DE2249874B2 - Process for removing sulfur dioxide from combustion exhaust gases - Google Patents

Description

15th

20th

The invention relates to a method for removing sulfur dioxide from combustion exhaust gases by means of a lime slurry in two absorption units connected in series, with the first A lower pH value is maintained in the absorption unit and a higher pH value is maintained in the second absorption unit will.

For the removal of sulfur dioxide, which is the main cause of air pollution, from combustion exhaust gas, a process that uses a lime suspension as the absorbent is very advantageous which is easy to source and inexpensive. To operate this process economically however To be able to, it is necessary to check the reaction ratio between that contained in the liquid absorbent Lime and sulfur dioxide, d. H. the percentage of lime available, at the same time as the Increase the level of sulfur dioxide absorption. Theoretically that is for the absorption of Sulfur dioxide required amount of lime of the amount of sulfur dioxide contained in an exhaust gas to be treated stoichiometrically equivalent; in practice, however, one is considerably higher than the stoichiometric mentioned Equivalent amount of lime to ensure a high degree of absorption of Sulfur dioxide is required by washing the latter, which contains a low concentration of exhaust gas, affecting contact efficiency in a gas / liquid / solid contactor and on the degree of elution of solids is to be returned. As a result, it contains from the absorption device discharged liquid still contains a considerable amount of unreacted lime. This is not just detrimental from an economic point of view, but also makes when gypsum from the consumed liquid absorbent is to be recovered, further steps to convert the unreacted Lime into a sulfate or sulfite required by being neutralized with either sulfuric acid or is reacted with high concentration sulfur dioxide gas before the absorbent becomes a Gypsum recovery stage is transferred. In the method according to the invention is the absorption process divided into two stages, each of which is carried out in such a way that a circulated liquid Absorbent can be kept at a prescribed pH, thereby reducing the aforementioned Disadvantages of the conventional method are turned off and approaches and deposits as well Scale or stone build-up in the absorption device can be avoided, which is the case with the known Procedure always poses a particular problem.

According to DT-AS 2161475 is a process for cyclic countercurrent washing of sulfur dioxide-containing Combustion exhaust gases have been proposed by means of a lime slurry in which in a The first absorber unit has a pH value less than 4 and a second absorber unit such that it is greater than 7 and when a given pressure drop is reached, the directions of flow of gas and absorption liquid be reversed.

According to DT-AS 2161476 is a process for cyclic countercurrent washing of sulfur dioxide halides Combustion gases have been proposed by means of a lime slurry in which in a the first absorber unit has a pH value less than 4 and a second one greater than 7, the calcium sulfite formed is oxidized to calcium sulfate by means of air and separated as gypsum crystals.

Since a pH value of less than 4 is maintained in the first absorption unit in both processes is, the sulfur dioxide absorption leaves something to be desired at this stage. However, the latter will if a minimum pH value of 4.0 is observed in the first absorption unit, it is greatly increased. Continue to be if a pH value of 6.5 to 7.0 is maintained in the second absorption unit, a degree of desulphurization (more than 90%), which differs from the degree of desulphurization when maintaining a pH value of over 7.0 (in the second absorption unit) hardly differs. On the other hand, however (unlike Compliance with a pH value of over 7.0) in the second absorption unit practically no stone build-up.

The invention thus relates to a method of the type described at the outset, which thereby is characterized in that in the first absorption unit a pH of 4.0 to 4.5 and in the second absorption unit a pH of 6.5 to 7.0 is maintained.

The invention is explained in more detail below with reference to the drawing. Show it

F i g. 1, 4 and 5 are schematic representations of devices for carrying out the method according to FIG of the invention and

F i g. Figures 2 and 3 are graphic representations of the results and effects of the method according to the invention.

In the following, the practical implementation of the method according to the invention is first based on from F i g. 1 explained in more detail.

■ A sulfur dioxide-containing combustion exhaust gas (1) having a temperature of about 14O ⁰ C is introduced into a gas cooling tower 1, in which it is contacted with supplied by a pump 5 and ausgesprühtem from a nozzle water, thereby moistened and cooled to about 55 ° C will. The exhaust gas humidified and cooled in this way is then transferred to a precursor absorption device 2 via a line (2). Part of the water circulated in the gas cooling tower 1 is discharged from the absorption system to the outside in order, as indicated at (8), to remove dust collected from the gas, while at (6) fresh water is introduced into the cooling tower to remove the removed and to replace evaporated water. That

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In the precursor absorption device 2 introduced exhaust gas is in this with a by a pump? supplied lime slurry washed, whereby part of the sulfur dioxide contained in it is removed from the exhaust gas. The exhaust gas is then transferred to a post-stage absorption device 3, in which, as in the pre-stage absorption device 2, it is washed with the lime slurry, the residual sulfur dioxide content of the exhaust gas being absorbed by the absorption liquid and thus removed from the exhaust gas. The practically sulfur dioxide-free gas leaving the post-stage absorption device flows, as indicated at (4), through a mist separator 4 to separate mist or haze from it, whereupon the remitting, purified gas is discharged to a flue at (5). The pre-stage and post-stage absorption devices are each provided with means such as an industrially used filler to ensure effective contact between the gas and the absorption liquid; in addition, each of these devices has a mist or vapor separator for the required separation of mist or vapor from the gas.

