LU85413A1 - METHOD AND APPARATUS FOR TRANSFERRING THERMAL ENERGY AND / OR MATERIAL BETWEEN A LIQUID AND A SOLID MATERIAL - Google Patents

Description

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, METHOD AND APPARATUS FOR TRANSFERRING ENERGY

THERMAL AND / OR MATERIAL BETWEEN A LIQUID AND A SOLID MATERIAL

The present invention relates to a process for transferring thermal energy between a liquid solvent and a soluble material, which allows the joint production and in addition to the continuous extraction of soluble products by means of the liquid solvent, applicable in particular to the extraction of sugars, starches or other active elements from plants. The invention also relates to the apparatus for implementing this method of transferring thermal energy and / or material.

Are already known in the field of the continuous extraction of sugary juices in particular, for example from sugar beet, sugar cane, apple or grape marc, apparatus and processes treating a solid product previously ground, defibrated or cut, by a suitable solvent such as water and in which the solid mass put in progression in contact with the solvent is subjected by soaking or sprinkling against the current, the solvent being enriched more and more from its introduction until when it leaves the device while, conversely, the product depletes its soluble part. We also know that bringing the tissues of the solid mass to a certain temperature modifies the structure of its cells, which favors the extraction of sugar, and we therefore plan to warm up. the solid-liquid mixture, the liquid being advantageously used to transmit to the solid matter the calories which have been transmitted to it by a heat exchanger generally supplied by steam.

To transmit thermal energy and encourage sugar extraction, different methods have been proposed. It is possible to soak and drain the solid matter immersed in the liquid, one can ensure an intimate and prolonged mixing of the solid matter and the liquid, one can also proceed to a sequential watering of a bed of solid material moving under watering booms, but these methods have great drawbacks.

In particular, a process is known in which the solid mass is conveyed in a thick layer on a perforated horizontal conveyor belt, a dozen spraying or solvent distribution booms overhang the layer, the solvent collected under the layer is led against current of the progress of the product at the ramp close to that from which it comes. This process involves, for reasons of profitability of the installation, the constitution of a thick layer of product, resulting in poor contact of the solid-liquid phase, preferential passages, fluidization of the bed when the amount of solvent is too large to penetrate through the bed of the solid mass, this results in poor thermal transfer and a reduction in the yield of the process.

A method is also known in which the solid mass is conveyed in a closed enclosure using one or two worms, the product performs an inclined or ascending path while the solvent is introduced at a point at the top of the path, the solvent is enriched by the passage against the current of the product. The solid-liquid phase is frank and continuous, however the mass is only subjected to a single soaking, which is unfavorable for the extraction, moreover the liquid vein tends to self-balance in product dissolved in detriment to the process yield both thermally and in terms of extraction.

The present invention aims to remedy these drawbacks by providing a method ensuring both excellent transfer of thermal energy as well as continuous extraction with high yield of material, this by carrying out optimized percolation and draining s - 3 - - solid matter while gradually enriching the solvent with a soluble product.

In accordance with the invention, the method of transferring thermal energy between a liquid solvent and a soluble solid, that is to say, generally and in a known manner, previously ground, defibrated or cut, and method more particularly intended to the extraction of sugars, starches or other active elements from plants, characterized in that this solid material is put in continuous progression, while simultaneously carrying out its mixing, and that it is subjected to a permanent watering by fractions increasingly enriched liquid solvent from the continuous drainage of the solid material. This liquid solvent and the solid material progress against each other in a rigorous and predetermined manner, so as to produce renewed contact between the liquid solvent and the solid material, which promotes both heat exchange by conduction and extraction of soluble elements.

If one of the aims of the invention is therefore to obtain better heat transfer, it also aims to improve the extraction of soluble elements. Therefore, one can consider the essential process. ment in order to promote one or the other goal and to implement it after having already achieved, by a known process, either a partial heat transfer, or a partial extraction of the soluble elements, or conversely, a complete extraction and final.

The method according to the invention then being used as an improvement to an installation, using a known method.

If only the method according to the invention is used, provision should be made to prolong the treatment, that is to say permanent and continuous watering of the solid material, even beyond what would be necessary for the Thermal transfer.

- k - Ü 'For the implementation of the method according to the invention, there is provided a device comprising at one end, an inlet by a means | known, cold solid matter and liquid solvent outlet | having given up its calories and having enriched with the soluble elements and become solute, and, at the other end, an inlet for the hot solvent and an outlet for the heated solid matter stripped of i ^ j its soluble elements and apparatus characterized in that it is essentially constituted by a rotary external drum of generally cylindrical shape, placed horizontally and inside which is provided coaxially another perforated drum, each of the two drums comprising a means for advancing continuously, 4 but in the opposite direction, respectively in the outer drum, the liquid solvent enriched progressively with the soluble elements, and in the inner drum, the solid material, the rotary outer drum further comprising a certain number of horizontal buckets arranged on several generators of the drums and buckets bringing the solvent, enriched as it progresses, upwards, so as to redistribute it in cascad e and continuously, through the perforations of the inner drum on the solid material.

In order to better understand the invention, it will now be described with reference to an appended drawing which shows by way of example and without limitation a possible embodiment of the invention.

