DE1442765A1 - Heat treatment of liquids containing dissolved solids - Google Patents

Description

Anlage Aktwixtldwi

«R B» gave · from the urine »ά. Poor. EÖJBUnd Andr * W JOSCph MlOZ

17 Harrison Street Stoneham, Massachusetts U.S.A.

Heat treatment of liquids containing dissolved solids

The invention relates generally to the heat treatment of Liquids that contain dissolved solids »their solubility decreases with increasing temperature. The invention particularly relates to the conversion of sea and brackish water in fresh water and the treatment of natural and industrial Waste in order to enable economical recycling of the solvent (that in most of the fillings Water that otherwise in its contaminated form would contribute to the pollution of the aquatic environment) while at the same time the processing of by-products is simplified

Closely related to the recovery of the solvent content The problem of treating the precipitates from the solutes, in particular, is from the polluted water sources of those salts which are formed with the formation of stone precipitate when the temperature of the solution when performing the separation of the solvent from the solute the volatilization and subsequent recovery of the solvent is increased from the solution

Up until now there has been a general approach to this problem

therein "" a separation within the boundaries of the LBeliohkelt de · to bring about the substance to be IUsenden in the solvent, where the tendency for the deposition of the water scale forming Substances was limited by the saturation conditions given by the particular solvent · Another approximation in front of this problem was to flee in abundance to make available, on which a water hole formation before should go, and this process was later interrupted to remove the water stone · Both possibilities are inherently inadequate

According to the present invention there is provided a method of treatment proposed liquids containing dissolved solids, the solubility of which decreases with increasing temperature, in preparation for a further heat treatment to separate the liquid solvent from the solids, including the Liquid with less concentrated solids in these dissolved solids Liquid is diluted. _

In practicing the invention, a stream of impure feed liquid is passed into a chamber in which the liquid is brought into direct contact with a stream of hot gas, thereby evaporating some of the liquid and lowering the temperature of the gas and the moisture content of the cooled gas is increased over the moisture content of the hot gas, the vapor-containing gas is passed into a second chamber ₅ in which it is brought into contact with additional contaminated liquid at a temperature * below the temperature of the in the

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second chamber entering oasis lies, so that the introduced there Liquid heated and at the same time the impurities of the liquid introduced into the second chamber with the condensing fraction of the steam content of the imported Oases are added and the diluted, heated, polluted Liquid in the second chamber for further Wäraebehandlungsvorglngs is made available · Of course, it is not necessary to feed the two pretreatment chambers contaminated liquid from the same source use. Although it is completely within the area of the Mr. Invention lies, the same liquid in both preheating chambers Using one or more of such contaminated liquids may old benefit in one or both Pre-heating chamber can be used. It is worldly in the frame this invention to work at vacuum, at atmospheric pressure su work or su work at pressures that are above atmospheric pressure lie.

While looking at the procedure afterwards mlvaer invention may look like that in order to achieve the “A step backwards has been made to the mauve result 1st” results a careful consideration of the lesson contained Leare mmT present advantages of simultaneous dilution Warming the contaminated liquid sat rtJae before further heat treatment for the purpose of removing the loosened particles and the solvent content of a contaminated liquid. Because the first step in performing the procedure is in a Chamber in front of which there is direct contact of the liquid with the warming air and since the

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Chamber preferably constructed without substantial surface is «on which scale formation can take place», it is possible and in many cases desirable for evaporation to carry out the contaminated liquid at a temperature which is above that at which according to the known solubility data of the desired substance would fail. However, it is also possible and an accurately measurable benefit is obtained regardless of whether the initial treatment is used the liquid leads to the formation of a concentrate or not, which contains the desired substance in sufficient quantity, to ensure precipitation of the solute · The However, the real advantage of the process arises when the contact between the liquid and the heating medium Vapors produced in the first chamber are condensed in the second chamber to enter the second chamber led to dilute contaminated liquid.