The flow of the absorption liquid is now described below. First will be a finely divided lime material (9), such as powdered quick lime, slaked lime or limestone and water (10) Introduced into an absorbent preparation container 11 and mixed therein with stirring to to form a slurry. The slurry thus formed is, as indicated at (11), by means of a pump 10 into an absorption liquid circulating tank 9 of the post-stage absorption device 3 and then the latter, as indicated at (12), fed by means of a pump 8. After Reaction with the sulfur dioxide contained in the exhaust gas in the downstream stage becomes the absorption liquid is returned to the circulating container 9 and again returned to the device 3 by means of the pump 8. During this period, most of that is contained in the absorption liquid Lime converted into calcium sulfite by reaction with sulfur dioxide. Part of the absorption liquid is branched off from this circulation system and, as indicated at (13), into one Transferred absorption liquid circulation container 6 of the precursor absorption device. The ones in the The absorbing liquid introduced into the container 6 becomes as in the case of the post-stage absorbing device circulated via a pump 7 through the precursor absorption device 2 and the container 6, wherein the unreacted lime in the absorption liquid from the circulation system of the post-stage absorption device is converted into calcium sulfite. Depending on the sulfur dioxide and The oxygen content of the exhaust gas to be treated and the pH value of the absorption liquid will be Calcium sulfite in the absorption liquid, which circulates through the pre- and post-stage, partially to Calcium sulphate oxidizes. In the manner described, therefore, the absorption liquid is practically the whole unreacted lime removed, whereupon the absorption liquid practically free of unreacted lime branched off from the circulation system and, as indicated at (15), to a gypsum recovery stage is convicted. In the latter, the absorbed liquid is used up by means of the usual steps of pH adjustment, oxidation and filtration of plaster of paris.

As an example, a smoke off-gas from the combustion of heavy oil in the above-described Plant treated using a "packed" tower in which. Plates arranged like a grid was; Such a tower was used for both the preliminary stage and the post-stage absorption device used. In the table they are actually used for the treatment of smoke exhaust gas measured values listed.

Tabel

Gas volume (mVh) 2000

Amount of sludge circulated in the absorption device

Sludge concentration (wt%) 6

Prepress
exhaust
Flue gas

EmIaU-SO ₂ (ppm)
Outlet SO ₂ (ppm)

Absorption liquid

pH

CaCO ₃ (mol / 1)
CaCO ₃ - '/ 2H ₂ O (mol / 1) CaSO ₄ -2 H ₂ O (mol / 1)

Post-stage

exhaust
Flue gas

Inlet SO ₂ (ppm) 1.023

Outlet SO ₂ (ppm) 38

Absorption liquid

pH 7

CaCO ₃ (mol / 1) 0.032

CaSO ₃ ■ '/ 2 H ₂ O (mol / 1) 0.199

CaSO ₄ -2 H ₂ C (mol / 1) 0.279

total

Degree of SO ₂ absorption (%) .96.7

Lime (%) 100

1110 1022

4.0

0.001> 0.143 0.354

As can be seen from the table, the percentage of available lime was 100%, while the percentage of sulfur dioxide absorption was was over 90% and there was no formation or deposition of scale or stone deposits to be observed in the absorption devices

was.

The characteristic features of the method according to the invention are described in detail below: The first characteristic is that the adherence of scale or stone deposits, this becomes a problem when treating a gas containing sulfur dioxide with a lime slurry will be eliminated by a new process. So far has been it is generally assumed that the stone attachment resp.

5 6

Scale formation is due to the fact that the value of the absorption liquid is reduced to a desired

that an absorption liquid to lower th value due to the oxidation. As a result, traditional

of the calcium sulphite contained in it with which in the licherweise a process is applied in which

Oxygen contained in gas and the conversion in SO ₂ of high concentration from the outside into a

Calcium sulfate is excessively saturated with gypsum, so 5 desulfurization system is introduced to by the

that the calcium sulfate is deposited or to be absorbed under stone absorption liquid, so that

Approach or scale formation fails. Because of this, the unreacted lime is eliminated and the pH value

has been used as a countermeasure to this problem to reduce the absorption liquid to the desired level

seeks to adjust the degree of oversaturation of the absorption.

