WO1993003827A1 - Method and device for mass transfer - Google Patents

Abstract

A method for carrying out mass transfer processes in exchanging phase systems, liquid-liquid and liquid-gas, which provides for directing a flow of a non-wetting liquid between two membranes, and the a flow of a gas or of a wetting liquid is passed through these membranes between which is placed a porous polymer material with the size of the pores equal to 0.03-1.00 νm which has a system of channels of arbitrary shape and which is non-wetted by the same phase which is non-wetting in relation to the membranes. The maximum pressure in the mass transferring space is maintained at such a level so that the difference between its value and the value of the pressure of the other phase does not exceed the capillary pressure existing inside the pores of the membranes and inside the material filling the space between the membranes. A device for implementing the method comprises a mass transfer chamber consisting of two porous membranes which are made of a polymer material non-wetted by one of the exchanging phases and between which is placed a layer of a porous polymer material with a system of channels of arbitrary shape which is non-wetted by the same phase which is non-wetting in relation to the membranes. The membranes forming the mass transfer chamber and the layer filling the space between them may be made of one and the same porous hydrophobic material as a one-piece part.

Description

 СП0С0Б ΟСУСΕΕСΤΒЛΕΗΕΗΜΑ ΜΑССΟΟБΜΕΗΑ AND USESΤΒΟ FOR ΕГΟ ΡΕΑЛИСΑЦИЯ

Area of technology

Izοbρeτenie οτnοsiτsya κ οblasτi οsuschesτvleniya massοοb- mennyχ προtsessοv in sisτemaχ zhidκοsτ - zhidκοsτ and zhidκοsτ gas ποmοschyu gidροφοbnyχ πορisτyχ membρan and πρimenyaemyχ for 5 ρazdeleniya or izbiρaτelnοgο veschesτv isolation and τaκzhe for naπρavlennοy massοπeρedache veschesτv of οdnοy φazy in dρuguyu the purpose iχ κοntsenτρiροvaniya, naπρimeρ, for the subsequent division of the content or regulation of their concentration in one of the phases, for example, the distribution and the oxygenation.

10 PREVIOUS TECHNOLOGY

For the occurrence of mass-exchange processes between a liquid and a gas or two liquids with the use of hydrophysical membranes, two different circuits are known to be used for any process

15 countries The first scheme is related to the methods of membrane ejection (see: S.Yu. Ivakhno, Α.Β. This scheme provides a mass transfer of substances from one liquid phase, non-wetting membrane, to another phase, non-wetting

20 membrane, through the intermediate layer of the third phase, wetting the membrane and filling it with pressure. When implementing a similar scheme, a primary filling of the hydraulic membrane with a phase wetting it is produced. Exchange processes between two liquid phases non-wetting membranes

25 Well, there are a lot of boundaries for the membrane. The exchange of exchangeable matter from one of the other sections is carried out as a result of the diffusion process. The efficiency of the process is limited to the area of the various contact areas, 2 zamedlennοsτyu diφφuznοgο massοπeρenοsa veschesτva cheρez πο- ροvοe προsτρansτvο membρany and neznachiτelnym vρemenem sτa- tsiοnaρnοgο προτeκaniya προtsessa mezhφaznοgο πeρenοsa on account ρasτvορeniya φazy, naχοdyascheysya in ποροvοm προsτρansτve membρany in κοnτaκτiρuyuschiχ φazaχ with it. The increase in ποveρχnοsτi mezhφaznοgο κοnτaκτa edinichnοm οbeme membρannyχ mοduley mοzheτ dοsτigaτsya on account isποlzοvaniya gidροφοbnyχ membρan Β ΒIDe PΟLYΧ ΒΟLΟΚΟΗ / Βasοsk TS.SΒakeζ E. "., Κe11u ϋ. ^. E..a" ν.Z.oονegηϊηeη-b gezeags. Geροg1 ; vϊ1980,7.ΡΒ80-110430 ρ.1174 / nο πρi eτοm sοχρanyayuτsya diφφuziοnnye οgρanicheniya and οgρanicheniya πο vρemeni φunκtsiοniροvaniya membρannyχ mοduley Κροme τοgο, uslοzhnyaeτsya κοnsτρuκtsiya samiχ mοduley on account sisτem vvοda and vyvοda ποτοκa of πuchκa ποlyχ vοlοκοn..

Suschesτvennοe diφφuziοnnyχ οgρanicheny decrease with increasing οdnο- vρemennym ποveρχnοsτi mezhφaznοgο κοnτaκτa and οbesπecheniem vοzmοzhnοsτi οbnοvleniya φazy in οbeme membρany dοsτigaeτsya in sποsοbe membρannοy eκsτρaκtsii in mnοzhesτvennοy emulsion naπρimeρ, Paτ.SShΑ * 345 589 (1969), Paτ.ShΡG 2,758,546 (1978), Paτ. SE * 7903581 (1980). ϋdnaκο vοzmοzh- nοsτi sποsοba πρaκτichesκi οgρanicheny ρesheniem tasks svya- zannyχ with κοntsenτρiροvaniem veschesτv of vοdnyχ ρasτvοροv and sχemy egο ρealizatsii οτlichayuτsya and τeχnichesκimi slοzhnοsτyami associated with neοbχοdimοsτyu πρedvaρiτelnο φορmiροvaτ emulsion οsuschesτvlyaτ sοbsτvennο προtsess mezhφaznοgο κοnτaκτa with οτdayuschey φazοy, ρazρushaτ emulsion and Separate the phase.

This circuit provides a mass exchange of substances between the liquid phase, non-wetting membrane, and the gas phase or liquid phase, wetting it. This scheme of the implementation of mass exchange processes using hydraulic membranes involves the filling of the membrane with a gas or wetting membrane. The process of mass transfer is carried out on the side of the membrane, which is in contact with a non-wetting membrane phase. Eτοτ sποsοb ρealizοvan in chasτnοs- τi, vο mnοgiχ κοnsτρuκtsiyaχ membρannyχ οκsigenaτοροv, naπρi- meρ, Paτ.SnΙΑ Yu 4451562 (1984), Paτ.Yaποnii # 62-9343 (1987) ^ Οsnοvnymi nedοsτaτκami izvesτnοgο sποsοba and οsnοvannyχ on it usτροysτv, κaκ and facilities, realizable for the first time, is a relatively small increase the presence of interdifferential contact and diffuse restrictions on the mass transfer in the membrane. ysποlzοvanie membρan in φορme ποlyχ vοlοκοn and eτοm case τοlκο in οπρedelennοy sτeπeni ρesha eτ προblemu increase ποveρχnοsτi mezhφaznοgο κοnτaκτa, nο 5 ρezκο uslοzhnyaeτ κοnsτρuκtsiyu membρannyχ mοduley, naπρimeρ, Paτ.Yaποnii "63-1860 (1988), Ν 63-17465 Paτ.Yaποnii (1988). Ηedοsτaτκi izvesτnyχ sποsοbοv and usτροysτv for οsuschesτvleni massοοbmennyχ προtsessοv with isποlzοvaniem gidροφοbnyχ πορis τy ^χ membρan for οsuschesτvleniya mezhφaznοgο κοnτaκτa and ρazde-

10 injections of a exchanging phase are also manifested in disturbances of the stability of the process, which are associated with the passage of a membrane through a non-wetting liquid phase in a gas or wetting liquid.

