, uptake zone 14, scrubbing section slurries pond 4, and dividing plate and top, absorption tower are reserved with certain distance, arrange guide vane at cat head.The top of pre-wash district 6, uptake zone 11 is provided with spraying layer 7,10 respectively; The quantity of spraying layer is confirmed according to actual conditions; Between spraying layer 7,10 and slurries pond, pre-wash district 4, the slurries pond, uptake zone 14 pipeline is set, circulating pump 1,16 is installed on the pipeline, be convenient to slurries are delivered to spraying layer.The side in pre-wash district 6 is provided with inlet flue duct 5, and the liquid level top of uptake zone 11 is provided with exhaust pass 12, and two-stage demister 13 is set in exhaust pass 12.Every grade of demister is equipped with wash tub pipe and nozzle, regularly it is washed, and stops up downward-sloping 10 ° of the bottom of inlet flue duct 5 and exhaust pass 12 to avoid demister, prevents that smoke backflow causes slurries to pour in down a chimney in the flue in the tower.Two flues form an integral body by the cylindrical edge welding.The liquid level in slurries pond, pre-wash district 4 is more lower slightly than slurries pond, uptake zone 14 liquid levels; On the dividing plate 8 breach is set; Conveyance conduit 17 is installed on the breach; The unidirectional slurries conveyance conduit 17 that passes through of slurries replenishes in the slurries pond 4, pre-wash district, at regular time and quantity the low pH value slurries in the upper strata in slurries pond, uptake zone 14 is supplemented in the slurries pond, pre-wash district 4 by it.
During use; Flue gas gets into pre-wash district 6 by inlet flue duct 5, through behind the spraying layer 7, behind guide vane 9 adjustment airflow directions; The upset of flue gas baffling gets into uptake zone 11 downwards; After passing spraying layer 10 vertically downward, get into exhaust pass 12, remove the slurries drop that carries in the flue gas by demister 13 with slurries pond, uptake zone 14 liquid level generation convection current collision back baffling.
Desulfurization project with a 600MW is an example, and the desulphurization system tower body of two slurries pond desulfurizing tower of conventional counter-current spray column and the utility model is carried out detailed comparative illustration, and table 1 is listed different absorption towers appearance and size and device parameter.
The flue gas state parameter of the 600MW of this power plant boiler is following:
Absorption tower inlet flue gas flow: 2140000Nm 3/ h (wetting)
Absorption tower entrance flue gas temperature: 126 ℃
Absorption tower inlet flue gas SO 2Content: 6300mg/Nm 3(6%O 2, do)
The different tower body appearance and sizes of table 1 (a)
? Tower height/m Diameter/m Liquid level/m Liquid-gas ratio Gas approach/m Exhaust pass/m
The conventional counter-current spray column 38.93 18.5 9.8 17 4.36×13 5.68×10.5
The two absorption towers, slurries pond of flue gas baffling type 29.5 21.5 7/8 14 4×14.17 4.5×13.25
The different tower body relevant device of table 1 (b) parameter
Figure 2011202538330100002DEST_PATH_IMAGE001
Remarks: the flue gas baffling type is provided with 3 layers of spraying layer in two absorption towers, slurries pond altogether, and the pre-wash district is provided with one deck, and the uptake zone is provided with two-layer.
Can obviously see through this example contrast, when adopting the absorption tower of the utility model, in the functional areas of different pH values, can effectively accomplish the absorption and the oxidation reaction of sulfur dioxide; Liquid-gas ratio reduces, and the minimizing of spraying layer quantity and the layout of exhaust pass all make the total height on absorption tower descend; And flue gas is " Ω " shape in the path of this tower; Gas residence time in the tower prolongs, and the gas-liquid contact is more abundant, reacts more thorough; The more traditional desulphurization system of this desulphurization system power consumption is on the low side, and the construction costs of desulfurizer also has corresponding reduction.
The above-mentioned specific embodiment does not limit the technical scheme of the utility model in any form, and every employing is equal to the protection domain that replacement or the technical scheme that mode obtained of equivalent transformation all drop on the utility model.

Claims (2)

1. two absorption towers, slurries pond of flue gas baffling type; Comprise slurries zone, absorption region, demist zone and import and export flue; It is characterized in that the slurries zone is divided into slurries pond, pre-wash district and slurries pond, uptake zone by the tower Internal baffle, wherein slurry pH value is lower than slurry pH value in the slurries pond, uptake zone in the slurries pond, pre-wash district; The absorption region is divided into pre-wash district and uptake zone by baffle plate, and wherein baffle plate and top, absorption tower are reserved with certain distance; Inlet flue duct is arranged on the sidewall in pre-wash district, and exhaust pass is arranged on the uptake zone sidewall, and wherein demister is arranged in the exhaust pass.
2. the two absorption towers, slurries pond of flue gas baffling type according to claim 1; It is characterized in that slurries pond, said pre-wash district with slurries pond, uptake zone in unidirectional slurries conveyance conduit is set; Pipe outlet is arranged on top, slurries pond, pre-wash district in the tower, and conduit entrance is communicated with slurries pond, uptake zone.
CN2011202538330U 2011-07-19 2011-07-19 Smoke baffling type absorption tower with double slurry ponds Expired - Fee Related CN202173881U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102350198A (en) * 2011-07-19 2012-02-15 中环(中国)工程有限公司 Flue gas baffling double-slurry pool absorbing tower
CN105107363A (en) * 2015-08-21 2015-12-02 武汉龙净环保工程有限公司 Two-level turn-back type desulfurizing absorption tower and desulfurizing absorption method thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102350198A (en) * 2011-07-19 2012-02-15 中环(中国)工程有限公司 Flue gas baffling double-slurry pool absorbing tower
CN105107363A (en) * 2015-08-21 2015-12-02 武汉龙净环保工程有限公司 Two-level turn-back type desulfurizing absorption tower and desulfurizing absorption method thereof

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Granted publication date: 20120328

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