法国专利FR3038525A1 DEVICE FOR PURIFYING SMOKE, INTEGRATING FILTER AND CATALYST

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专利摘要:
This device (10) comprises a flue gas chamber (16), inside which are integrated at the same time a filter (12), which has vertical filtering sleeves (18), and a structured catalyst (14). in channels, the fumes to be purified (1) through the sleeves and the catalyst. So that this purification device is compact, economical, practical and efficient, the catalyst is placed above the outlet of the sleeves and is separated from a vertical distance (d) of between 2.5 and 6 times the diameter hydraulic sleeves, the catalyst channels having a hydraulic diameter of less than 6 mm.
公开号:FR3038525A1
申请号:FR1556465
申请日:2015-07-08
公开日:2017-01-13
发明作者:Charles Derro；Bernard Siret；Frank Tabaries
申请人:LAB SA；
IPC主号:

专利说明:

Smoke purification device, incorporating a filter and a catalyst
The present invention relates to a device for purifying fumes.
Combustion processes, whether from fossil fuels or waste, generate fumes that are loaded with harmful components, among which are fine particles, acid gases such as SO2 and HCl, and nitrogen oxides. The capture of acid gases is usually done by wet scrubbers, or by reacting acid gases with a neutralizer such as lime, the formed products being collected downstream by a bag filter or an electrostatic precipitator. Nitrogen oxides are usually destroyed either in the combustion zone itself, in non-catalytic processes commonly referred to as SNCR (Selective Non Catalytic Reduction), or by reacting these oxides of nitrogen, on a catalyst, with a suitable reagent, such as ammonia or urea, in the context of catalytic denitrification processes, commonly referred to as SCR (Selective Catalytic Reduction).
Traditionally, the elimination of acid pollutants and the destruction of catalytic nitrogen oxides are respectively carried out in two physically separate units, for example a bag filter followed by a catalytic reactor, or a catalytic reactor followed by a catalytic reactor. washer.
That said, it has already been proposed to combine in a single entity the removal of acid pollutants and the destruction of nitrogen oxides catalytically. The best known solution is to use catalytic filtering sleeves: a catalyst is either impregnated on the sleeve or inserted into the sleeve. US 2002/0041841, WO 2014/131864, WO 2007/04564 and WO 2006/103040 provide examples thereof. These solutions based on catalytic filtering sleeves are commercially available but suffer from several disadvantages. First, they are particularly expensive. Then, the thickness traversed by the fumes is low, and therefore the contact time is very low, which limits the catalytic conversion and forces to work at relatively high temperatures, typically of the order of 200 ° C or more when you want to destroy dioxins. Finally, when the catalyst is poisoned, it is necessary to change the entire catalyst and the sleeve containing the latter.
For its part, DE 195 19 233 proposed to place small blocks of catalyst honeycomb inside the outlet of the filter sleeves. This solution also suffers from disadvantages. Indeed, because of its presence, the catalyst gene sent air under pressure in the outlet of the sleeves to unclog the latter. In addition, the cumulative volume of the small catalyst blocks is limited, the volume available inside the outputs of the sleeves being reduced. In addition, the packaging and placement of the small catalyst blocks can be tedious and expensive.
The object of the present invention is to provide a device for purifying fumes which, while combining the functions of destruction of nitrogen oxides catalytically and elimination of acid pollutants, is both compact, economical, practical and powerful. For this purpose, the subject of the invention is a device for purifying fumes, comprising a fume circulation chamber, inside which are integrated at the same time a filter, which has vertical filtering sleeves, and a catalyst. structured into channels, the fumes to be purified through the filter sleeves and the catalyst. The catalyst is placed above the outlet of the sleeves and separated from it by a vertical distance of between 2.5 and 6 times the hydraulic diameter of the sleeves, the catalyst channels having a hydraulic diameter of less than 6 mm. The invention provides an integrated device, in the sense that, in the same box commonly called casing in the field, the fumes to be purified are first filtered, through sleeves, then denitrified through a structured catalyst, it being understood that upstream of the device, a denitrification reagent was introduced into these fumes. The integrated device according to the invention combines performance and compactness by arranging the structured catalyst just downstream and above the sleeves: on the one hand, by vertically separating the catalyst from the outputs of the sleeves by at least 2.5 times the hydraulic diameter of these sleeves, the fumes exiting the sleeves are allowed to redistribute homogeneously before they enter the catalyst channels and, secondly, by placing the catalyst at less than 6 times the hydraulic diameter sleeves, it limits the total size of the casing and is sent to the catalyst fumes that are known to be "not harmful" for the catalyst, that is to say fumes whose dust and acid pollutants have just been captured by the sleeves, which allows to use without risk of clogging or premature deactivation a catalyst whose channels are small characteristic dimension, namely whose channels have a hydraulic diameter less than 6 mm. In addition, the device according to the invention does not require expensive or complex arrangements and even allows, inside the casing, to interpose between the sleeves and the catalyst means for unclogging the sleeves by blowing. Other advantages and interests of the invention will furthermore be explained later.
Following additional advantageous features of the device according to the invention, taken separately or in any technically possible combinations: - the catalyst is distributed in lockers, which are removable vertically relative to the box and, inside the box, are contiguous horizontally to each other, being arranged in several rows succeeding in a horizontal direction, each bin being equipped with moving means in said horizontal direction relative to the box; the displacement means comprise rolling elements, such as rollers; the displacement means cooperate with guides, such as rails integral with the box, which extend in said horizontal direction; the effective surface of the catalyst is between four and sixteen times the filtration area of the sleeves; the effective surface of the catalyst is between five and twelve times the filtration area of the sleeves; - The device further comprises blowing means, which are interposed between the outlet of the filter sleeve and the inlet of the catalyst channels and which sends air under pressure to the outlet of the sleeves; the blowing means also send air under pressure to the inlet of the catalyst channels. The invention will be better understood on reading the description which follows, given solely by way of example and with reference to the drawings, in which: FIG. 1 is a diagrammatic section of a device for purifying fumes according to the invention; - Figure 2 is a partial schematic perspective along the arrow II of Figure 1; FIG. 3 is a view similar to FIG. 2, illustrating a different configuration of use of the purification device; FIG. 4 is a diagrammatic section along plane IV of FIG. 2; and - Figure 5 is a schematic section along the line V-V of Figure 1.