By this dilution of the contaminated liquid in the second chamber it becomes possible to carry out a subsequent heat treatment of the liquid at temperatures which are well above those who would be possible if the mother liquid would have been subjected to heat treatment without dilution. There is also the one containing the diluent Outflow, the diluent at the initial touch the liquid with the warm-up medium arises when Addition of the solvent content as a feed for the The liquid used after the heat treatment is added, the feed medium can be improved by the supplied heat as a result of its association with the - "■■■ '-"' "'90 9 8 1 U / Ü 6 S 5

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Solvent and its carrier becomes available

Another part of the gate is, of course, that Process according to the invention applied dilution effect the Srslelen larger yields of solvent from a « given throughput of contaminated liquid In de « look at the heat treatment apparatus.

While it may seem more desirable at first nag, the one emerging from the first contactor in the system To feed liquid to a condenser and thereby remove the purified water has been found that this is not the case the most expedient use of the steam emerging from the first contactor is »These steams are therefore used to Subsequently dilute the raw liquid to be evaporated, which will be mentioned at the same time · Preferred catfish will continue the amount of raw liquid introduced into the second contactor regulated as a function of the volume and temperature of the vapors emerging from the first contactor, so that the temperature of the liquid in the global contactor is around the boiling point (at atmospheric pressure) or is brought to a slightly lower value. In this way, the temperature of the raw liquid to be evaporated is determined to a value just slightly below the evaporation temperature or to the evaporation temperature itself. around To accomplish this evaporation, it is of course usual to supply sufficient heat to meet the latent requirements can end up evaporating in the subsequent device su Satisfy liquid su. However, as far as the

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most contactor in the process of escaping condensate vapors are concerned, no condenser is required «the large quantities of coolant and a considerable surface area requires »on which the condensation of the vapors emerging from the first reactor can take place. Instead of Demiss of such a condenser »exacerbate the dea first contactor leaking vapors and entering into the Ron liquid which may be evaporated during the condensation the temperature of the Ron liquid and dilute the raw liquid with solvent. this makes possible accordingly that the attached heat treatment apparatus can be operated at temperatures »which are significantly higher than those» which are then possible would have been »if the raw liquid alone was immediate would have been passed into this device. Next, the gas is in contrast to that exiting from the first contactor condensable vapor fractions and in addition to the condensable steam fractions emerging from the first contactor Steam fractions used to raise the temperature of the raw material fed into the second contactor instead of dafi in a condenser cooler for cooling this gas' as well as the Vapors very substantial surface areas would be required »because» if the gases were not cooled »the vapors would neither cold nor would they be condensed.

For further details, please refer to the accompanying drawings. Where ι

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Fig. 1 «showing the concentration of the boiler Chart »the either in percent de» Kesselstelnblldnera In a given solution or in parts by weight dea boiler builder can be specified per unit of solution. The concentration is at one salty solution, such as B. Potassium Sulphate In Sea Water, influenced by fluctuating temperature.

2 is a diagram illustrating the principles of the invention.

Flg. Figure 3 is a schematic flow sole image showing a preferred Method of heating and diluting a liquid stream at pressures above atmospheric shows·

Since the application of the invention does not apply to the conversion of Seawater or brackish water is restricted to purified water, the elevation of the curve "as shown in FIG. 1 shown Is «generalized · because the principle and the application this · principle is more general than the la below Specific description given of a preferred embodiment for practicing the invention.

According to the drawing and in particular in Fig. 1, the curve represents MiP is the typical saturation concentration of potassium sulfate at stable temperatures between room temperature of about 13 ° and saturation temperature at the atmospheric boiling point

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d. h, 100 °, represents «The broken section beyond F on the curve HNPH and R represents an extrapolation of the curve into the area» for which published data are not available. However, the meaning of the points P and R on the curve NNPR is that the point P determines the temperature t ₈ at which the calcium sulphate present in the solution begins to precipitate, and the point H represents the higher temperature t _f at which the calcium sulphate present in the diluted solution, which is symbolized by e " , starts to precipitate out of the lib solution.

