DE1594683A1 - Process for cleaning exhaust gases from waste incineration plants - Google Patents

Description

Process for cleaning exhaust gases from waste incineration plants.

More and more cities and municipalities are starting to burn garbage in order to dispose of it in a safe and hygienic manner. Waste composting also produces residues that are also burned. Various types of incinerator have been developed for incineration. It is now possible to achieve almost complete combustion with somewhat continuous operation. The resulting hot flue gases of approx. 1 000 ° G cannot be released into the atmosphere uncleaned because, in addition to dust and soot, they also contain organic impurities and acidic compounds, such as SOl and SO, which are in the vicinity of the incineration plants a nuisance or impairment would be called * Wm is therefore necessary., These smoke gases tone in: «en dusty and gaseous impurities as much as possible attacked», beror eie i »

j atmosphere, the exclusion

by generating water vapor

ier Eamifcgases

et for smaller and

the

learns

Plants not economical. Auierdp »are because of the steam mammals the acidic fluids contained in the flue gases, such as *. B. HCl and SOg exposed to the risk of corrosion.

109817/0212

. - 2 - - ⁴
BATH ORIGINAL

It is known to burn garbage and sewage sludge together in a deck oven. However, the joint incineration of sludge and garbage places special demands on the quality of the garbage. Egg nut z. B *. be pretreated by crushing and / or sieving and by removing αφ iron parts using magnetic separators so that it can be handled properly on the incineration floor. It is also known (TJSP 2 125 720) to return some of the ashes from the joint sludge and garbage incineration to the top floor of the furnace.

b It is also a device for incinerating sludge and garbage

became known, which consists of an upper deck oven and a below ^: arranged shaft oven. In the upper deck oven, sludge is dried, which falls into the lower shaft oven, into which rubbish is fed through the hollow agitator axis.

When sludge and garbage are burned together, special requirements are not only placed on the garbage, but there are even only partially reached combustion temperatures above 800 ° C. For these reasons, one is in systems with a throughput ) Ton 4 t / h and more more and more often denies a pretreatment dee refuse because of the costs involved and the Incinerate garbage in a suitable oven without pre-treatment. In the case of a complete combustion, temperatures Mb are approx. 1000 ° 0 achieved “In the case of dl tar waste incineration, however, now results the probit »that

To clean the exhaust of dust and harmful acidic compounds by using the waste heat,

; In a procedure that is not part of the state of the art

pre-soiled, the carbonic acid content of flue gases from sludge

109817/0212. _ _ ₃ _

8AD ORIGINAL

and / or to use waste incineration plants to neutralize thin sludge. However, since there is a large excess of the tin sludge in this process, the flue gases are cooled down to the dew point. The problem of corrosion in the flue gas cleaning devices and in the induced draft fan remains unsolved with this method. In addition, the heat content of the waste incineration cannot be used for drying sewage sludge.

It is known to dry Klärsohl ι with the hot waste incineration gases. The heat content of the waste incineration gases is there * ·; at first used to generate steam and the steam generated is in turn used to dry the sludge. Here, the risk of corrosion in the steam generator arises again * According to another process, the hot waste incineration gases are used directly to dry sludge on a crater belt ** »? ' applies, is disadvantageous in this process, DAFL the Soalasm üiehi, only dried, but also to more than 90 ° E ei £ ^ ^ Liv? A "nd eiofcv ^{f? l} doing worse under development odors" and begins to decompose. '*

Through the present binding it is possible to remove exhaust gases from cover board * · _Λ

»Tion deposits - with simultaneous utilization of their waste heat eu relnl ^ an. The invention relates to a method for cleaning d> r 'ogas? ^ -,. Us waste incineration plants by treating these, exhaust gases ■■ _Ά άΧ ^ Sr sludge, wherein the input or dehydrated before β clarification, fonlaaim getrooknet on the upper floors of a multi-storey furnace , burned on the incineration floors below and with die.- jt ashes being cooled on the cooling floors below. ; The method according to the invention is characterized in that the exhaust gases are introduced into the combustion zone and then in countercurrent

109817/0212. - ■ - ·. ·,

BAQ ^ ORIGINAL.

led to the alkaline sewage sludge through the furnace, thereby freed from harmful acidic compounds, dedusted, post-incinerated and cooled.