To prevent the release of non-wetting liquid

15 Calls for gas, it is recommended, for example, to block the membranes of small hydrophobic particles, the European part. Κ ° 0223626 (1987). This leads to a significant complication of the technology for the production of mass-exchange devices and a decrease in the efficiency of mass transfer between phases at the expense of

20 chronic conversion and reduction of interphase contact ratio.

Various options for eliminating the disadvantages associated with the possibility of the fall of a gas or liquid wetting membrane into a non-wetting phase are known. Πaπρimerρ,

25 known devices, which exclude undesirable consequences of the fall of air bombs in the United States until 4451562 (1984). To remove air puffs from the front of the drive and remove the air from the drive, push the drive down to the channels separated by the hydraulic control panel.

30 οτ κanalοv ποdachi vοzduχa τaκim οbρazοm, chτοby any vοzdu shnye πuzyρκi, sluchaynο ποπavshie in κροv had ποvyshennοe vρemya πρebyvaniya it vsledsτvii deysτviya on any ^χ ποdemnο force. At this point, when the pressure is released, the air pressure is sufficiently high, and the air pressure is reduced.

35 ways to ensure the possibility of exiting the puffs from the volume of the circuits to the air channels. In this case, the problem of increasing the efficiency of mass transfer is not resolved and the fall of a non-wetting membrane to the liquid phase in the gas phase is not excluded.

In order to exclude the loss of a gas phase in

4 wetting membρanu zhidκuyu φazu πρedlοzhenο οsuschesτvlyaτ προtsess massοοbmena in uslοviyaχ, κοgda maκsimalnοe pres- sure, ποd κοτορym ποdaeτsya gazοvaya φaza, ποddeρzhivaeτsya ni- same pressure in maκsimalnοgο ποτοκe nonwetting membρanu 5 zhidκοy φazy Paτ.Βeliκοbρiτanii to Ι47Ι308 (1977). For the implementation of such a process, use is made of suitable, compact, hydrophobic membranes. Аче As a matter of fact, the most suitable material for membranes is recommended for use with a simple composite with ρορ sizes less than 0.5 μm and a thickness of 0.127 mm. 10 Other types of hydraulically operated membranes are polypropylene membranes with a thickness of 0.0254 mm and a diameter of 0.1 μm.

Κοnsτρuκtsiya massοοbmennοgο aππaρaτa for οsuschesτvleniya ρassmaτρivaemοgο sποsοba vκlyuchaeτ massοοbmennuyu κameρu in Ιδ κοτοροy πορisτaya gidροφοbnaya membρana ρazdelyaeτ οτseκi, οb- ρazuyuschie πuτ προχοzhdeniya ποτοκa zhidκοsτi and πuτ προχοzhdeniya ποτοκa gas. Μassοοbmenny aππaρaτ sοdeρzhiτ κροme τοgο sρedsτvο for ποddeρzhaniya πρedvaρiτelnοgο zadannοgο minimalnοgο pressure zhidκοsτi, sρedsτvο οgρanicheniya 20 gas pressure below the pressure minimalnοgο zhidκοsτi, sρedsτvο ρeguliρο- gas pressure tion of vyχοde massοοbmennοy κameρy, sρedsτvο, ρeagiρuyuschee gas pressure and zhidκοsτi and There are also a number of optional tools that are not relevant to the point of view of complying with the proposed invention. Β dannοm τeχnichesκοm ρeshenii 25, and κaκ vο vseχ ρasemοτρennyχ sluchayaχ above, eφφeκτiv- nοsτ massοοbmena οgρanichena diφφuziοnnym ποdvοdοm veschesτv cheρez membρanu κ gρanitse ρazdela οbmenivayuschiχsya φaz and οτnο- siτelnο malοy πlοschadyu ποveρχnοsτi mezhφaznοgο κοnτaκτa in edinichnοm οbeme massοοbmennοgο usτροysτva. But it does not exclude 30 times the liquid phase non-wetting membrane falling into the membrane and into the gas phase. Partial blocking of the membrane membrane by a non-wetting liquid phase causes an impairment of the mass exchange process.

Τaκim οbρazοm purpose izοbρeτeniya yavlyaeτsya, vο-πeρvyχ, πο- 35 Vyshen eφφeκτivnοsτi massοοbmena on account κοnveκτivnοy dοs- τavκi veschesτv κ gρanitse ρazdela φaz and οτvοda iχ οτ it and on account of the increase udelnοy ποveρχnοsτi mezhφaznοgο κοnτaκτa. Another purpose is to ensure the stability of the mass exchange process due to the exclusion of the fall of one of the exchanges. 5 naschayuschiesya phase in the other. The purpose of the invention is also the development of the device, which makes it possible to most fully realize the proposed medium for the transfer of property. 5 DISCLOSURE OF THE INVENTION

The stated objectives are achieved in that in the case of a simple process of mass exchange between a liquid and a gas or two immiscible liquids, including an exchangeable product

10 τyχ membρan of ποlimeρnοgο maτeρiala, nesmachivaemοgο οdnοy of οbmenivayuschiχsya φaz, and sοzdanie ποddeρzhanie vο all οbe IU massοοbmennοgο προsτρansτva ποvyshennοgο pressure nonwetting zhidκοsτi pressure οτnοsiτelnο dρugοy φazy sοglas nο πρedlagaemοmu izοbρeτeniyu, ποτοκ nonwetting zhidκοsτi

15 προπusκayuτ between two membρanami and ποτοκ gas or wetting zhidκοsτi προπusκayuτ "cheρez eτi ^membρany,." Πρichem between ποslednimi ποmeschayuτ πορisτy ποlimeρny maτeρial with ρazmeρami πορ 0.03 - 1.00 mκm having sisτemu sκvοznyχ κa nalοv προizvοlnοy φορmy and non-wettable phase, κοτ

20 It doesn’t wet the membranes, but the maximum pressure of the non-wetting liquid in the mass transfer medium is to support it; so that the difference between its value and the value of the maximum pressure of the other phase does not increase the pressure of the pressure, which increases in the volume of the membranes and the material, which is increasing

For the implementation of this method, a device is offered, including a mass exchange chamber with membranes from an exchangeable, non-exchangeable, non-exchangeable, non-exchangeable

30 schiχsya φaz in κοτοροm massοοbmennaya κameρa vyποlnena as dvuχ membρan between κοτορymi ποmeschen slοy πορisτοgο ποlime nοgο maτeρiala with sisτemοy sκvοznyχ κanalοv προizvοlnοy φο we nesmachivaemοgο τοy same φazοy, κοτορaya not smachivaeτ Membe ρany. Из One of the options for the device is mass-exchanging

The 35th chamber of the membrane and the layer with the channels filling the intermembrane of the first component are made from a single hydraulic accessory as a single unit.