FIG. 1 represents a general diagram of an apparatus conforming to the invention.

i} j Figure 2 shows in longitudinal section a schematic view Ü in the drums.

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Figure 3 shows in cross section a schematic view over part of the length of the drums.

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In these figures, there is shown by 1 a rotary cylindrical outer drum (the rotation device known per se not being shown), by 2 a cylindrical drum placed coaxially with the drum f and having perforations on its surface 3. At the inside this drum 2, which is rotated by the drum 1, is placed a set of turns 4 which, over the entire length of the drum 2, ensures the progression of the solid material 5 according to the arrow 6. These turns 4 can be replaced by blades; they can be complete (as shown) or even truncated, similarly the drums 1 and 2 can be of constant or variable section.

Between the drums 1 and 2, there is also placed, over the entire length of the drum 1, another set of turns 7 which has been given an inverse inclination to the turns 4, and which will ensure the progression of the liquid solvent 8 according to arrow 9 in the opposite direction to the arrow 6. These turns 7 can be replaced by blades; they can be complete (as shown) or even truncated. Between all of these turns 7 and over the entire circumference of the drum 1, are arranged at regular distances, a number of horizontal cups 10 which will collect and bring up, under the effect of the rotation of the drums 1 and 2, the liquid solvent 8.

The inclination towards the outside of the bottom 11 of the cups 10 will allow them to gradually empty as they rise, so that the solvent 8, which they contain, gradually flows through the perforations 3 of the drum 2 and falls in cascade 12, 12 ', 12 ", ... onto solid material 5.

Referring to Figure 1 there is also shown respectively by A and B, the inlet section and the outlet section at the two ends of the extractor 13 (consisting of the two drums 1 and 2). At the end A, we will introduce the cold solid material 5 brought by the conveyor 14 or by any other means which will progress in the extractor 13 in the direction of the arrow 6 to come out ί hot at the end B and y be taken up by an evacuation screw] 5 or nar all year + rp mnvpn.

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Conversely, the hot solvent 8, brought by a means 16, is introduced at the end B and will progress in the extractor 13 in the direction of the arrow 9 to come out cold at the end A and be removed by a means 17 .

Throughout the extractor 13, the solid material 5 is continuously stirred (returned) by the rotation of the extractor; it is gradually reheated; it is also continuously sprinkled with increasingly hot liquid solvent 8, the latter continuously flowing through the solid material 5 to which it therefore continuously gives up its calories.

This results in continuous percolation and the increase in heat in the solid mass 5 favoring the extraction of its soluble part, the liquid solvent 8 gradually transforming into an increasingly enriched solute.

The invention is not limited to the embodiment described and shown and one would not go beyond its scope by reversing the principle of the process with a view either to causing a reverse thermal transfer, or also to carry out a transfer of material. from the liquid to the solid material which in this case will allow the material to capture the elements contained in the liquid.

Claims (6)

1. A method of transferring thermal energy between a liquid solvent and a soluble solid, that is to say, generally and in a known manner, previously ground, defibrated or cut, and a method more particularly intended for the extraction of sugars, starches or other active elements of plants, characterized in that this solid material is put in continuous progression, while simultaneously carrying out its mixing, and that it is subjected to a permanent watering by fractions of the liquid solvent more in addition enriched and coming from the continuous draining of the solid matter, this liquid solvent and the solid matter progressing against the current of one another in a rigorous and predetermined manner, so as to produce a renewed contact between the liquid solvent and solid matter, which promotes both heat exchange by conduction and the extraction of soluble elements. 2. A method of transferring thermal energy according to claim 1, characterized in that one carries out, jointly and in addition to the thermal transfer, the complete continuous extraction of the soluble products by prolonging the permanent and continuous watering by increasingly enriched liquid solvent fractions. 3. Apparatus for implementing the method according to any one of claims 1 or 2, comprising at one end an inlet by known means, cold solid material and an outlet of the liquid solvent having given up its calories and s' being enriched with soluble elements and become solute, and, at the other end, an inlet for the hot solvent and an outlet for the solid matter reheated and stripped of its soluble elements and apparatus characterized in that it consists essentially of a drum rotary exterior of generally cylindrical shape, placed horizontally and inside which is provided coaxially another perforated drum, - each of the two drums comprising means for advancing s continuously, but in opposite directions, respectively in the drum | exterior, the liquid solvent enriched progressively with the soluble elements, and in the interior drum the solid material, the exterior rotary drum also comprising a certain number. horizontal buckets arranged along several generators of the drums and buckets bringing the solvent, enriched as it progresses, upwards so as to redistribute it in cascade and continuously through the perforations of the inner drum on the solid material. 4. Apparatus according to claim 3, characterized in that the means for advancing the solid material, is a set of complete or truncated turns or of pays placed over the entire length of the inner drum, and the means of advancing the solvent liquid, another set of complete or truncated turns or blades placed over the entire length between the two drums, and said turns inclined in opposite directions to the turns of the inner drum and between which are arranged at regular distances and over the whole of the drum, horizontal buckets. 5. Apparatus according to claims 3 and 4, characterized in that each of the two drums is of constant or variable section. * 6. Apparatus according to any one of claims 4 and 5, characterized in that the horizontal cups have a bottom inclined towards the outside of the external drum. t