According to the present invention, the approx. 800 to 1000 ° C hot exhaust gases from a waste incineration plant are fed into the combustion zone of a multiple-hearth furnace and passed through the furnace in countercurrent to the sewage sludge moving from top to bottom. The exhaust gases from the waste incineration plant emit their content of harmful acidic compounds to the sludge, up to a fraction. For example, in one case, the S0 ₂ content decreased from 400 to 40 mg / W ⁵ and the HCl content from 200 to 2 mg / Nm. COp does not cause any nuisance in the environment and therefore does not need to be removed from the gas. The dust and soot content of the waste incineration gases is greatly reduced during treatment in the multiple-hearth furnace. A subsequent dedusting of the exhaust gases leaving the multiple-hearth furnace is possible without difficulty in an electrostatic precipitator or another high-performance dust extractor, e.g. B. in a mixed bed filter, possible. w The exhaust gases leave the multi-storey furnace at temperatures of approx. 200 to 350 ° C and thus have a temperature that is desired for dust removal. This is because it reliably avoids falling below the acid dew point, so that no corrosion can occur. The Peinentstaubuiigsvorrichtungen can be used at gas temperatures of 200 to 350 0 normal, inexpensive building materials. The finely dusted flue gases escape through a chimney and, because of their increased temperature, are quickly and easily distributed in the atmosphere.

109817/0212

rasa: ga ± is. dtzx

Pre-thickened or drained sewage sludge is fed to the top floor of the multi-storey furnace. The pH value of thickened or dewatered sludge is in most cases approx. 8.5 "to 10. The pH value of primary or secondary sludge or a mixture of both, as it usually occurs in municipal sewage treatment plants, is around 1, 5 to 8.5, regardless of whether the sludge is fresh sludge or Paul sludge. The alkalinity of such sludges is often increased for the purpose of improved thickening of the sludge or for the purpose of very good dewatering on filters or centrifuges by adding quicklime or hydrated lime so that the pH of the thickened or dewatered sludge, as already mentioned, is in most cases about 8.5 to 10. In addition, these sludges mostly have a natural content of calcium compounds, which can help neutralize strong acids The pre-thickened or pre-dewatered sludge travels through the multiple-hearth furnace from top to bottom by moving through shovels alternately from in nen is moved outwards and outwards over the floors and falls from one floor through openings onto the floor below. The paddles sit on agitator arms that are attached to a central, vertical drive shaft. Usually this shaft and the guide arms are hollow and are cooled by blowing fresh air through them. In countercurrent to the Schl a mm, the hot flue gases from the waste incineration plant move from the incineration zone up through the multiple-hearth furnace and leave it after one

BAD ORIGINAL - 6 109817/0212

- ■■■ - ■■■■■ *, - * ■: - ■■ ■■■■ - ■ »&

extensive cleaning at a temperature of 200 Ms 350 ° C. The sludge is dried on the upper floors, where it heats up to the cooling limit temperature on its surface. At the same time, the flue gases are neutralized and dedusted through contact with the sludge, whereby the pH value of the sludge surface decreases accordingly. Due to the constant circulation of the sludge on the floors with the help of the paddles New sludge particles are constantly brought to the surface, so that the exchange of substances and heat can take place very intensively.

ρ
For example, it is possible to extract up to 50 kg of water per hour from the sludge on a drying floor over a 1 m area, with the acidic compounds of the flue gas being absorbed by the sludge and dust particles being taken up from the flue gas at the same time. The flue gases that leave the drying floors, ie the deck oven, are odorless.

It has been found that it is advantageous to so design the multiple-hearth furnace, that the sludge drying ä mme depending on the moisture content of the sleeps and depending on the desired temperature which is performed the multi-stage furnace exhaust gases leaving the upper 3 to 6 floors. The sludge is burned on the floors below. An average of 2 to 4 floors are required for the incineration. The constant movement of the material by means of the stirring blades ensures that the incineration is complete and even. The hot flue gases from the waste incineration and, if necessary, additional air, which is fed into the multiple-hearth furnace from below via the cooling floors, provide the sauce for the incineration. The Ver-

109817/0212

combustion usually occurs at temperatures between 700 and 900 ° C. In this temperature range there is already a reaction between the calcium compounds in the sludge and the acids in the . Flue gas instead, so that the combustion floors are already with are involved in flue gas cleaning. In addition, the incineration floors form the incineration zone for the flue gases from waste incineration, what especially to reduce the organic impurities and the soot content is important. The waste gases from waste incineration are fed into the combustion chambers via the f firing floors. They are distributed there evenly over the entire furnace cross-section and with the flue gases that are generated at the sludge incineration, mixed. The exhaust gases from waste incineration plants still have a remaining oxygen

, the majority "

hold from 10 to H Vol #, which in cases already, to cover. of the total oxygen demand of the sludge incineration is sufficient. The As oh β from the V-vrirejanungset-agsii is then passed over 1 bio J cooling days and then cooled with fresh air or isi'S vcr-gswäiiii; er cooling air from the hollow shafts and agitator arms. Yy

-in this air displaces the carbonic acid from the hot ash in general "causes such a shift in the lime-carbon- '= equilibrium that the ash afterwards has a considerable content" of active, burnt lime. As s ± \ Cö has surprisingly shown, the ash is quite suitable, after ver-Bisohen with the thickened or dewatered sludge, to increase its pH value even further, up to around pH 12 and thus the neutralization and purification of the flue gas to improve. It is therefore advisable to mix some of the ash with the sludge before it enters the multiple-hearth furnace, which causes it to separate

a certain ash cycle results. _6AD ORIGINAL

10 9 817/0212, _ ₈ _

Palls the available sludge and thus also the ash is poor in calcium compounds, is an addition of burnt or slaked lime or other lime-containing Adding ash to the sludge is useful to raise the pH of the sludge.