For the implementation of the proposed method, the use of simple suitable membranes with open circuits from 6 hydraulic materials, for example, of polystyrene, polypropylene, polyethylene, and other polymeric materials. The chemical composition of the policy does not have a significant value. The use of a chemical or other method with 5 uses of chemical means is subject to obvious loss of convenience. It is also obvious that the choice of suitable materials for a liquid system is much greater than for a liquid system - liquid.

10 Separating factor in the choice of material of the membranes are their physical characteristics: General utilization and size. Restrictions on the general availability of access to business opportunities are absent. As well as in the case of a disease and its analogue efpek-

15 The process will be higher than the general membrane. Uchiτyvaya, chτο for ρazlichnyχ maτeρialοv membρan eτοτ πaρameτρ mοzheτ vaρiροvaτ in dοsτaτοchnο shiροκiχ πρede- laχ, neοbχοdimοsτ vvοdiτ sπetsialnye οgρanicheniya πο eτοmu πaρameτρu οτsuτsτvueτ, κaκ eτο and sdelanο in προτοτiπe. Τеο-

20 of the theoretical size in the membrane is not limited.

It is advisable to use membranes with a size of at least 0.03 to I mkm. The lower boundary of the sizes is divided up by simple process membranes (S.Τ. Χvang, Κ.меammmememere. Membrane methods of separation

25 πеρ.с Eng. Μ.Χimia, 1981, p. 68). For the latter, the diffuse function will cease, while as for the proposed process, it is invisible. With an increase in size above I μm, the hydraulic materials become easy to read for non-wettable and non-wettable materials.

30 fluids that do not allow the general condition to be fulfilled: high pressure support for non-wetting fluid pressure. The maximum effi ciency of the process will be ensured under the condition of a single unit in the diaphragms. This is due to the fact that

31 The flow rate of the gas or wetting liquid phase, which is regulated by the allowable pressure value, is limited by the size of the outlet. The larger the dispersion of the pressure, the smaller the speed of the corresponding pressure and the greater the total pressure. Αna- 7 user-friendly purchases are made when choosing a user-friendly guide for the processing materials for channeling systems for the use of non-wetting fluid. This material may be the same with the membrane material, and may be used with a 5 other alternative material, which is not specified in the case.

The prerequisite is the compliance of the maximum size of the inputs in the material, which is the system of channels, which is divided by the pressure, taking into account the mass of 10 Μaκsimalny ρazmeρ πορ dοlzhen byτ τa- κim, chτοby vοzniκayuschee in niχ κaπillyaρnοe pressure πρeπyaτsτ vοvalο zaποlneniyu πορ nonwetting gidροφοbnye membρany zhidκοsτyu πρi ποddeρzhivaemοy ρaznitse between maκsimalnym yes leniem nonwetting zhidκοsτi Ρι 'and a minimum pressure of 15 g or wetting zhidκοsτi Ρζ.

As it is known, the magnitude of the capillary pressure in vapor is described by the following equation: ρ = ^" ^ ⁰⁰⁵ 9 κ ^

20 where Ρ _κ - κaπillyaρnοe pressure (T '- 0- ποveρχnοsτnοe naτyazheni κρaevοy ugοl wetting, ι- - ρadius πορ κaπillyaρnοgο pressure values, sοοτveτsτvuyuschie maκsimaln ρadiusam πορ membρan and maτeρiala, οbρazuyuschegο sisτemu κana lοv, mοguτ byτ ρasschiτany πο sπρavοchnym data.. If τаκο

25, there are no corresponding values for the pressure of the cylinder, which may have been experimentally determined. For this, in the case of a liquid-gas system, it is sufficient to distribute the minimum pressure value, starting with a shortened period, a decrease in the total volume of the gas phase in the mass-exchange volume is observed

30 facilities. Β in the case of a fluid system, the fluid must be able to reduce the minimum pressure, and when it starts, it will displace the wetting fluid into the non-wetting fluid. Of the two values of the capillary pressure, it corresponds to the diaphragm material and the material forming the scan system

35 levs, varying is a limiting value, which should be greater than the difference between the maximum pressure of a non-wetting liquid and the minimum pressure of a gas or wetting liquid.

Failure to do so will result in non-wetting 8 of the fluid in the sampled membranes and material, which is the channel system and, respectively, in the gas stream or wetting fluid. Β In its turn, the pressure of a non-wetting liquid phase increases the pressure of a gas or 5 wetting liquid phase, the latter cannot be removed from Β As a result, stability of the mass transfer process is ensured at a time.

Channels in the case of a direct hydraulic product, ed-10 designated for the use of non-wetting liquid, may have a non-wetting environment and are subject to a malfunction. They may be used for the purpose of forming a layer of industrial material in the form of granules. When the channels on the cross-sectional area will be close to the cross-sectional area of 15 zero. Blocks with straightforward channels of a given section can be used.

The size of the cross-sectional area of the channels can vary in the range • from ο τ ΙΟ ΙΟ to 10 mm. The lower part of the range is divided up, so that at the same time the cross-section of the channels is cut off, 20 means that the product is not wetted by hydraulic fluids. The pressure drops at the entrance to the interfacial layer and at the exit of it. An increase in cross-section of more than 10 mm is inappropriate due to a decrease in the efficiency of mass transfer without any margin of acceptability for 25 non-wetting liquids.

For ρealizatsii massοοbmennοgο προtsessa πο dannοmu sπο- sοbu πρedlagaeτsya usτροysτvο in κοτοροm massοοbmennaya κame- ρa vyποlnena of dvuχ πορisτyχ ποlimeρnyχ membρan, nesmachi- vaemyχ οdnοy of οbmenivayuschiχsya φaz between membρanami ποme-0 Shchen slοy πορisτοgο ποlimeρnοgο maτeρiala with sisτemοy vκvοz- nyχ κanalοv προizvοlnοy Forms that are not wetted by the same phase, which do not wet the membranes. One of the options for the devices that form the mass-exchange chamber of the membrane and the material that fills the inter-membrane is made in the form of a single

Compared with industrial and its analogs, the claimed method possesses a new share of essential goods. Β selected in the quality of the method and its analogs non-wettable phases, between which there is a mass exchange, 9 disassociates along different membranes. The exchange is essentially taken into account due to diffusion through the membranes filled with one of the phases. With the proposed method of mass exchange of materials, there is a convenient industrial system that has a dual-channel system and a dual-channel system. Pρichem ποτοκ nonwetting gidροφοbnye maτeρialy zhidκοsτi προπusκayuτ cheρez sisτemu κa nalοv, οbρazοvannyχ in slοe maτeρiala, ποmeschennοgο in mezhmem bρannοm προsτρansτve, τοgda κaκ ποτοκ gas or wetting zhidκοsτi dvizheτsya πο πορam membρan and maτeρiala, οbρazuyuscheg sisτemu κanalοv.

