RU2040299C1 - Method and apparatus for continuous extraction or washing out of substance from heterogeneous system with solid phase of fibrous or granular material - Google Patents

Abstract

FIELD: chemical industry. SUBSTANCE: method of continuous extraction with the help of liquid, that is fed by countercurrent to meet moved by transportation means heterogeneous system provides for contracting of the heterogeneous system and decompensate it in direction of motion. In the case, one part of liquid phase is filtered out and removed to input of the heterogeneous system, that is subjected to multiple contraction and decompression. Liquid phase from zone of expansion is fed back in zone of contraction. In the case, fed liquid phase has subjected to extraction or washing out substance in less degree, than removed liquid phase. Apparatus to realize the method has: body with means to feed heterogeneous system and liquid phase, that are located on shaft of transportation mean; mean to make contraction and decompression; means for phases removal. Apparatus has additional stage of continuous extraction or washing out, connected by pipes with transportation mean and pipe, mounted at an angle to the stage and providing self-flow of heterogeneous system with previous stage. In zone of contraction there are means for removal at least part of liquid phase and in zone of decompression at least partially means are provided to feed liquid phase. EFFECT: method and apparatus are used in chemical industry. 9 cl, 3 dwg

Description

 The invention relates to a method for extracting or leaching a substance from a heterogeneous system, as well as to a continuous working installation for extraction or washing for the implementation of the method.

 In the chemical industry, heterogeneous systems are processed regardless of whether they are physical separation, extraction, washing processes, chemical reactions, or the like. either discretely or in stages in devices of various types, or continuously or continuously in a single device provided for this purpose. Discrete methods differ in comparison with continuous methods in various disadvantages, which are expressed, for example, in the elongated process time, in increased energy consumption, low specific power, as well as in difficulties in achieving automation of the method.

 A known method of continuous extraction and leaching of a substance from a heterogeneous system with a solid phase from fibrous or granular material using a liquid, which is supplied countercurrently towards the heterogeneous system transported by transport means, compresses the heterogeneous system and decompensates in the direction of movement, and one part of the liquid phase is filtered off and output to input of a heterogeneous system, and installation for implementing the method.

 The specified installation for continuous extraction contains a housing with means for supplying a heterogeneous system and a liquid phase, transporting means placed along the axis, means for creating compression and decompensation.

 However, the known installation has a low process intensity due to the inefficient use of solvent.

 By the proposed method and the proposed installation, the following technical result is achieved. Due to the lower solvent consumption, the operating costs of the installation are reduced, or when a certain degree of purity of the solid phase is achieved, a reduction in the duration of the process takes place.

 The essence of the invention lies in the fact that by the method of continuous extraction or leaching of a substance from a heterogeneous system with a solid phase from a fibrous or granular material using a liquid, which is supplied countercurrently towards the heterogeneous system transported by vehicles, the heterogeneous system is compressed and decompensated in the direction of movement, and one part of the liquid phase is filtered off and output to the input of a heterogeneous system, according to the proposed method, the heterogeneous system is subjected multiple compression and decompression, moreover, the liquid phase from the expansion zone is returned to the compression zone, while the supplied liquid phase contains a substance to be extracted or washed out to a lesser extent than the withdrawn liquid phase.

 As for the device, the known installation for the continuous extraction or leaching of a substance from a heterogeneous system with a solid phase, comprising a housing with means for supplying a heterogeneous system and a liquid phase, axial transport means, means for creating compression and decompression, and means for removing the phase is equipped with an additional step of continuous extraction or leaching associated with the pipe with a transport means and installed with it at an angle of the pipe, providing MOTEK heterogeneous system from the previous step, wherein in the compression zone, means are provided for removing at least a portion of the liquid phase and in the decompression zone at least partially, means are provided for supplying a liquid phase.

 Preferred embodiments of the installation are described in the dependent claims.

 The effectiveness of the method and installation for the implementation of the method is justified by the fact that alternately and continuously successive zones of compression or crushing, zones of decompression or expansion, as well as zones of mixing, moreover, in the preferred case, in the compression zones, the liquid phase is discharged outward from the heterogeneous system and in places, preferably in the expansion zones, it is again brought to a heterogeneous system with an already more intensely loaded liquid phase.