Since the precipitation is a function of the adhesion of the precipitate to the warning surface, the precipitation is generally carried out at slightly higher temperatures and concentrations of the desired substance in the solution than is indicated by the curve MNPR. The curve N ¹ P ¹ VW is shown as a substantially parallel curve in order to take into account the precipitation of calcium sulfate from the solution. This curve would represent the conditions achieved in a given device. From this curve one recognizes that the initially occurring precipitation, as it is represented for the Kalsluasiirat duroh o _e originally present in seawater, takes place at a significantly higher temperature than the _{precipitation temperature t a} of t _a i. In the same way, diluted seawater, the concentration of potassium sulfate of which is represented by c _f , will give rise to a precipitate at the point W at the temperature t _f ”rather than at the _{point R determined by t f.} Another observation made in connection with these curves is that for a given temperature or saturation

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supply temperature de «Potassium sulphate β present in the seawater solution at temperature t _m can allow a higher concentration» as shown at point F * duroh O ₀ before precipitation occurs · As a result of these considerations with regard to precipitation and the use of higher temperatures when removing the water or the solvent part of the seawater from the solution containing potassium sulphate »one recognizes» that there is a noticeable advantage with dilute »seawater.

Applying this principle explained by these curves to the method of this invention, reference is now made first to FIG. 2, in which the process is presented in its most elementary form and in which the raw liquid to be evaporated is first diluted with the solvent and then heated during the dilution for further heat treatment in order to possibly add the solvent content of the raw liquid separate and regain. In the counter made application, the word "Solvent * ¹ that component of the system, available 1st in larger" share, in the case of sea water is made to the water cover, which releases 1st of the contained solvent salts. When the water in other forms, such as brackish water, for example, for the raw liquid, reference is made to the water free of its contaminating substances, which may or may not be present in the solution, depending on the circumstances affecting the water itself.

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The raw liquid is fed into a contactor via the line 10 12 is introduced and preferably finely divided while it is sprayed into the contactor. This is indicated by the reference sign 14 indicated «the designation of the spray mist in de »contactor is used. According to the illustration, the raw liquid is produced in the line 16 and a part of this liquid is inclined into the line 10 via the valve l8. Xn the contactor 12, the raw liquid is in a st roe Heal gas given »the via a line 20 in the contactor 12 is introduced. The oasis «the one from a flaau pipe denying hot exhaust gases or other for oasis heated for this purpose «pass through the contactor and vaporize a portion of the liquid introduced into the contactor 12 »by immediately falling on the through the contactor acting through flowing liquid * It is on it to point out »that about the heat exchange between the liquid and the oases in contactor 12 that touch this © special areas must be available. It's on to note that the gases do not include all of the liquid introduced have to evaporate »but part of the liquid can be accumulated in the bottom of the contactor 12 »where they are detected by the reference ze lohen 22 v <lrd. Deriving the excess Liquid takes place via line 24 and the valve 26th

The temperature of the gas introduced through line 20 should preferably be the boiling point of the solvent component of the introduced liquid · However, oases with a lower temperature can also be 3ngewrend®t ». -ground» so »

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long «« rl · «terra temperature at least * equal to temperature Let the liquid introduced into the contactor.

The gas passing through the contactor increases the moisture content during the passage through the duct 28 and enters a liquid vapor separator, which is identified by the reference element 30, and any material entrained in the gas flow is removed from the separator and «V> r a line 32 is fed back into the contactor 12, also because« lb «r dl line 24 is removed. The moisture-laden oasis enter a second contactor 36 via line 34. A large amount of liquid is also introduced into the contactor 36 via spray nozzles 38, which can be arranged above the gas inlet 34. The introduced via nozzles 38 dl · fluid also acts directly on the dureh the contactor% passing through a Gaset roe. Xb this "contactor is e" However important · tHe the temperature of the stirred over dl · SprtthdUsen 38 liquid under d "r temperature de * via the line 2 * introduced moist oases located · DI · * uf this catfish in the contactor% introduced, diluted and heated liquid, the check anseklielend "device for LösungamittelYerdampfung _v is the fluid requirements of those Torriohtung.