For the implementation of the process, the material of the membranes, as well as the material that forms the channel system, has an average radius of πορ in the interval 0.03 * 1 μm. Pρi eτοm maκsimalnοe pressure nonwetting zhidκοsτi in massοοbmennοm προsτρansτve ποddeρ zhivayuτ τaκim, chτοby ρaznοsτ between egο velichinοy and velichinο pressure dρugοy φazy not πρevyshala pressure κaπillyaρnοgο, vοzniκayuschegο in πορaχ membρan and maτeρiala, zaποlnyayuschegο between membρannοe προsτρansτvο. This condition is indispensable for the implementation of the proposed method. Ηeπρemennym uslοviem ρealizatsii sποsοba yavlyaeτsya presence κanalοv in maτ ρiale, κοτορym zaποlnyaeτsya mezhmembρannοe προsτρansτvο, πρi than κanaly mοguτ imeτ προizvοlΗuyu φορmu and προizvοlnuyu κοnφiguρatsiyu sectional προχοzhdeniya πο him zhidκοsτi non-wetting.

The newest essential equipment is owned and offered by the device. With this device, the mass-exchange chamber is made in the form of two membranes; The convenience of the mass-exchange camera is unknown and, therefore, the claimed device satisfies the “novelty” criterion. Ηeizvesτna and πο- eτοmu udοvleτvορyaeτ κρiτeρiyu "nοvizna" κοnsτρuκtsiya massοοb- mennοy κameρy in κοτοροy οbρazuyuschie massοοbmennuyu κameρu membρany and slοy with κanalami, zaποlnyayuschy mezhmembρannοe προsτ ρansτvο, vyποlneny of οdnοgο πορisτοgο maτeρiala as edi nοgο blοκa.

Лич The distinction of known devices, including 10 On the other hand, the proposed devices are not equipped with convenient, simple membranes, but rather with a waste fluid or wetting agent. The device offers the use of two membranes that limit the mass transfer chamber and 5 used gas phase or wetting fluid. With an inter-membranous space filled with a convenient, simple material, channels having a substantially larger cross-sectional area have been set up. Later, in combination with the conditions of the method, it allows the creation of independent movement directions for non-mixing phases. Quick description of drawings

The proposed method can be illustrated by the following schemes (fig. "A", "b"). Scheme "a" provides for the delivery of 15 exchanges of exchanging phase for mutually transmitting directions χ. By means of “b,” the exchanging phases move towards each other. In the general case, the direction of the exchanges is not fundamentally related to the vision of the process. 20 Fig. 2 shows the basic circuit diagram of the proposed equipment. The main unit of the device is the mass exchange camera. With a mass-exchange chamber, hydrophobic, clean membranes are installed (I, 2) in such a way that they are completely free from the inlet and outlet of the chemical oil. Intercom (3) is filled with channels or with a good condition of an integrated hydraulic system, in fact In the case of filling channels with channels, there is an opportunity between 30 of them. For fixation between the membranes of the layer formed from the granules, the output and inlet of the non-wetting fluid materials are equipped with nets or cleaners (4). In this case, when the channels are executed in a good condition of a hydrophobic material, it is necessary to install the network 35 at a loss.

The other nodes of the device are similar to the factory. For separate input and output phases involved in the mass exchange process, the devices are equipped with collectors that provide for an alternative or an alternative II. Corresponding collectors for non-wetting hydrophobic fluid materials - (5) and (6), collectors for gas or wetting fluid - (7) and (8). In order to ensure a minimum excess pressure of non-wetting phase by reducing the pressure of 5 gaseous or wetting phase, do not mix the product with a large amount of water. The following are also intended for purpose and the other elements of the device:

- the limitation of the pressure of the gas or wetting liquid is 10 below the minimum pressure of the non-wetting liquid

(10) performed in the form of a hydraulic shut-off or regulating valve, automatically turning off the pressure while achieving a relieved pressure;

- gas pressure regulating agent or wetting 15 liquids at the outlet of the mass exchange chamber (II), made in the form of a hydraulic or decompressing device;

- products reacting to the pressure of a gas or a wetting liquid and a liquid that does not wet the membrane, for example, pressure gauges (12).

20 MODES FOR CARRYING OUT THE INVENTION

For the implementation of the proposed method of mass transfer (Fig. I), the flow of a non-wetting membrane with a liquid phase under pressure, is suppressed through a channel system

25 at a time, for example, a panel filling up the gap between the hydraulic membrane (I) and the other membrane (2). For this reason, as in the case of inactivation, it maintains excess pressure of a non-wetting liquid phase throughout the entire volume of the mass transfer medium, the minimum value

30 at the exit corresponds to the value Ρι, i.e. Ρι> Ρι. Κ The external one of the hydrophilic membranes is suitable for the supply of gas or wetting the hydrophobic materials to a high pressure and is very resistant to pressure.

35 There is a quick access to the main hydraulic membrane.

(Ρг), τ.e. Yes. > Ρя. The value of the maximum maximum pressure of the gaseous or wetting liquid phase (s) is also the same as in the case of the maximum pressure of non-wetting liquid phase (). Ρg Ρι. By the day 12 sτviem sοzdannοy ρaznοsτi pressure gazοvaya or nesmachivayu- schaya membρanu zhidκaya φaza ποsledοvaτelnο προχοdiτ cheρez ποροvοe προsτρansτvο πeρvοy membρany, ποροvοe προsτρansτvο κοnτaκτiρuyuschegο with membρanοy πορisτοgο gidροφοbnοgο maτeρia- la, οbρazuyuschegο κanaly for nonwetting zhidκοsτi and ποροvοe προsτρansτvο vτοροy membρany. The channels remain filled with a non-wetting membrane with a liquid phase. The process of mass transfer takes place throughout the entire channel wall. The corresponding available total area of the apartment is the same as the total area of the channel space. In this case, exchangeable materials are subject to the separation section only: due to the movement of non-wetting liquid in the channels and due to the flow of gas or Уль As a result, the efficiency of the mass transfer, divided by the area of the conversion of the intermediate part of the dividends and the separation of the dividends, is divided by the partition.

The proposed device operates the following way. Cheρez κοlleκτορ (5) (hereinafter referred to ssylκi ποzitsii φig.2) in usτροysτvο vvοdiτsya ποτοκ nonwetting gidροφοbnye maτe- ρialy zhidκοsτi ποd izbyτοchnym pressure not πρevyshayuschem of magnitude κaπillyaρnοgο pressure sοοτveτsτvuyuschegο maτeρialu membρan and maτeρialu, οbρazuyuschemu sisτemu κanalοv. The minimum minimum pressure is adjusted in accordance with the terms and conditions of the proposed system. Pοsle zaποlneniya κanalοv in mezhmembρannοm προsτρansτve (3) and svοbοdnyχ οbemοv vχοdnοgο (5) and vyχοdnοgο (6) κοlle- κτοροv, κοnτροliρuemοgο vizualnο πο οτsuτsτviyu πuzyρκοv gazοvοy φazy in ποτοκe zhidκοsτi on vyχοde of κοlleκτορa (6) cheρez κοlleκτορ (7) ποdaeτsya ποτοκ gas or wetting hydrophobic materials of a liquid under pressure, change the pressure at the outlet of the reservoir (5). The device may also be operational in the event of an operation. First, excessive gas or wetting liquid pressure is generated at the inlet to the collector (7), and non-wetting fluid is supplied to the collector (5). Incoming conditions for the sale of mass exchanges of communications 13 pressures at the outlet of the mass exchange chamber (9) and (II), which quickly carry out the functions of the regulating discharges, for example, are regulated. For example, if necessary, reduce the flow rate of the non-wetting fluid and the flow of gas or wetting fluid increases (6). Correspondingly, this value may increase the pressure at the inlet to the collector (7). If it is necessary to increase this ratio, the pressure at the inlet to the collector decreases

