DEM0000366MA - Process for the recovery of solvents from exhaust gases - Google Patents

Description

M 3ββ _Μ fY.e / 1%,. M mu® U.N t »g I a ise.it ..

¥ e tf.l 1 gesell sö'h Rf t "t! Shank

from the

Bsi d®r sztpaKtioB of valuable substances », wi @ phenols * fatty acids * alcohol®» j organic bases or the like «* from water ο sex * aqueous solvents ssit opgasiseheB solutions emittein« di® eat oen fliis ^ rs sioht o ^ # p aur w «» tg l5elieh are ₉ e * B * benzene »opgeisisctien Isterö? ÄeiÄs ^ iis ketones o «S« Fgl. _f home, Afeteelbei »äss liSsTäHgsmltt ©! © from d @ a exti? afe.leFt®a many times solved® G-rs® fpei * In äiee © u & se gefteu melir oc (« 3? less groas®

ä®8 are solvents

applied woyde ». So wm3? D ©, for example, "The gas released by Kofceireiwassera with BensEol

feevcF this © ia c! «i? Sohralwrneser two

Phenols- with oj * g & ni © ehea st-iaepetofthiltig © «a..E.BstepB οΊβΐ ⁸ ketones, so the ■ at the HQe'sgewlanaug: des!» Ostmgssittele aα »water is stsn ^ es« with the isur Ixtra - ^ tioa -gel sagan ^ en f

An infusion takes place fiie B0. @ Kg © wiöniing ftes Lusang from such gases duj? En What before "a # r gases with &u" ßea won "is only of f" ₉ in the case of a © ^ Fiie & olextr & fctioa atis water by Va.sohea with ües obtained B

Ss was recently geftsndeaf that these Sastrektstoffe n © t® From © crp-ti OWtB medium fSjp AEIM Hwelcg.®wiB? Sisng diligent ⁸ Blspf® AEEI '' angewenöete "ExtrakticnBssittel of <5s Afegasss siaö. Si® si »ä iseflhigti Ms zn 50 £ nn§ m®hr · ihi * © s weight eg

by means of cen gases ". D§iftmss are narrownessly low

The solvent that is pouring over into the exhaust gases is necessary, whereas hitherto one was forced to sprinkle the exhaust gases with all the smoldering or coffin water in a washing tower. The mixture of solvents υηά Extraktstoff © n ₉ obtained during this recovery ^ can be worked up together with the extract ^ without a significant additional load of the Ixtratetdestillationsanlag® occurs, in which the decomposition of the extract into solvents and extracted substance © ν org 'ß Boras en will.

Are, for example, coking water from Scftwelwässernj ο »the like. Phenols or the like with organic esters, such as Butyllaeet & t ₉ extracted § so for the recovery of the solvent from the exhaust gases produced in the plant, the example and schematic shown in the drawing can be used as an advantage

I is a cooler * in which the water containing phenol is cooled to about 30-25 ° Pump 22 δbet »the lines SS d ^ raw the heat exchanger * 5 and the preheater 6 in the stripping column 11 pressed _s into the bladder 10 for heating direct steam is introduced. Aue of the outlet 10, the treated water flows through the line 24 into the heat exchanger, does it give off the absorbed heat to the water supplied through the line 2Z _? to then be cooled down through the line. The gas © and steam from the column

II escape * currents through the line 26 into the condenser 9 ₉ where the solvents and water vapor are precipitated. 27 is the coolant supply _? 28 the KShI agent discharge of the condenser 9. The condensate from the condenser 9 now passes through the device 8 _S in which liquid and gases are separated from one another in a known manner, after the separator 7 ₉ in which it separates into water and solvent. The solvent is di @

Line 38 is fed into the storage tank 18/13, while the solvent-containing water is fed through line 2 © the extracted and solvent-containing water in the container 4 is supplied »The gases that are in the device 8 have been separated from the condensate, flow through the line 30 into the Wasohturis 31.

The solvent loaded with the extracted Steffen is fed through oil line 52 to the distillation column 15 of known design. The solvent distilled off in the column passes through oil © line 1? into the condenser 16. Here it is precipitated and the condensate is returned through the line 18 to the storage tank-IS / 13. From the bubble 14 of the column, the phenols are freed from the solvent through the line 33 and. the cooler 19 is passed to the Phenololbeha'Xter SO in order to be further treated or used in a known manner. Some of the phenols are fed to the washing tower 31 through the line 34 as detergent. In all cases, phenols absorb the solvent from the exhaust gases. They are then conveyed by the pump 36 through the line 37 into the line 32, in which case they are consumed in the distillation column 15 together with the extra solvent coming from the extraction solution. From the storage container 12/13 the recovered solvent is returned to the extraction through the τ, line 37.

For example, wastewater that accrues during the smoldering of Middle German lignite and contains 15 g of phenolic substance is treated with 100 liters of butyl acetate / m% so white water in the three-stage extraction 3. The solvent that has taken about 15 kg of phenol per 100 liters ₉ is separated in the distillation column 15 into solvent and crude phenol. 10 $ of the derived bohphenols * ie 1.5 kg _s are used for scrubbing the exhaust gases in tower 31. The amount .eier exhaust gases of carbon dioxide mnd hydrogen sulfide b @ st © _hen's cheating about 4 Nm / ebffi smoldering water. In the Ks? The exhaust gas contains around 100 g of butyl acetate. The butyl acetate is washed out of the gas in the washing tower S1 up to 0.04 g / Nm "'(ie to 99 * 96 %)

The loaded detergent running off the washing tower consists of about 80 % crude phenolSl UBd £ 0 G@w.% Butylaeetafe. The mixture is worked up together with the loaded solvent in the destination device 15.

Xhnlioh as specified in this) Example ^ the Rüekgewinrx-ung äev Sxtralitionsmittel & recomme designed from AESN exhaust gases when anÄer © EartraictiQnsmitt-el ₅ are used and it can jmöh the) scheme of the example are treated also exhaust other extraction processes, "© contain the solvent vapor , whereby the exhaust gases that arise during the recovery of the solvent are then also washed with the extracted Steffen.

Claims (1)

P a fc ο rs t r "ο h ί? .ί; ϊί "r ¥" n L "B- ^ u tt \ .; λ η .; n ■ "■; -. tr ■ η WaB became, S ₄ method ηaoh claim 1,; ΐ '.;Ί'di;;; v « ⁵ is-! ^f 'jet _: η Βλ tr? · ?. ■; tat: -f i'a ans tut ffc-n ci:!: i essend au-itvn ^ en with iis-trü ^ t ^ n a .fr ^ isP! egg dead ; g: p, f- v ■ ': rwüTid et -rs s anti ^ i ti ■ η an h ^ H -en In kind: ei tn ^ s, n-ä, 2 ^
tr.-. .-: t ^! "t ΐΐβ through this . · Without knowing theirs vB ^ tittfrln iQQtim-tim body Ainvi-ndarjg las Vßrishr ^ ns n'ieh lon ex tr »hl .ft · .-- η WKä-us; r * rj (..ntstivh- 4 / f τ? β pr ü on es 1-3 <5ur "u? s Al-gf.sers, ^; : ί ?. ο lüj -er r fcrOh Ai tr: i'b η off ^ v ^^ ssern -.v.xtrnhj.er · ton R.Jh = JHiT ...} i-n:; -: eVi ».Si>! Iföfs weräon«