Dl · by the Kontakteeber J6 upwardly rising oasis give their Vlrae and its moisture content to the entering through the fiprühdttsen JB liquid, and will be discharged from the Kontakteeber 36 via line 42, through which they are passed into the Flttesigkeite-vapor separator 44, from the

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the oasis via the «Leituag 46», «** s & t Material is returned to the contactor via line 48 « guided.

A liquid reserve forms from the bottom of the contactor J6, the duroh eis * pump 50 is discharged «welehe die Liquid in the see "ehllei" ade evaporation system 52 Htr the liquid solution "fgld.ttel".

Although means have been approved, the same raw batter is used. speed into the contactor 12 and the Xontaktgeber 36 su guide « iet ee eftglion, in dieee two contactors «it help the ▼ entile · l8 and des valves · 54 different liquids feed. Should a different flow rate be used for the grain clock generator 12 If it should be wtnsehemswert, the valve 18 is closed and valve 54, located at the source of the desired liquid leads, would be opened, so that for the contactor 12 desired liquid can be introduced. Ks su nooh attention is drawn to «dal» although it was stated dal it is not necessary to flee wlrae exchanges in contactors 12 and 36 from seeing it nOglloh 1st, solohe flee as To provide Bodenglooken or the like without noticeably deviating from the Frinslp and the scope of the invention.

Whilst every contactor has been sung ^, among other things, the idea of the dilution of the epelseflüeslglcelt from the beginning consentration c _e , as it is in Flg. 1 to explain e on C ^ as shown in FIG

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Oase KUftltxlieh * reusable wire and moisture on w «is · **« s desirable »« in can, in di · Torrlohtung «in« n to install further awl contactors 36 Ihaliohen contactors, to remove additional heat and moisture from Am ewMB, - aa this susltillche contactor is the one described above Prmxi · would correspond to the invention.

One recognizes, of course, that when using such a contactor it would be possible to supply either the raw liquid or any liquid such as the feed liquid to such a contactor. Or that was "*, diluted liquid ▼ on this * IContactor would be used as feed liquid for a foreseeable contactor, such as 2. B. the contactor 36 *, but would not be fed back into the contactor 12". Eb is of course the purpose of this device "not only to dilute the concentration of the dissolved substance in the raw liquid, but also to raise the temperature of the liquid diluted in this way, which is a desoheid""- that which can be achieved by the practice of this invention Is a value factor that goes beyond the advantage that can be achieved by diluting the liquid alone. Of course, those skilled in the art will recognize that it is desirable to heat the food liquid to the lowest temperature to be used in the following heat treatment processes. coincides with the performance of an effective volatilization of the solvent. Nan also realizes that one can achieve an advantage in the contactor 12 by bringing the liquid into contact with the liquid immediately afterwards and then taking part of the heat value of the oasis and removing the

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its moisture content can "increase" so that one in the "me. subsequent device, here numbered with% , can additionally heat and dilute the same feed liquid. In the application of the invention, the scoop resulting from the extracted heat is effectively realized without the need to use condensation surfaces, i.e. the liquid is obtained as a diluent for the raw material without the need to use a condensation surface in the system. This method avoids areas which would otherwise adversely affect other components in the device as a result of precipitation. Instead of using such fleeces, the moisture is brought into further contact with the raw liquid, so that it is diluted as it is heated and the raw liquid is thus advantageously used for its further application in the subsequent heat treatment apparatus.

While in the foregoing the invention .soweit with regard to one of its main uses in connection with heat recovery has been described, namely with the recovery of heat sources that would otherwise have to be regarded as heat loss, the invention is in theirs Application is not limited to this, because it can also be used to generate additional driving force for the eventual volatilization The solvent from the solution can be applied "One of the main ways to achieve this result Is there the initial step of removing the solvent to move out of the solution under higher pressure conditions than they are generally in connection with the

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Z «l« bAMag «n shown in Pig« 2 would be applied. Di · Orundlagea » the Wi application duag you have higher operating pressures * «

are essentially identical to those described above * ■ but the device used would be slightly different "

as far as the introduction of the we "concerns" the do of the vas- »Erature or driving force required to the desired value Let us borrow and take care of the material and the necessary equipment. To a «better Veratindaia this one A preferred performance is now on Pig. 3 Β ·· say