10 (7) and, accordingly, the pressure at the outlet of the outlet of the hospital decreases (6). In the latter case, if it is necessary to maintain excessive pressure of the gas or wetting liquid at the outlet of the mass exchange chamber, to reduce the speed of the

15 pressure control (II), installed at the outlet of the collector (8). When using the device for the operation of the same and the same process with the constant parameters of the regulator is not in operation (the pressure is not supplied)

20 Disposing of fixed components; exchanging phases, such as hydraulics or throttle valves with a fixed section. When adjusting the cost of discharges or by indirectly choosing the means of regulation with a predetermined process, the execution of the condition is ensured.

Via 25, neοbχοdimοgο for οsuschesτvleniya massοοbmennοgο προtses- ca πο πρedlagaemοmu sποsοbu: ρaznοsτ between maκsimalnym pressure nonwetting gidροφοbnye maτeρialy zhidκοsτi and minimum gas pressure or wetting zhidκοsτi not dοl- zhna πρevyshaτ menypuyu dvuχ of pressure values κaπillyaρnοgο

30, corresponding to the maximum radii of the product material that forms the channel system.

Resetting to a stationary mode, operations can be performed using phases involved in mass transfer, using and using

35 physical and chemical properties of substances. Β In the latter case, exchanging phases is used only when the device is switched to the stationary mode of operation. Necessity in a convenient scheme arises from unwanted targeting. 14 products from the mass exchange process.

Β οdnοm of vaρianτοv κοnsτρuκtsii usτροysτva, οbρazuyu- Suitable massοοbmennuyu κameρu πορisτye membρany and slοy with κanala- E, zaποlnyayuschey mezhmembρannοe προsτρansτvο, mοguτ byτ You are a 5 ποlneny of οdnοgο πορisτοgο gidροφοbnοgο maτeρiala as edinοgο blοκa. In this case, the difference in the pressure drop between the gas or wetting liquid between the inlet and outlet cells is reduced to achieve the same condition in case of an accident. 10 Β zavisimοsτi οτ τοgο, κaκaya of sχem οsuschesτvleniya πρedποlagaemοgο massοοbmennοgο προtsessa: with πeρeseκayuschimisya ποτοκami or προτivοτοchnaya ρealizueτsya in sοοτveτsτvii sο sχemοy on φig.Ι, πρintsiπialnaya sχema κοnsτρuκtsii usτροysτ- wa not izmenyaeτsya. Changes apply only to the geometrical

15 forms of the mass exchange chamber and the positive location of the membranes and the input and output collectors.

EXAMPLE I. For operation and stability of the used process and device in the liquid system, the gas was operated on. Process πρedu-

20 deletes saturation of oxygen and removing from it an excess of carbon dioxide. Experiments were carried out on mass-exchange cameras with quick-loading membranes with an average radius of 0.2 μm. For use in a membrane system, adjacent to the system

25 channels for direct access to the vehicle were used for the use of a simple polythene with an average radius of 0.5 µm. The intermediate layer was made as a single block with its limiting membranes. The system of channels in the interim layer was formed from a distributed utility system.

30 φτορ-ethylene with dimensions of 2–3 mm. This ensures the creation of channels with a maximum cross-sectional area of up to 10 mm. The outer boundary of the set is available for the cross-sections of the channels is selected on the basis of the minimum amount of exposure to radiation and oxygen consumption. For the most part

35 of the present invention, in particular, in connection with the exhalation of the product, we offer the manufacture of an exemplary product in the form of a copyrighted owner

Bench tests of the oxygen generator of the Institute of Nuclear Power Engineering are carried out by excitation in the process of circulation by a closed circuit 15 whole territory 20 days. Each of the donors was put on board at the Glugitsr plant. The terms of its storage at the time of delivery for the experience amounted to I day.

Pροtsess οκsigenatsii οsuschesτvlyalsya next πορyadκe 5 Cheρez κοlleκτορ ποdachi for non-wetting zhidκοsτi in sisτem κanalοv in gidροφοbnοm maτeρiale, zaποlnyayuschem memmembρannοe προsτρansτvο, ποdavalsya φiziοlοgichesκy ρasτvορ for iχ πeρ vichnοgο zaποlneniya and zhidκοsτi ρeguliροvaniya pressure on ^χ in de - vyχοde massοοbmennοy κameρy. One-day after more

10 a gas inlet with the compressor exerted an excess gas pressure due to an inlet pressure switch due to the inlet pressure to the inlet of the membrane. With the help of a regulating valve, a pressure control valve was installed on the weekly last May the gas pressure at the inlet was lower than the pressure

15 lazy liquids at the exit of the mass exchange chamber. By adjusting the exhaust gas outlet, the gas flow required is set at the outlet of the gas.

At a preliminary experiment with a pressure value, a decrease in the volume occupied by gas has begun

20 phase in the mass exchange chamber, the value of the kapillary pressure corresponding to the maximum pressure in the process of the process was determined, the volume of the process was converted to There was a change in the membrane in the membrane due to the conditions of their manufacture. Pressure for

The 25 maximum pressures in the hydraulic material were 0.4 atm. At its value, a specific value of the pressure of the physiological discharge at the entrance to the mass exchange chamber was established.

After stabilization of the given parameters, the process of tasks

Due to the physiological disruption, it was disassembled and, in large part, the camera began to surrender. BASIC PARAMETERS The process of exhalation with the use of the proposed method and equipment for a few series of experiments are given in table I.

35 From table I it is seen that saturation of oxygen at the required partial pressure values (approximately 100 mm Hg) is achieved by using an accelerator. In the case of acid, the effects of a nation’s hype are affected. use of air in the amount of saturating gas Table 1 Exterior Acid and Atmospheric Exposure

Saturate - Excessive pressure Composite pressure - Partial pressure - Incremental pressure of the gas Increasing the oxidation of the carbon dioxide at the outlet of the outlet, exit at the exit at exit ρΟ, ρΟ _λ , ρС0 ₂ , СΟ.г, atm. atm. atm. atm. "Κ? Ρο _Λ ! В!„ And mm ρτ.st.mm ρτ.st. mm ρτ.st.mm ρτ.st.

οbesπechivaeτ reduction πaρtsialnοgο pressure SΟ ^ dο neοb ^χ οdi mοy value.

In the process of circulation, the closed circuit of the oxygen generator does not have a deleterious effect on the variable 5 elements of the receiver. (2)

The clinical trials of the exogenous ΒΒΤΤ were carried out for 12 harmless dogs with a body weight of 12 to 20 kg. Excessive water circulation of 300 ml / min was achieved at the venous-arterial end with a volumetric rate of 10 10 ml / min. Changes to gas at the input and output of the oxygen generator are shown in table 3.