To lower the liquid with plaster of paris, it is known that the method according to the invention described above in connection with FIG. 1 is to add the germs to the circulated absorption liquid of plaster of paris. To improve the effect of the device in gypsum germs added to a preliminary absorption device, it is also known to subdivide the gypsum 2 and a post-stage absorption device 3 germs after their addition for a certain period of time, with an exhaust gas to be treated being kept in the absorption liquid after a while. In this connection, which is led through the two stages 2, 3, it is important that there are two types of scale or stone build-up containing a lime slurry, namely the absorption liquid initially a comparatively hard scale or scale in the post-stage. Absorption device 3 and then in the preliminary stone approach from - as mentioned - gypsum and an absorption device 2 is circulated; In addition, comparatively soft scale or stone build-up, which is 20 the pH value of the absorption liquid consists of a mixture of calcium carbonate, calcium in the post-stage to 6.5-7.0 and in the preliminary stage sulfite and gypsum. The formation of the said is set to 4-4.5 so that the absorption of hard scale or stone deposits can be suppressed, for example, by sulfur dioxide mainly in the post-stage and the mentioned addition of gypsum nuclei suppresses the conversion of the unreacted lime during the precipitation of the last mentioned 25 prepress takes place. In this way it became possible, ten tinder or stone approach is inevitable; At the same time, both a high sulfur dioxide, the simple favoring of the flow of the ambient degree of absorption (see Fig. 2) and a high rolling absorption liquid are insufficient to maintain the percentage of available lime in order to eliminate the formation of scale or stone deposits - as can be seen from F i G. 3 shows, remains in the th. The known absorption devices were 30 absorption liquid practically no unreacted as a result of the deposition of soft scale or lime, if the process is carried out in such a way that stone deposits on their inner surfaces after some loading that the pH -Value of the absorption drive days ineffective, so that it would then be necessary liquid in the preliminary stage in the range of 4-4.5 to open the device, the stone deposits will hold. An excessive reduction in the pH value and also the interior of the device must be washed with nutty chemicals because of the increasing corrosive effect of the surfaces. Well absorption liquid undesirable,
It has been shown that when the absorption device is divided into two stages, the absorption liquid is circulated to a maximum of 7.0 by simultaneously ensuring a high and at least 6.5 is maintained, the absorption level of sulfur dioxide absorption and a high device continuously and without precipitation or percentage of available lime the level of deposition of scale or stone deposits and operated with tower-shaped absorption devices in comparison to a degree of sulfur dioxide removal a single stage absorber which is practically the same as can be rerdened. For example, the pH value is close to 11. In the case of a low 45 treatment of a combustion gas, the sulfur pH value of the absorption liquid contains the dioxide in a concentration of 1000 ppm, the proportion of calcium carbonate contained in it is small, using a lattice-like packed tower so that the viscosity and therefore the adhesiveness with one Liquid-gas ratio of 7 l / m ³ and the speed of the absorption liquid is reduced. A gas throughput rate of 3 m / s is the effective one, however, it should be noted that the pH value of the absorption 50 height of a washing tower with liquid from a single absorption tower, in which sulfur dioxide must be used, since an excessively low pH A value of a degree of absorption of 90% and a percentage of deposition of the degree of sulfur dioxide absorption of the available lime of 96% should be achieved, 17.3 m. while in a two-stage absorption process, when the washing tower is used, the percentage of available lim is only moderate overall.

Lime increases to almost 100% and the pH of the In short, it is only essential absorption liquid for the invention be reduced to one value, the absorption process in two compared to the the, with the gypsum obtained in an advantageous manner gas flow successively carried out stages can be. In conventional methods 60 subdivide and adjust the pH of the recirculated waste namely in general only to the increase in sorption liquid in the preliminary stage in the range of the degree of sulfur dioxide removal is important, in 4-4.5 and in the post-stage in the range of 6.5-7.0 In the case of smoke emissions, it rend to keep the sulfur dioxide in. As a result, the inventive contain a comparatively low concentration and process except with the previously described Vordic as the cause of air pollution, the device also has a provision shown in FIG will be considered difficult, the direction to be carried out in which only one for the removal of sulfur dioxide serving absorption device is provided, its interior available Increase the percentage of lime and divide the pH space into two sections for the first and the second

Absorption stage is divided. Depending on the sulfur dioxide concentration of the exhaust gas to be treated, the method can also be carried out with the device according to FIG. 5, in which the inlet gas for a first stage absorber

is split into two streams, one of which goes directly to the post-stage absorber and the other to the post-stage absorber via the precursor absorber is introduced.

For this purpose 4 sheets of drawings

Claims (1)

Claim: Process for removing sulfur dioxide from combustion exhaust gases by means of a lime slurry in two absorption units connected in series, a lower one in the first absorption unit and a lower one in the second Absorption unit a higher pH is maintained, characterized in that in the first absorption unit a pH of 4.0 to 4.5 and in the second absorption unit a pH value of 6.5 to 7.0 is maintained. 10