In Pig. 3, the flatness is introduced via a line 10a into the Xantalctgeber 12a old spray nozzles, where the space is divided into the pom «ine · 8f> rtthnebela l * a) a Puape 11 lies in the line 10a, among other things in the line 10a the necessary positive pressure is maintained] the nail · «Oeee are introduced into the contactor 12a via the line 20a. the "modified into one for automatic operation" is activated, in which the fuel 73 is burned in a Xajsaer 70 svm drive of a daeturbine 72 "which in turn drives a Ltiftkoapraaaar 7k , among other things compressed air 71 of the plant suxufunren * whereby the emerging Combustion gas contains substantial amounts of air. The ·· Oa ·· are • inaa Maehvarbrewnungaabaohnitt 96 xugeftthrt, in the sualtsll · rather fuel is introduced and burned to create a helper oasis, the excess air only in less

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Amount contains · ». Dl · ·· aase are then under pressure * the inner » are half controlled by wide boundaries lotast »like auoh the temperature of the oasis can be controlled within a wide range ■ 1st. With this system, aas old temperatures in the orölenorder of even 1,650 ° C and a pressure of 45 kg or more less, depending on the requirements «. These aase are fed into the contactor via line 20a, in which the liquid supplied via the line 10a celt touch. The oasis, which is still under Druok, but

As a result of the spray mist evaporating from the liquid stream

have cooled down, moisture that they encounter in the contact, / gelan * gene via a line 23a in a liquid vapor separator 30a. The liquid introduced into the contactor 12a is introduced at a single speed, daft sloh in Bodenabsohnitt of the contactor 12a builds up liquid. This fluid build-up is indicated by the reference number 22a marked. The building up in the contact giver 12a ^ Excess liquid is via a line 24a withdrawn via a valve 26a with a level control which is preset so that a given in the contactor 12a Fluid level is maintained. The level control 8o acts in a manner known to those skilled in the art and it is their job to keep the liquid in the contactor 12a on a keep the desired height eu, so that the hot combustion gases from the line 20a ^ do not reach the contactor via this path ' being able to leave. By reducing the amount of introduced through line 10a Liquid and the amount of heat that is supplied to the line 30a via the two combustion gases, adjusted be, IKSt down the concentration of the contactor

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At

12a control the liquid leaving the pipe 2% a. In some applications this becomes concentrated liquid. Recyclable material · such as living products that contain profitability noticeably increase the procedure

Although the solution introduced via the line 10a may contain sufficient volatile substances that, upon removal the solution of what is going on in the contactor 12a » can lead to a failure of the lustful substance So there are no fillings, since the concentration takes place essentially in the absence of heat escaping. Any? Precipitation can be discharged continuously with the concentrate via line S * a will·

In the separator 30a, every item that has been taken along is removed and runs back to the contactor 12a via the line 32a.

The oasis emerging from the separator 30a is always standing still under one positive «! Pressure and arrive via the line 3 * s into a second contactor 36a. In this contact, the gases introduced into these are further sprayed with liquid, which is thinned and warmed for further heat treatment are mul · In the drawing, three are separated from each other Points drawn in at which the liquid is introduced into the contactor 36a. One of these lines carries the reference number 52, since they are the ones from the contactor 36 of Fig. 2 can absorb escaping liquid. This is Jetoeh optional. The other lines may contain liquid «,

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which "is expected in mid-temperature" and "in" further line can contain cold Boh liquid. The lines are denoted by the symbols 52a ¹ and 52a ¹ *

The bottom of the contactor 36a is thinned under pressure » awakened fluid drained away, you can only see it living WariMbabJtadliing is suitable »Sine level control S2a * regulates this open and close the valve "26" in the line 24 ** lies and the flow of the liquid from the contact animal 36a regulates you abgenoerane from dea Koataktgefoer 36a Liquid runs through a line 28a * into a separator 30 ** and everything contained in the overhead liquid Firelight residue is separated in these and Iuft over the Line 32 * 'in the contactor 36a to Uok · Bin ü & ekdruekventil 84a controls and regulates the rate of oas delivery the pressure of the line going out from dea separator 20a * 34a * and controls the printout of the system, generally known » Bleach lines. One will recognize at this point that that The procedure can be modified in this respect "in that the liquid and the oas are passed through further contactors" as described above. Furthermore, the devices shown in FIGS. 2 and 3 can advantageously be in series or used in parallel, whatever the circumstances encountered depends.