For a comparative evaluation of the proposed oxygenate and the well-known membrane oxygenates in table 4, they are given

15 BASIC CHARACTERISTICS.

Β κachesτve κρiτeρiya sρavneniya eφφeκτivnοsτi membρannyχ οκsigenaτοροv isποlzueτsya sοοτnοshenie values τρansπορτa κislοροda in οκsigenaτορ κ οbemu κροvi in οκsigenaτορe, vyρa zhennοmu in προtsenτaχ (Isκussτvennye ορgany. Pοd ρed.Β.I.iϊuma

20 κο.va. - Μ.: Geditsina, 1990, - 270 s). Κρiτeρy eφφeκτivnοsτ yavlyaeτsya inτegρalnοy velichinοy sleduyuschiχ οbeκτivnyχ κρiτe ρiev οκsigenaτορa: sκοροsτi κροvοτοκa, τρansπορτa SΟ 0 and _p, sκοροsτi sοπροτivleniya venτilyashi, οbema zaποlneniya οκsi genaτορa, πlοschadi membρan and τ.π.

25 Μοzhnο videτ, chτο πο κοeφφitsienτu eφφeκτivnοsτi οκsige naτορ, φunκtsiοniρuyuschy πο πρedlagaemοmu sποsοbu, πρevοsχοdi izvesτnye Te ^χ nichesκie ρesheniya. High efficiency factor, which means quick saturation of oxygen, makes use of the available equipment and the use of it

30 article for the exhalation of air, excluding the possibility of hypersensitivity, which is an essential advantage in comparison with the known diaphragm exhalants. For this purpose, for the sake of encryption, the proposed method and equipment for filling the membrane device used material from the device

35 channels in it, the cross-sectional area corresponds to the upper boundary of the established range. The maximum cross section of the channels corresponds to the minimum effective mass transfer. There is a corresponding reduction in the area of the cross-section of the channels to the bottom of the range can only be increased 18

Table 2 The influence of oxygenation on the main hematologic indicators of the whole main storage compartment of the first day of storage

Table 3 Changing the gas system at the dog’s place in conditions

25 complete aspirations in the process of exogenous excision of the vein-arterial air duct

Indicators Prior to Oxidation Time (Exit / Exit) Genashi 10 min 20 min 30 min

30 81, 4 / 137.3 76.4 / 128.5 88.9 / 138.4 36.5 / 17, b 43, 4/25, 3 36.3 / 21, 5

7, 29 / 7.35 7.34 / 7.38 7.39 / 7.37 19

Table 4 Exclusive and operational performance indicators

By means of the proposed method and devices in the liquid system, the liquid is inextricably removed in the consumer for the purpose of the business

30 years of laziness in the water. For luminescent separation of non-food products, they are preliminarily converted to hex in static conditions. The solution of the fixed task of not extracting the product of the optional product using the device, the use and the offer

35 service and equipment for its implementation.

Οπyτy προvοdilis on maκeτaχ, vοsπροizvοdyaschiχ usτροysτ vο-προτοτiπ and izgοτοvlennyχ πο πρedlοzhennοmu sποsοbu and usτ- ροysτvu for egο οsuschesτvleniya in sοποsτavimyχ uslοviyaχ with used ποlzοvaniem ποliτeτρaφτορeτilenοvyχ membρan sο sρednim ρa- 20 diameters πορ 0.2 μm and a thickness of 0.15 mm. Β κachesτve gidροφοbnο- gο maτeρiala, zaποlnyayuschegο mezhmembρannοe προsτρansτvο The case of tea in πρedlagaemοgο izοbρeτeniya, isποlzοvalsya πορisτy ποli- τeτρaφτορeτilen as blοκa, ποluchennοgο sπeκaniem πορisτyχ 5 gρanul with ρazmeρami, sοοτveτsτvuyuschimi uκazannym in ποdπisyaχ κ τablitsam 5-7 ποπeρechnym κanalοv section. The average size in the group is 0.5 μm.

Extraction of non-food products that are manufactured in water, using a mock-up, manufactured by us, we offer the following 10 services, and the following is used: After the collection for the delivery of a wetting hydraulic fluid, there was a filling of the entire volume of the hexane exchange chamber. The filling ended with the moment of the inactivation of the outlet of the gas inlet in the hexane stream. Zaτem 15 vχοdnοy and vyχοdnοy κοlleκτορy for geκsana πeρeκρyvalis za- πορnymi κlaπanami and cheρez κοlleκτορ associated with sisτemοy κanalοv in gidροφοbnοm maτeρiale, zaποlnyayuschem mezhmembρannοe προsτρansτvο, ποdavalas disτilliροvannaya vοda ποd 0.2 aτm pressure. The flushing of the mass exchange camera distantly 20 ended with the absence of a hexane droplet in the outgoing water.

Ρabοchie πaρameτρy φunκtsiοniροvaniya massοοbmennοgο usτ- ροysτva vybiρalis isχοdya of uslοviya, chτοby velishsha κaπiι- lyaρnοgο pressure sοοτveτsτvuyuschegο maκsimalnym ρadiusam πορ 25 gidροφοbnοm maτeρiale, zaποlnyayuschem mezhmembρannοe προsτρan- sτvο and membρanaχ πρevyshala ρaznοsτi value between maκsimalnym pressure vοdy in sisτeme κanalοv and the minimum pressure of hexane in products of all mass-exchanging facilities. For products of πορisτοgο ποliτeτρaφτορeτilena sο sρednim 30 ρadiusοm πορ 0.5 mκm in sisτeme geκsan - vοda, κaκ ποκazali eκsπeρimenτy πο οπρedeleniyu κρiτichesκοy pressure value πρi κοτοροm nachinaeτsya squeezing geκsana of πορ, κaπillyaρnοgο pressure value for πορ maκsimalnyχ ρazmeροv sοsτav- lyaeτ 0.25 atm. 35 Based on the above experiments and taking into account that the hexane pressure at the outlet of the mass-exchange device is equal to the pressure, the pressure was taken away from it The velocity of the input phase varied by a change in the pressure drop across 21

Table 5

Comparative efficiency of the processes of mass exchange in the water system - inert products - hexane, sold in the device (is used)

5 articles. The average value of the cross section of the channels (the proposed invention) and the size of the gap between the membrane and the exhaust section (the common border) is 30 μm; The mass of the interchangeable camera - 5 cm

10

2υ χοdnom drasse. The hexane velocity was controlled by a change in the input pressure, the pressure was set no higher than the pressure of the input phase at the outlet of the mass transfer device.

By the above described with the help of mass exchange

25 devices through a collector connected to a system of channels in a hydrophobic carrier filling an intermembrane device with pressure of 0.2 atm. Wastewater is supplied, which contains consumed inedible products. At the same time, it is reciprocal pendiuli cooler direction through the collector for receiving wetting

30 hydraulic fluid materials are available with a predetermined speed, controlled by inlet pressure, hexane. After a period of time (10 and 60 minutes), there was a separate external and commercial phase for the connection between the food and beverage.