FIGS. 1 to 5 show a device 10 for purifying fumes. This device mainly comprises a filter 12 and a catalyst 14, which are integrated inside the same box 16 commonly called casing in the field. In use, the box 16 extends substantially vertically, following the description of the device 10 being oriented correspondingly.
The filter 12 is arranged in the lower part of the casing 16. This filter 12 comprises filtering sleeves 18 arranged vertically inside the casing 16. In FIG. 1, only some of the sleeves 18 are shown, their total number n ' being not limiting of the invention. Each sleeve 18, which is known per se, has a vertical length of between 3 and 10 meters and is supported at its upper open end by a cage, not shown in detail in the figures. The section of each handle 18 is generally circular in profile with a diameter of 100 to 300 mm, although other geometries may be employed. The cages supporting the sleeves 18 rest on a plate with holes 20 at the horizontal level of which are thus located the respective outputs of these sleeves.
The catalyst 14 is arranged in the upper part of the caisson 16, being situated above the filtering sleeves 18. The catalyst 14 is known as such and relates to catalysts conventionally used in the catalytic denitrification processes, in other words the SCR processes. More specifically, the catalyst 14 is structured in channels whose entry is turned down, facing the outlet of the sleeves 18. The profile of the channel section of the catalyst 14 is not limiting of the invention.
In use, fumes to be purified 1 are sent to the base of the box 16, as shown schematically in Figure 1. Upstream of the device 10, the fumes 1 are mixed with a denitrification reagent, such as ammonia , being noted that the means for introducing this reagent into the fumes is known per se and that this introduction of the reagent is not shown in the figures. Inside the casing 16, the fumes 1 pass through the sleeves 18, and the filter cake which is gradually formed on the outer surface of these sleeves. The fumes 2 reaching the inside of the sleeves 18 are thus rid of their dust and their acidic pollutants, such as SO2 and HCl. These fumes 2 travel upwards inside the sleeves 18, until they exit via the upper outlet of these sleeves, to reach the free volume V16 formed inside the casing 16, vertically between the sleeves 18 and the catalyst 14, more precisely between the outlet of these sleeves and the inlet of the catalyst channels. This free volume has a vertical dimension d which corresponds to the vertical distance separating the outlet of the sleeves 18 and the inlet of the channels of the catalyst 14: according to one characteristic of the invention, this vertical distance d is between 2.5 and 6 times the hydraulic diameter of the sleeve 18, this hydraulic diameter, which is well known in the field, being defined as the ratio between four times the section of the sleeve and the perimeter of the sleeve. Still inside the casing 16, the fumes 2 then pass through the catalyst 14, the fumes 3 leaving the latter being thus freed of their nitrogen oxides by catalytic reduction, known as such. These purified fumes 3 are then removed from the device 10 by conventional means, not shown in the figures.
It should be understood that the vertical dimensioning of the free volume V16 formed inside the casing 16 between the filtering sleeves 18 and the catalyst 14 has several advantages. Thus, by providing that the distance d is at least 2.5 times the hydraulic diameter of the sleeves 18, the fumes 2 leaving these sleeves can redistribute homogeneously before entering the channels of the catalyst 14, which is appreciable because, in practice, the outlet ports of the sleeves 18 together have a smaller total section than the inlet ports of the channels of the catalyst 14. In addition, as explained above, the fumes 2 sent from the filter 12 to Catalyst 14 was cleared by the sleeves 18 of their acid pollutants, dust and other solids that the fumes 1 carried: as these fumes 2 circulate, inside the box 16, directly from the exit of the sleeves 18 to the At the inlet of the catalyst channels 14, their fouling effect of the catalyst is controlled to a very low value, so that, without the risk of accelerated or premature fouling, the catalyst channels 14 are chosen with a small characteristic dimension, namely with a hydraulic diameter of less than 6 mm, to enhance the denitrification performance. In other words, by integrating the catalyst 14 just downstream of the sleeves 18 inside the same flue chamber 16, the sleeves protect the catalyst by retaining the dust, acid gases and other potential poisons contained in the fumes. to purify 1, which allows to select for the structured catalyst 14 of the small aperture channels and ensure a particularly important longevity, for example six years. Moreover, the total vertical dimension of the box 16 remains controlled by providing that the distance d is less than 6 times the hydraulic diameter of the sleeves 18.
In the continuation of the foregoing considerations, the volume of catalyst required for a given denitrification efficiency can be reduced by providing that the effective surface of the catalyst 14, obtained by multiplying its specific surface area by its volume, is advantageously between 4 and 16 times the filtering surface of the sleeves 18, preferably even between 5 and 12 times this filtration surface. In practice, because of the protection of the catalyst 14 by the sleeves 18 against premature fouling, the specific surface of the catalyst 14 may be large, preferably between 800 and 1500 m2 / m3.
One of the other advantages provided by the invention is related to the fact that, during the start-up or restart of the device 10, to prevent humid fumes circulating in the casing 16 on the sleeves 18 still cold, preheating, for example with the aid of a heating battery, dry air which circulates first in the box, before admitting the fumes to be purified. The temperature of this dry air is typically between 130 and 250 ° C. By using a temperature above 200 ° C., the hot air which also passes through the catalyst 14 of the device 10 before leaving the latter at least partially regenerates this catalyst, by revolatilizing the volatile salts, such as ammonium hydrogen sulphate. , which tend to clog the pores of the catalyst. Thus, at each stop / restart of the device 10, a partial regeneration of the catalyst 14 is operated, which further increases its longevity.