A further understanding of the advantages that can be obtained by following the 4 " implementation of the invention" follows from the following examples.

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example 1

Zn the contactor 12 are over the line 20 fire gases • In, which arise from a combustion of methane with 50 % excess air. The resulting fire gases have a temperature of 200 °. Likewise, raw seawater at a temperature of 21 ° is sprayed into the contactor 12 via the line 10. The amount of seawater introduced is adjusted so that in the contactor 12 there is a consentrate 22 which contains 25 Qew.-ji FeststetLe at a temperature of 100 °. For every 0 * 635 kg of raw seawater which sntttt 3 * 50 ow.-ji of completely dissolved solids (0.126 % CaSO ^), there is a yield of 0 * 544 kg of fresh, quenched steam. In addition to this water content, however, water is produced by the combustion of the methane, so that every 0.45 kg of methane - stoichiometrically - results in 0.998 kg of water. Correspondingly, the combustion of 1 kg of methane each and the introduction of the fire gases originating from this into the contactor 12 at a temperature of 204 ° and the direct contact of these gases with the seawater, approximately 3 * 4 kg of water for each kilogram of methane used and each 1.4 kg introduced sea water This water occurs in vapor form at the temperature of the boiling point at atmospheric pressure of 100 ° This steam is given via the line 28 into the separator 30 and from there into the contactor 36, where it meets additional sea water , which is fed into the contactor 36 in the form of the spray 38. Approximately 28 * 6 kg of raw seawater is added for every kilogram of methane burned. This raw seawater has when fed into the contact

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encoder · 1 ·· η solid matter content of 3.5 ow.-jl. Under touch ■ it d «n fire gases and the« contained in dleac * »« ad duroh the management 7% suetre «eni« n Daayf becomes the vote Seewaeeer to a Feetetoff content of 3.16 aew .- * (0.11 *] f CUW ^) ▼ • riOnnt, wobti da * Se «w« M «r« In «TMifHimtar van 100 * wtlat. Dl · ··· «nrlmt ·« v «rAttsat · 8 # §κ« ιμγ Ho we * In Kontaktg «b« r 36 tngiwilt and can from the Ma ftbtr dl · Line 49 and dl · Puep · 50 in the alch »η · οη11 · 1« η4 · η treatment apparatus 52 are directed.

Belaplel 2

Methane In ELNEP modified for "tatlongren operating PlugseugdOaenturbine burned« · ο · da "is ereöglioht in · combustion at a pressure of k Ataoejdilrvn. As is customary in the operation of Maeehinen of this kind. An air Qberaohui is used in the combustion chamber. Additional fuel is fed into the air supply, which results from the burner and the Maohbrennerabohnltt, at 50 % . The light fire gases are directed into the Kaaeer 12a, where they meet the spray mist in the steam concentrate, the 5.6 ow, -ji solids at a temperature of 60 ° contains. The content of the hot gas introduced is regulated in such a way that the bottom of the contactor yields a final consume with a solid content of 25% by weight, with the concentrate having a temperature of 14% ° has «This temperature corresponds to the saturation * te» temperature of Waeeerdaapf during a combustion ed ruo Jc

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of 4 atmospheres. In relation to X Xg (KoI) of "methane" burned in an aircraft turbine, which is fed in via line 73 in FIG. 3, 291 kg of steam are generated during the spraying process occurring in contactor 12 ". This Saapf actually contains the preponderance of the heat of combustion of the methane «. This steam and the WKnM contained in * in addition to the Wlnae of the flue gases are passed via the line 28a into the separator 30a and from there via the line 34a into the contactor 36a. 52a * and 52a ¹ · are supplied · The resulting acquired, diluted currents sioh to the bottom of the contactor 36a at 4oa and are fed from there via the lines 24a * of the subsequent heat treatment apparatus.