 The possibilities of using the apparatus according to the invention in the chemical industry and other industries are extremely diverse.

 Preferred and / or suitable areas are such as the production of cellulose derivatives in the chemical industry for washing, bleaching, impregnating and dyeing, pharmaceutical use in the continuous synthesis of drugs, general use for extracting or washing substances from roots, tops, crop elements, tea, coffee, barley in the brewing industry and in many other cases.

 Preferred embodiments of the invention are explained below in more detail as examples.

 In FIG. 1 schematically shows a first form of installation in accordance with the invention; in FIG. 2 is a detailed view of the compression and decompression zone in the form in which they are used in the apparatus of the invention; in FIG. 3 schematically shows a second embodiment of the apparatus according to the invention.

 As shown in FIG. 1 and FIG. 3, through the means 1, a heterogeneous mixture 2 is introduced into the housing 3 of the installation, consisting of pipes 4 and 5, 6, 7, 8, 9, alternately connected one after another, the heterogeneous system freed from undesirable substance leaves the installation through the means 10 for phase removal, located at the other end of the tubular system. A solvent is introduced into the reservoir 11 through the means 12, which is then introduced via the pump 13 through the means for supplying 14 to the installation. Through the supply means 14, a solvent is loaded that is not loaded with the substance to be extracted. A heavily loaded liquid phase leaves the installation through the first outlet means 15, through the exhaust line 16 and enters the receiving bathroom 17.

 The installation consists mainly of three stages 4, 6, 8 processing. Each of the processing steps contains almost the same parts. The heterogeneous mixture after loading falls into a horizontal conveyor screw 18, which is driven by an electric motor 19. The pipe 4 contains a conveyor 20, respectively, a pipe 6 conveyance 21 and a pipe 8 conveyance 22. Each of the conveyors contains a screw spiral 23 connected with a rotating hollow shaft 24. The shaft is driven by a drive 25. The best transportation is achieved if the inner walls of the pipes 4, 6, 8 are equipped with revealing grooves passing in the longitudinal direction. Three means 26, 27, 28 are arranged on the shaft 24 of each vertically mounted screw at approximately equal distances from each other to create compression and decompression to form one compression zone 29, 30, 31 and one expansion zone 32, 33, 34, respectively, or decompression. The means 26, 27 and 28 comprise mainly two truncated cone-shaped structures directed at each other and are presented in more detail in FIG. 2. Using one structure in the form of a truncated cone, the diameter of which increases in the direction of passage of the heterogeneous system, the throughput surface of the latter in the transport pipe 4, 6, 8 is constantly reduced, as a result of which compression occurs. The second truncated cone-shaped structure has a relatively rapidly decreasing diameter in the direction of passage of the heterogeneous system. The throughput of the heterogeneous system suddenly increases, resulting in decompression or expansion.

 The portion of the liquid phase withdrawn from the first means 26 is very intensively loaded and is not subsequently used. It enters the intake bath 17. In the region of the second compression zone 30 of the second means 27, a second outlet means 35 is provided. Here, at least part of the liquid phase is again discharged, which through line 36 is mixed with the heterogeneous system entering the installation through means 1. The third outlet the means 37 is located in the region of the third compression zone 31 of the third means 28. At least a portion of the liquid phase, which is less intensively loaded as compared with the liquid phase withdrawn from the second zone, is also withdrawn from this zone. Through line 38, the diverted liquid phase is again supplied to the heterogeneous system in the region of the first expansion zone 32 through the first supply means 39.

 On top of the transport pipe 4, 6, 8, in the place where the latter is connected to the inclined pipe, there is a means for the outlet 40, which together with the outlet means 15, 35, 37 is explained in more detail in FIG. 2. The liquid phase taken by means of the outlet 40 enters through the line 41 into the hollow region 42 of the shaft 24 and in the region of the second compression zone 33 is again supplied to the heterogeneous system. A case is possible when, in accordance with those indicated in FIG. 1, using a dashed line, the liquid phase withdrawn by means of the selection means 41 is again supplied to the heterogeneous system via an additional external line. The supply to the hollow part of the shaft is carried out through the means 43. In the pipe 5, 7, 9, installed at an angle to the pipe with the transport means, the heterogeneous mixture by gravity moves from top to bottom. The cross section of this pipe has a larger size than the cross section of the transport pipe 4, 6, 8.