Furthermore, since the deactivation of the catalyst 14 is unavoidable and where the replacement of the sleeves 18 must be practically feasible, the device 10 is advantageously designed to allow easy replacement. To this end, the catalyst 14 is distributed in bins 22, as shown in Figures 2 to 4. In use, the bins 22 are contiguous horizontally to each other inside the box 16. It will be noted that the provision of Such bins filled with catalyst is known as such, its interest being that, as shown in Figure 2, each bin 22 is removable vertically from the other bins and the box 16 receiving these bins, so that at With the help of appropriate lifting means, each of the bins 22 can be extracted upwards from the box 16 previously opened at its top, as indicated by the arrow F1 for one of the bins 22 in FIG. In practice, as clearly visible in FIGS. 2 to 4, the bins 22 are, inside the box 16, arranged in several horizontal rows, the bins of one and the same row succeeding each other in a horizontal direction denoted Y in the figure. 2 while the respective rows of bins follow each other in a horizontal direction, denoted X in FIG. 2, perpendicular to the horizontal direction Y.
According to an optional advantageous feature of the invention, the bins 22 containing the catalyst 14 are designed to move, in particular by rolling, in the horizontal direction X with respect to the casing 16. According to a practical embodiment, which is illustrated on FIG. FIGS. 2 to 4, each rack 22 is equipped, at the bottom, with rollers 24 which are engaged in guide rails 26, integral with the box 16 and extending in the horizontal direction X: while rolling on the rails 16, the rollers 24 make it possible to translate the rack 22 in the horizontal direction X. Of course, the embodiment of the rollers 24 and rails 26 is not limiting of the invention, it being understood that other rolling elements than the rollers 24 are conceivable, such as rollers, rollers, etc., the rails 26 being adapted accordingly as guides for these rolling elements. In all cases, in addition to allowing the displacement of the bins 22 in the horizontal direction X inside the box 16, these rolling elements and these guides allow each rack 22 to be easily extracted vertically upward by compared to this box.
Note that when all the bins 22 of the device 10 are in place inside the box 16, the mobility of the bins 22 in the horizontal direction X is neutralized because the bins 22, located at the periphery of the set of bins, abut horizontally against the inner wall of the box 16, as can be understood by observing Figure 2. However, after opening the top of the box 16 and then extracting one of the rows of bins 22, by lifting to the top of the bins of this row, as shown for example in Figure 3, the bins of the other rows are easily movable in the horizontal direction X inside the box 16 as indicated by the arrows F2 in Figure 3, rolling of their wheels 24 in the rails 26. In this way, access to the filtering sleeve 18 is greatly facilitated, for example for the control and / or replacement of these sleeves: indeed, after to have only extracted one of the rows of lockers 22 out of the box 16, the access to the sleeves 18 arranged vertically below this row is immediate, while to access the other sleeves 18, it is sufficient to move exclusively to the horizontally the other bins 22, typically by pushing them by hand, in any case without the need to resort to lifting devices. Of course, once the intervention on the sleeves 18 is completed, as many catalyst bins that had been extracted out of the box 16 are introduced inside this box, to fill the missing row. The casing 16 can then be closed. By way of non-limiting example, the box 16 has a section with a square profile of 3500 mm side. Forty-nine bins 22, 500 by 500 by 500 mm, are installed in seven rows of seven bins. To access the sleeves 18, one of the seven rows is extracted, which frees a free space of 500 mm by 3500 mm, allowing direct access to a few rows of 18 underlying sleeves, the other rows of sleeves being accessible after having moved in the horizontal direction X the lockers 22 overhanging them.
According to another advantageous arrangement, the device 10 comprises means 28 for blowing air under pressure. As shown diagrammatically in FIG. 1, these blowing means 28 are arranged in the free volume V16 of the box 16, being interposed between the filter 12 and the catalyst 14, more precisely between the outlet of the sleeves 18 and the inlet of the channels catalyst 14.
The primary function of the blowing means 20 is to unclog the sleeves 18, by sending air under pressure to the outlet of the sleeves 18, the corresponding air jets being indicated by the arrows J1 in FIG. For practical purposes, the means 28 comprise a horizontal blowing rod, which is provided, at the bottom, with openings, tubes and / or nozzles 32 which form and direct the air jets downwards. J1. The action of the blowing means 28, in that they serve to unclog the sleeves 18, further improves the performance of the device 10, without significantly increasing the cost since these blowing means 28 are cleverly arranged in the free volume V16 of caisson 16, formed vertically between the sleeves 18 and the catalyst 14.
An optional arrangement of the blowing means 28, which is also illustrated in FIG. 5, consists of using these means to send air under pressure also to the catalyst 14. It will be noted immediately that to the extent that, as explained above, , the catalyst 14 is protected by the sleeves 18 of the dusts and acid pollutants contained in the fumes to be purified 1, there is no absolute necessity to provide a regular blowing of the catalyst 14. This being, as shown in FIG. the upper part of the blast pipe 30 may advantageously be provided with apertures, tubes and / or nozzles 34 which form and direct jets of air under pressure J2 towards the inlet of the channels of the catalyst 14. during each actuation of the blowing means 28, the air jets J1 are sent downwards towards the outlet of the sleeves 18, in order to unclog the latter and maintain a loss of pressure which is in the filter 12, for example between 900 Pa and 1800 Pa, while, at the same time, the jets of air J2 are sent upwards to the inlet of the channels of the catalyst 14, in order to regenerate and unclog this catalyst which, although protected by the sleeves 18, can gradually turn off.