Example 3

From the combustion of nethane under pressure in an aircraft jet engine, as described in more detail in Example 2, wtnae and material in vapor form are passed via line 34a into contactor 36a, where they in turn encounter colder currents, which are supplied via lines 52, 52a ⁹ and 52a **. Heat supplied via line 34a * and the material supplied are ^{absorbed by flows 52, 52a 1} and 52a ¹¹ , to be heated under pressure and at the same time diluted, to produce raw material for further heat treatment. While in Examples 3 and 2 the implementation of the invention was shown at a pressure above atmospheric pressure

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Those skilled in the art will readily recognize this invention ■ According to Torteil on the removal of thermal values from currents Can be used under yakuua conditions »where the cooling flow wire »is absorbed and thereby diluted.

One recognizes, of course, that when the combustion gases are imported under pressure in the last contactor »so there is the product ready for the subsequent heat treatment a tea perfection stands «which is above that which is Filling in the dissolved solids causes «their solubility "With rising temperature" then that part abnisat the solids "which is filled up" are removed from the liquid fraction by filtering "as shown in FIG. 3 101 is specified.

Claims ι

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Claims (1)

U42765 I. Terfsnrea cur treatment τοη applied f «et · • toff · containing liquid, whose LBsllohlcelt bit ■ Decrease the temperature in preparation for another one ¥ arB »treatment for the separation of the liquid thssefin sis the solids, characterized by the fact that the rubM ■ It is easy to get rid of "those in the" fine fabrics is less consolidated. 2 · Terfahrem n * oh Anspruoh X, dadureh g «ke« nsei «h · Net, that the liquid flow contained in the dissolved solids ait erwlratea Oas in intimately ummedteltere lerlhn «g fsbraent becomes, dmdureh aind «ns a part of the liquidea L» - svmgsaittele is evaporated and dss Qas and this · is this ·· «at» baltenen LOsungssdtteldlapfe in intimate unaittelb · * · Berthnsmg ■ it the first mentioned, the resolved stiffness eatSAl * temden liquid is brewed, whereby the sueret eMUnte Liquid is leaked, while part of the voa srtsdesto * · desi Daepf is condensed and the first mentioned filling rule ait We dilute the Daapf condensed on these catfish, webel the dejspf from the previous unnlttelbareA BerVhmstg de «emerged oas containing the dissolved solids, ltee4en FlOssigkelt stsesit. BATH 909810/0655 Vt 3. The method according to claim 2, characterized in that the liquid supplied to the various stages of the process contains various dissolved solids. 4. The method according to claim 2 or 3 # characterized that it is carried out at above atmospheric pressure *. 5. The method according to claim%, characterized in that the wime at above atmospheric pressure The liquid is added to the process by burning clay fuel in a QasturbinendUsensolne of Aircraft type is fed and that heated the process added by the introduction of air at Ataosphlrendruok the air is compressed and the fuel is above atmospheric pressure lying pressure is burned and the products of combustion are passed from the turbine under pressure into intimate direct contact with the liquids, wherein the contained aas and the solution needles from the first stage at pressures above atmospheric pressure in intimate direct contact with the first-mentioned liquid to be brought. 6. The method according to claim 5 # characterized in that the one in the aircraft-type gas turbine nozzle machine Introduced fuel is supplied in two stages, the first of these stages being upstream of the gas turbine and the second of these stages downstream of the gas turbine lies· 9 ÖS 8 10/0655 BAD % S U42765 7 “Procedure similar to any of the previous ones Claims, characterized in that the liquid is a liquid containing aqueous dissolved solids is 8 »procedure naoh Anapruah 7» marked by this net that the liquid is bodies of water, brackish water, or sewage Industrial waste 1st. 9. Procedure according to any of the preceding Claims, characterized in that the fluid is heated will, after its nitrogen content, burn off the solvent from her has been reduced to this Vuiee » BAD ORIQINAL 909810/06 Ρ 5