 Bottom on an angled pipe, a loading or dosing device 44 is installed, which serves to control the processes of movement in an angled pipe. From an inclined pipe, the heterogeneous system enters the horizontally located screw 18 of the second or third processing stage. In the area between the loading device 44 and the horizontal conveyor with the screw 18, there is arranged a means for supplying a liquid phase 14, which is removed from the subsequent processing step through its first discharge means 15. It is guided through the discharge line 45 to the lower part of the pipe installed at an angle. Line 36 through the supply means 46 is connected to the supply means 1. If the supply means 1 is excessively overloaded, the provided bypass line 47 starts to operate.

 The second and third stages of processing have basically identical designs.

 Through the line 48 of the second and third stages, the liquid phase collected in the discharge means 35 is again fed through the supply means 49 to the beginning of the corresponding second or third processing stage.

 The pipe 9 of the third stage is completed in the horizontal conveyor screw 18. The horizontal screw of the last stage also has a means 50 for creating compression and decompression, and after compression, the still present, almost unloaded, liquid phase is squeezed and directed through the discharge line 51 to the tank 11, where it mixes with the fluid supplied through the line 12 and is again brought to the installation using the pump 13.

 In FIG. 2 depicts in more detail the second and third discharge means 35 and 37, the second supply means 43, as well as the second and third compression zones 30 and 31 and decompression 33 and 34. The pipes 4, 6, 8 contain extensions 52 extending through the region of the compression zone. The exhaust means 35 and 37 consist of each connecting fitting 53, which is located on the extension 52 and is designed to connect with the corresponding lines 36 and 38. Part of the pipe inside the extension is made in the form of a filter cartridge 54. With this filter cartridge, the liquid phase is filtered and discharged by lines 36 and 38. The pipe section 55 has the smallest passing surface. The hollow shaft in the region of the second zone 33 contains perimeter feed holes 56 distributed through the perimeter, through which a less loaded liquid phase is supplied. Instead of supplying the liquid phase through the hollow part of the shaft, it is possible to supply liquid from the outside through the supply line.

 In FIG. 3 schematically shows a second embodiment of the installation, which also consists of three processing steps having pipes 4, 6 and 8, arranged mainly horizontally. In this installation, the pipes have transport means 20, 21, 22, while the pipes are connected by gravity pipes 5, 7 and 9, which direct the solid phase to the next stage or, in the case of the last stage of processing, to the unloading means 10. In contrast to the example described previously , this installation has a discharge line 57, which again enter the liquid phase extracted by the second discharge means 35 of the second and third processing stages through the third supply means 49 into the corresponding previous processing stage.

 The device operates as follows.

 The solid phase of the fibrous or granular material is fed through the inlet means 1 and is directed through all stages to the opposite end of the installation, where the solid phase exits with higher purity through the means 10. The solvent flows in the opposite direction, which is pumped from the tank 11 to the pipes, into which by gravity omits a heterogeneous mixture freed from an undesirable substance, while the solvent slowly passes into the liquid phase, which is increasingly loaded with the substance, heterogeneous system. A very intensively loaded liquid phase is released through the first outlet means 15, which is then practically not used.