Adding ash to thickened sludge can reduce the water content can be set to 80 to 90 wt. $. A sludge with this water content can be in the bunk without further drainage oven to be introduced.

It is usually useful to use preheated cooling air from the hollow shaft and the agitator arms of the multiple-hearth furnace as preheated combustion air to the waste incineration plant.

example

100,000 inhabitants deliver 20,000 tons of garbage per year and 3,650 m of sewage sludge containing $ 5 pesticides. The garbage has the following composition:

* organic matter $ 35 to $ 40

Water content 30 to 40 per cent

Ash content $ 35 to $ 20 ..

An incineration plant, consisting of a grate furnace for the garbage and a deck furnace for the sludge thickened after the addition of lime, works on 300 days a year. The system is in operation 16 hours a day. 4.17 t / h of waste are burned in the grate furnace. With a calorific value of the organic substance of 5,000 kcal / kg and an excess air ratio of 2 to 2.4, a flue gas quantity of 20,000 to 25,000 NmV ¹¹ with an oxygen content of 11 to 13 vol. # Is produced. This amount of exhaust gas from the i

109817/0212

_ 9 -

Waste incineration is carried out at a temperature of about 900 ° C, an S0 ₂ content of 340 mg / W ⁵ and an HCl content of 180 in the combustion chambers above the combustion floors of the multiple-hearth furnace.

_{7 f} 63 m / h of thickened sludge with a solids content of 10 # are fed to the top floor of the sludge incinerator. The solid fraction consists of $ 65 organic matter with a calorific value of 5,000 kcal / kg. 1 g of ash produced was added to the sludge per g of solids content. j The pH of the sludge is 8.2. No additional heat is required for the incineration of the sludge. The exhaust gases leaving the multiple-hearth furnace have a temperature of 300 ° 0, an SOg content of 50 mg / mm, and an HCl content of 5 mg / Nm.

- 10 - 10 9 817/0212 ^BAD

Claims (9)

Claims " 1) Process for cleaning exhaust gases from waste incineration plants by treating these exhaust gases with sewage sludge, the thickened or pre-dewatered sewage sludge dried on the upper floors of a deck oven, on the incineration floors below burned and the ash is cooled on the cooling floors below, characterized in that the exhaust gases introduced into the combustion zone and then passed through the furnace in countercurrent to the alkaline sewage sludge, thereby freed from harmful acidic compounds, dedusted, post-incinerated and cooled, 2) Method according to claim 1, characterized in that the exhaust gases at a temperature of 800 to 1000 ° 0 are passed into the combustion zone of the multiple-hearth furnace. 3) Method according to one or both of claims 1 to 2, characterized in that the exhaust gases when leaving the multiple-hearth furnace Have a temperature of 200 to 350 ° C. 4) Method according to one or more of claims 1 to 31 characterized in that the pH value of the sludge by adding burnt or slaked lime or lime-containing species of its own or foreign ash is raised before that sludge is placed in the furnace. 5) Method according to one or more of claims 1 to 4, characterized characterized in that the water content of a thickened sludge is mixed by mixing before it is added to the top drying floor of ash is adjusted to 80 to 90 wt. #. , * _.__. 109817/0212 ^BAD 6) "Method according to one or more of claims 1 to 5> characterized in that the hot ash is in one or two floors below the burning floors with Äauraluft or preheated hollow shaft cooling air is flushed free by COp. 7) Method according to one or more of claims 1 to 6, characterized in that the one leaving the multiple-hearth furnace cooled exhaust gases in an 'Elektrc filter or mixed bed filter be dedusted afterwards. 8) method according to one or more of claims 1 to 7, characterized in that the excess combustion air in the Waste incineration set in a known manner and the sludge essentially with the remaining residual oxygen Flue gas is burned in the deck oven. 9) Method:, iaeh one or more of claims 1 to 8, characterized in that preheated hollow shaft cooling air as ¥ er "breiiiiU.n" ^r iliiif. is directed to the waste incineration plant. BATH ORIGINAL 109817/0212