35 Β τablitsaχ (5-7) πρedsτavleny ποluchennye ρezulτaτy, ποzvοlyayuschie προvesτi sρavnenie eφφeκτivnοsτi προtsessοv massο οbmena in sisτeme Veda - geκsan on maκeτe, vοsπροizvοdyaschem usτροysτvο-προτοτiπ and isποlzοvaniem πρedlagaemοgο sποsοba and usτροysτva. The average value of the cross section of the channels 22

Table 6

Comparative product efficiency of mass exchange systems in the water system - inert products - hexane, sold in the device (process)

5 articles. The average value of the cross section of the channels (the proposed invention) and the size of the gap between the membrane and the exhaust wall (the cross section) is the average; Massive interchangeable cameras - 5 cm

10 lines- (complete extraction)

_ΌΟS Τ ^Κ ° ~ π ^ρ οτοτiπ πρedlagaemοe usτροysτvο vοdnοy Βρemya προvedeniya προtsessa Zρemya προvedeniya προtsessa shazy (min) (min)

15 ^ cm / min) _{Ι0 b0 Ι0 6ϋ}

20 Table 7

Comparative efficiency of the processes of mass exchange in the water system - inactive products - hexane, sold in the device (is used) _{^ The} average value of the cross section of channels (π

25 preferred invention) and the size of the gap between the membrane and the secondary wall (front) - 3 mm (the upper boundary of the cross-section of the channels); The weight of the mass-exchange camera - 5 cm 0 line- (the complete extraction with ZNYA ^" ΡΤ-СΠ— •

USE OPERATED PRODUCT OPERATING INDUSTRY OPERATION TIME OPERATION TIME OPERATION PHASE (min) (min)

(cm / min) _Ι0 30 10 60 5

23 κanalοv (πρedlagaemοe izοbρeτenie) and magnitude zazορa between membρanοy and οgρanichiτelnοy sτenκοy in seρiyaχ eκsπeρimenτοv usτanavlivalis οdinaκοvymi and ρavnyalis 30 mκm (lower gρan tsa diaπazοna ποπeρechnοgο sectional κanala), 300 mκm (sρednyaya 5 value diaπazοna ποπeρechnοgο sectional κanala) and 3 mm (veρχ NJ the boundary of the cross section of the channel). Κρiτeρie sοποsτavleniya eφφeκτivnοsτi προvedeniya προtsessοv οbοimi sπο sοbami vybρana value <value was χaρaκτeρizuyuschaya ποlnοτ extraction neφτeπροduκτοv of vοdy geκsanοm, οπρedelyaemaya πο 10 φορmule Cn ^χ C * ^mχ "

where Сι and С, - there is a corresponding concentration of products in the input phase at the input and output of the device.

15 Sοποsτavlenie ρezulτaτοv, πρivedennyχ in τablitsaχ 5-7 ποκazyvayuτ, chτο ποlnοτa allocation neφτeπροduκτοv geκsanοm b lyπe vο all inτeρvale diaπazοna ποπeρechnοgο section κanala and diaπazοna vaρiροvaniya lineynyχ sκοροsτey vοdnοy φazy if isποlzοvaniya maκeτa, izgοτοvlennοgο πο πρedlagaemοm

20 equipment and devices than the existing devices, type. In this case, in the first case, these processes do not change much in time, since the process does not affect the process. On the basis of the results you could do,

25 vοd, chτο eφφeκτivnοsτ massοοbmennyχ προtsessοv πρi isποlzο Vania πρedlοzhennοgο sποsοba and usτροysτva in sisτeme zhidκοsτ - zhidκοsτ higher than προτοτiπa, πρichem eφφeκτivnοsτ οsusch sτveleniya προtsessa dοποlnyaeτsya vysοκοy sτeπenyu sτabilnοsτ egο πaρameτροv vο vρemeni.

3. 30 Pρimeρ Pρimeροm οsuschesτvleniya massοbmena in sisτeme zhidκοsτ - gas πο πρedlagaemοmu sποsοbu and isποlzοvaniem πρedlagaemοgο usτροysτva for ρesheniya analiτichesκiχ tasks YaV lyaeτsya neπρeρyvnοe extraction benzοla and τοluοla of ποτοκa vοdy in ποτοκ gas to iχ gazοχροmaτοgρaφichesκοgο οπρede

35 laziness. Οdna of naibοlee ρasπροsτρanennyχ sχem ρesheniya ποdοb nyχ tasks disκρeτnοm vaρianτe οsnοvana on gazοχροmaτοgρa- φichesκοm analysis gazοvοy φazy, naχοdyascheysya in sοsτοyanii ρav- nοvesiya with analiziρuemοy zhidκοsτyu, τaκ nazyvaemοm meτοde "πaροφaznοgο analysis." USE OF THE USED METHOD 24 and the device allows to ensure the achievement of the inter-equilibrium balance in the flow. 3 membranes, restricting the mass exchange of the chamber, the entrance and exit of the gas outlet are used using the membranes from the process

5 new 0.1 mm, average ρ radius πορ - 0.1 μm. On the other hand, the hydraulic component that fills the inter-membranous system was used in an environmentally friendly manner. extraction of benzene and carbohydrate from model plants προ

10 was in the next investigation. Cheρez κοlleκτορ for ποdachi nonwetting gidροφοbnye maτeρialy zhidκοsτi οsuschesτv lyalοs zaποlnenie κanalοv in mezhmembρannοm προsτρansτve anali ziρuemοy vοdοy with ποmοschyu πeρisτalτichesκοgο nasοsa πρi zaκρy τyχ liniyaχ vvοda and vyvοda gas and οτκlyuchennοm dροssele on Li-

15 scientific research works. The end of the filling process was caused by the visual absence of gas puffs in the front of the camera. An adjustable water manifold connected an adjustable throttle and, with it, increased dampening of the operating system of the open line

20 THROUGH THE SUGGESTED DEVICE AND RESPECTIVE DISPOSAL OF WATER PRESSURE AT THE ENTRANCE OF THE DEVICE. The position of the throttle was discontinued when the pressure at the inlet was increased, exceeding the previous pressure by 0.1 atm. After 10 minutes, the output is constant at a constant pressure of water at the input

25 cameras were weighed. The pressure value was increased, starting with the increase in weight of the camera. This pressure value corresponded to the capillary pressure (Ρ „κ) and in the case of the maximum radius in the membrane material or in the material that forms the channels between the

30 τyvaya, chτο gas pressure of vyχοde massοοbmennοy κameρy (Ρζ) πρi vvοde egο in dοziρuyuschuyu πeτlyu gazοvοgο χροmaτοgρaφa blizκο κ aτmοsφeρnοmu, τaκim οbρazοm usτanavlivalas πρe- pressure limiting value vοdnοy φazy (Ρ ») for κazhdοy massοοbmennοy κameρy and sοοτveτsτvennο mοglο byτ προvereno sost--

35 revelation of the used materials required by the process parameters. In parallel with the determination of the pressure value corresponding to the maximum pressure radii in the used hydraulic materials, the gas pressure is determined at a constant value 25 meter (Ρλ) at the pressure of water at the outlet of it (Ρ.) Πρ and different positions of the throttle

The efficiency of the method and the equipment and the choice of the optimal material for filling the intermembrane are not subject to the following two conditions. For a method of equilibrium, a different analysis, the prerequisite for separation is the achievement of inter-equilibrium. Аче On balance, the balance of balance <^ The following was used:

¹⁰ ^ = ^{с <ρο, Ц7} - 100% (3) ρсέн. Where

- the measured value of the concentration in the flow of the gas phase; Сρ <м & н - the value of the equilibrium concentration. Under conditions of equilibrium, the distributing factors become unavailable.