 The heterogeneous system that is introduced into the installation usually contains, along with the solid phase, a liquid phase or the so-called carrier fluid. Using the supply means 14, the flushing fluid is introduced as the so-called receiver fluid. During the washing or washing out of the receiver from the supply means 1, the heterogeneous mixture enters the horizontal conveyor screw 18, with the help of which it moves into the vertical pipe 4, where it is subjected to periodic compression and decompression in the means 26, 27, 28. The first discharge means 26 is located in the zone 29, from where the liquid phase is discharged to the reservoir 17. In the decompression zone 32, a second discharge means 35 is provided. Here, at least part of the liquid phase that is mixed with the heterogeneous system is again discharged. The liquid phase withdrawn at the position of the discharge means 35 is loaded to a lesser extent than the quantity withdrawn from the heterogeneous system of the substance withdrawn at the position of the first discharge means 15. In the third discharge means 37, the liquid phase is less intensively loaded than the liquid phase withdrawn from the second discharge means 35. During the time while this supplied liquid phase is mixed in its path in the second discharge means 35 with a heterogeneous system, it may be loaded with the next substance to be removed ju from a heterogeneous system. The liquid phase taken from the top of the pipes 4, 6, 8 by means of a discharge means 40 enters through the third line 41 into the hollow part of the shaft 24 and again into the region of the second compression zone 33 to the heterogeneous system. The liquid phase on its way to the third compression zone 15 is mixed with a heterogeneous system and is additionally loaded.

 In a pipe installed at an angle, the fibrous or granular material of the heterogeneous system falls or falls in the liquid phase moving in the opposite direction at a relatively low speed. In this case, an additional cleaning process takes place. When rising in pipes 5, 7, 9 in the direction against the heterogeneous system, the liquid is increasingly loaded with the substance to be extracted or washed out.

 To control the processes in various named lines are automatically controlled valves or shut-off valves (not shown in the drawings). Using measuring bodies (also not shown), phase analyzes are carried out and analysis results are transferred to a control device also not shown in the drawings, the said valves can be actuated by the control device based on the measurement results and / or previously entered control programs. Thanks to this, automation of extraction and washing methods is achieved.

 The pipe 9 of the third processing stage ends with a horizontal conveyor screw 18. At the position of the last stage, the practically unloaded liquid phase is still present and is directed back to the tank 11, where it mixes with the unloaded liquid supplied through line 12 and is again pumped to the installation.

 The operation of the device with horizontally located conveying pipes is carried out similarly.

Claims (9)

 1. A method for continuously extracting or washing out a substance from a heterogeneous system with a solid phase from fibrous or granular material using a liquid that is supplied countercurrently towards the heterogeneous system transported by means of transport, the heterogeneous system is compressed and decompensated in the direction of movement, one part of the liquid phase is filtered off and removed to the input of a heterogeneous system, characterized in that the heterogeneous system is subjected to multiple compression and decompression, and the liquid the basics from the expansion zone are returned to the compression zone, while the supplied liquid phase contains a substance to be extracted or washed out to a lesser extent than the extracted liquid phase.  2. Device for continuous extraction or leaching of a substance from a heterogeneous system with a solid phase, comprising a housing with means for supplying a heterogeneous system and a liquid phase, transportation means arranged along the axis, means for creating compression and decompression, and means for removing phases, characterized in that it is equipped with an additional step of continuous extraction or leaching, connected by means of a pipe with a transport means and installed to it at an angle of the pipe, which provides gravity to the goethe ogen system from the previous step, wherein in the compression zone, means are provided for removing at least part of the liquid phase, and in the decompression zone at least partially, means are provided for supplying a liquid phase.  3. The device according to claim 2, characterized in that the cross-section of the pipe, providing gravity of the heterogeneous system, is made large of the cross-section of the pipe with a conveyance.  4. The device according to paragraphs. 2 and 3, characterized in that the transport means is made in the form of a screw on a rotating shaft, on which the means for creating compression and decompression are placed.  5. The device according to paragraphs. 2 to 4, characterized in that the shaft of the screw along the axis is made hollow.  6. The device according to claim 2, characterized in that the housing has three compression zones and three decompression zones located in alternating order in the direction of movement of the heterogeneous system.  7. The device according to paragraphs. 2 and 3, characterized in that at the point of attachment of the gravity pipe to the pipe with a transport means, a means for selecting a liquid phase is provided.  8. The device according to paragraphs. 2 to 7, characterized in that there are several stages of continuous extraction or leaching, which are included in series, moreover, the means for draining the liquid phase of the next stage is connected through at least one outlet line to the pipe, which provides gravity, of the previous stage.  9. The device according to paragraphs. 2 to 8, characterized in that the means for draining the liquid located on the pipe are connected by extension lines to the means for supplying the heterogeneous system to the stage, or to the supplying means to the compression zone.

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