权利要求:
Claims (8)
[1" id="c-fr-0001]
1Device (10) for flue gas cleaning, this device comprising a box (16) for flue gas circulation, inside which are integrated at the same time a filter (12), which has vertical filtering sleeves (18) , and a catalyst (14) structured in channels, the fumes to be purified (1) passing through the filter sleeves and the catalyst, characterized in that the catalyst (14) is placed above the outlet of the sleeves (18) and is separated from it by a vertical distance (d) of between 2.5 and 6 times the hydraulic diameter of the sleeves, the catalyst channels having a hydraulic diameter of less than 6 mm.
[2" id="c-fr-0002]
2, - Device according to claim 1, characterized in that the catalyst (14) is distributed in lockers (22), which are removable vertically relative to the box (16) and which, inside the box, are contiguous horizontally to each other, being arranged in several rows succeeding in a horizontal direction (X), each bin being equipped with means (24) for moving in said horizontal direction relative to the box (16).
[3" id="c-fr-0003]
3. - Device according to claim 2, characterized in that the displacement means comprise rolling elements (24), such as rollers.
[4" id="c-fr-0004]
4, - Device according to one of claims 2 or 3, characterized in that the displacement means (24) cooperate with guides (26), such as rails integral with the housing (16), which extend into said horizontal direction (X).
[5" id="c-fr-0005]
5. - Device according to any one of the preceding claims, characterized in that the effective surface of the catalyst (14) is between four and sixteen times the filtration surface of the sleeves (18).
[6" id="c-fr-0006]
6. - Device according to claim 5, characterized in that the effective surface of the catalyst (14) is between five and twelve times the filtration area of the sleeves (18).
[7" id="c-fr-0007]
7, - Device according to any one of the preceding claims, characterized in that the device (10) further comprises blowing means (28), which are interposed between the outlet of the sleeves (18) of the filter (12) and the inlet of the catalyst channels (14) and which sends pressurized air to the outlet of the sleeves.
[8" id="c-fr-0008]
8.- Device according to claim 7, characterized in that the blowing means (28) also send air under pressure to the inlet of the catalyst channels (14).