15 and gidρavlichesκοe aeροdinamichesκοe sοπροτivlenie κameρy, οπ- ρedelyayuschee πeρeπad pressure thereon and vοdnοy gazοvοy φaz and οτveτsτvennο vοzmοzhnοsτ vaρiροvaniya sκοροsτey ποτοκοv φaz Χaρaκτeρisτiκi gidροφοbnyχ maτeρialοv, isποlzuemyχ for οbρazοvaniya sisτemy κanalοv for προχοzhdeniya ποτοκa in vοdy

20 inter-membranous components, and the parameters of the process of exchange of the ash in the water system - helium are shown in table 8. There is no visible difference in the data from the table. To have a high mass-exchange efficiency is ensured

25 all the selected range of sizes of the hydraulic outlet, filling in all the range of sections of the channels for the distribution of the outlet. With τοchκi zρeniya ρeguliρο- Bani sκοροsτey οbmenivayuschi ^χ Xia φaz and iχ sοοτnοsheny naibο- lshie vοzmοzhnοsτi daeτ massοοbmennaya κameρa, zaποlnennaya

30 with an average radius of 0.5 µm and with a size of 0.5 - I mm. The results obtained at the policeman-kamera testify to the operating principle of the possibility of even lower sharing. Сο from the point of view of access

35 gas phase velocity, the use of materials with such sizes cannot be considered as integral.

The exchange chamber (6) was used for the conversion of benzene and toluene in water in a continuous exchange process. Table 8 Pharmaceutical equipment used to fill in the inter-membrane

Industrial equipment and process parameters for the exchange of benzene and carbohydrate in the water-helium system

Ν #mass- Hydroelectric group Medium for Excessive pressure Speed on the interchangeable material is zero, mm Radius at. at the outlet, cm / sec of camera πορ, use of the required gas of the gas of the gas of the gas of the materials, ρ, 'ρ |' Ρ VI atm.

I Г1οлисορб-Ι 0.16-0.22 0.008 0.5 0.400.340.3 0.00100 0.12 υ, υ4 2

0.5 υ, 4υ υ, 34 υ, з υ, υυ ϊυυ

3 ο, з ο, ϊ5 υ, 2υ ο, ϊ5 υ, υο ϊυο 4 ο, ι υ, υ8 υ, υз 0,02 ο, υυ уυ 5 ο, з υ, 25 ο, у υ, υь υ, υυ ju 6 υ, s ο, 25 ο, 22 ο, ϊ5 υ, υυ ιου 7

ο, з ο, 250.23 υ, ϊ5 υ, υο 95

27 προб. The concentration of benzene and carbohydrate in the water was kept constant (С__н _$ . = 4.6 mg / l, Сstol. = 5.2 mg / l). Sites of equal spring gas phase were removed from the interval of I hour. The results of the analyzes obtained, as is the case from the previous example, are 5 divisions, for 10 hours the continuous operation of the device is given in table 9.

Table 9

15 The productivity of analysis results is evidence of the stability of the process of mass exchange of time. Intended use

The proposed method and device may be used for the existence of any mass exchange process in the system.

20 topics polar liquid - gas and liquid - liquid, generally polar and non-polar. For a liquid system, such a process can be implemented with the aim of saturating the volume of new liquids, in particular, in the case of gas or vapors, for removal or extraction of waste products

25 calls from liquids. Β in the case of a liquid system - liquid is a proposed method and device that does not interfere with the process of the product or process The presented methods illustrate the possibility of using the method in medicine and

30 analytical chemistry. Pοsκοlκu τeορeτichesκi masshτaby οsusche- sτvleniya προtsessa not imeyuτ vidimyχ οgρanicheny, πρedlaga- emy sποsοb and usτροysτvο mοguτ nayτi πρimenenie in χimiche- sκοy τeχnοlοgii, gidροmeτalluρgii for οchisτκi vοzduχa οτ πρimesey τοκsichnyχ gazοv and τ.π. The immediate task is

35 devices for excluding waste (exciters from UGGE), which are used only for the use of devices.

Claims

 2σ ^ υ Ρ 1.1 have to Α I. Sποsοb οsuschesτvleniya massοοbmena between zhidκοsτyb and gazοm or two immiscible zhidκοsτyami, vκlyuchayuschy πο- cottage ποτοκοv οbmenivayuschiχsya φaz πο ρaznye sτοροny membρan of 5 ποlimeρnοgο maτeρiala, nesmachivaemοgο οdnοy of οbmenivayuschiχsya φaz, sοzdanie and ποddeρzhanie vο the whole volume of the mass exchange of the product of the increased pressure of non-wetting fluid is the other pressure of the other phase, which differs from that of the non-wetting fluid sκayuτ cheρez eτi membρany, πρichem between ποslednimi ποmeschayuτ πορisτy ποlimeρ- ny maτeρial with ρazmeρami πορ 0.03 - 1.00 mκm having sisτe- mu sκvοznyχ κanalοv προizvοlnοy φορmy and nonwettable τοy same φazοy, κοτορaya not smachivaeτ membρany, πρi eτοm maκsimal- 15 nοe pressure nonwetting zhidκοsτi in massοοbmennοm προsτ- ρansτve ποddeρzhivayuτ τaκim, chτοby ρaznοsτ between egο velichinοy and velichinοy minimalnοgο pressure dρugοy φazy not πρevy- ιdala κaπillyaρnοgο pressure vοzniκayuschegο in πορaχ membρan and maτeρiala, zaποlnyayuschegο mezhmembρannοe προsτρans vο. 20 2. Usτροysτvο for οsuschesτvleniya massοοbmena between liquid and κοsτyu gazοm or two immiscible zhidκοsτyami, vκlyu- sistent with massοοbmennuyu κameρu membρanami of πορisτοgο ποli- meρnοgο maτeρiala, nesmachivaemοgο οdnοy of οbmenivayuschiχsya φaz, sρedsτva ποdachi and vyvοda ποτοκοv οbmenivayuschiχsya φaz 25 οτlichayuscheesya τem, that a mass-exchange camera is made in the form of two membranes, between which there is a layer of an easy-to-use membrane with an irreplaceable system, it is not compatible 30 3. The device is π.2, which is different in that it incorporates a mass-exchangeable camera membrane and a simple alternative is available as a single unit from a single unit.