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引用文献:

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法律状态:
2016-07-15| PLFP| Fee payment|Year of fee payment: 2 |

2017-01-13| PLSC| Publication of the preliminary search report|Effective date: 20170113 |

2017-08-25| PLFP| Fee payment|Year of fee payment: 3 |

2018-06-21| PLFP| Fee payment|Year of fee payment: 4 |

2020-06-17| PLFP| Fee payment|Year of fee payment: 6 |

2021-06-11| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

申请号 | 申请日 | 专利标题

FR1556465|2015-07-08|

FR1556465A|FR3038525B1|2015-07-08|2015-07-08|DEVICE FOR PURIFYING SMOKE, INTEGRATING FILTER AND CATALYST|FR1556465A| FR3038525B1|2015-07-08|2015-07-08|DEVICE FOR PURIFYING SMOKE, INTEGRATING FILTER AND CATALYST|

PCT/EP2016/065671| WO2017005679A1|2015-07-08|2016-07-04|Device for cleaning fumes including a bagfilter and a catalyst|

PT167343946T| PT3319712T|2015-07-08|2016-07-04|Device for cleaning fumes including a bagfilter and a catalyst|

RU2017145800A| RU2701540C2|2015-07-08|2016-07-04|Flue gas cleaning device comprising bag filter and catalyst|

PL16734394T| PL3319712T3|2015-07-08|2016-07-04|Device for cleaning fumes including a bagfilter and a catalyst|

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TW105121632A| TWI690360B|2015-07-08|2016-07-07|Device for cleaning fumes, including a filter and catalyst, and installation for treating fumes, comprising such a device|

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