BG62367B1 - Method and plant for the extraction of natural products of biological matter by means of microwaves - Google Patents

Abstract

The method and the plant are used for the extraction ofnatural products of biological matter, in particular of plants.They are applicable for all natural biological matters containingwater and have increased extraction profitability. The methodincludes the following stages: placing the biological matter in achamber (1) in the absence of any solvent; subjection of thebiological matter to microwave irradiation in order to provoke theevaporation of at least part of the water contained in it in orderthat at least part of the natural product should be released;separation of the residual biological matter from the naturalproduct extracted. The method also includes additional stages:periodic reduction of the pressure in the chamber (1) during thetime of the effect of the microwaves to assist in breaking thecellular structures of the irradiated biological matter andheating of chamber (1) at least during the initial stage of theapplication of the irradiation for the compensation of the drop oftemperature caused by the water evaporation from the biologicalmatter.13 claims, 7 figures

Description

Field of application

The invention relates to the extraction of natural products contained in biological matter, in particular to the extraction of natural products from plants. The method can be used to extract all natural biological matter, whether of animal, plant or microbial origin, as long as they contain at least approximately 30% water. The method can be used, in particular, to extract essential oils from plants, animal tissues, in particular fish, as well as from algae and microalgae and optionally from microorganisms.

BACKGROUND OF THE INVENTION

It is known that the extraction of natural products from biological matter can be accomplished by different methods using different solvents to recover the biological matter and the products to be extracted, respectively. It should be noted that the name of the extracted product is often associated with the technology used to obtain it. For example, nodules, resinoids, oleosomals, etc., which are extracted from volatile compounds or from waxy, fatty, and non-volatile products, are obtained by the classical method using at least one organic solvent. Essential oils, generally composed of volatile aromatic compounds, are generally obtained by steam distillation (hydrodistillation) and / or by mechanical methods.

For example, the extraction of oleates and essential oils from the peel of citrus fruits and fish oils is usually done by physical methods such as grinding and / or pressing without solvent or by hydrodistillation. Apart from the cheap use of such methods, they have the advantage that the derived products obtained (and the biological matter after the extraction) do not contain solvent residues and therefore need not be further treated to release them from such residues.

However, there are a number of products that cannot be extracted from natural materials containing them and which require the use of organic solvent methods. Using such methods, the extracted product diffuses into the solvent and dissolves therein. However, it is then necessary to separate the recovered product from the solvent in order to increase the concentration of the extract.

In these methods, multiple parameters affect the profitability of the extraction using solvents, including parameters: solubility of the extracted product in the selected solvent and diffusion of the extracted product in the solid matrix of the biological matter used.

It is possible to affect the first parameter especially by changing the operating temperature or concentration of the solvent used.

It is also possible to affect the second parameter before or simultaneously with the extraction step.

For example, the diffusion of the extracted product could be significantly improved by pre-processing the biological matter, which can be expressed in particular in its fragmentation, in its enzymatic decomposition or in its drying.

It can also affect biological matter during the operation of the extraction of the natural product itself, for example by heating it or stirring it.

Methods of extraction are known in the prior art in which ultrasound is used to mix biological matter and solvent to facilitate the passage of the extract into the solvent. The mechanical waves generated by the ultrasound allow for a truly local generation of one cavitation in biological matter and therefore a warming of the latter, which helps to release the extract.

In the prior art, there is also a method of extracting a product from biological matter, in which the extraction is facilitated by exposing the biological matter to microwave irradiation. The impact of microwaves on biological matter is well known today. Indeed, such electromagnetic waves are selectively absorbed by media having a high dielectric constant, and therefore, when working with biological matter, from water, i. E. mainly from vessels and glandular tissues, especially from vacuoles when it comes to plant matter. With such absorption, radiant energy is converted into heat, allowing selective heating of parts of biological matter that absorb microwaves.

EP Patent 3098798 describes a method for extracting biological microwave products, which comprises the following steps. Crushed biological matter (hot mint, lavage, cedar, or garlic) having a dispersed microwave-absorbing ingredient (water); Place the crushed biological matter in a transparent or partially transparent solvent with respect to the microwaves and absorb less microwaves than the crushed ingredient, for example hexane, ethanol or dichloromethane; The mixture consisting of the crushed matter and the solvent is subjected to the action of the microwaves, the crushed matter is heated, preferably with the solvent, in order to extract the soluble products; The residual biological matter is removed from the solvent and the extracted product is separated.

Although this known method provides better profitability of the extraction, the technology described in patent EP 0398798 does not allow to eliminate the aforementioned disadvantages related to the presence of solvent in the resulting extract.

It should be mentioned that in the prior art it is known to extract essential oil from biological matter by irradiation with microwaves and without solvent.

An article published in the Flavor and Fragrance Journal, 4, 43-44, entitled "Microwalwe oven Extraction of an Essential Oil," describes technology for extracting Lippia sodoides essential oil by microwave heating, as specimens from the plant (30-40 g each) were placed without a solvent in a flask, in a microwave oven, and subjected to microwave irradiation for 5 min. The bottle used is selected to allow the extraction of the essential oil from outside air flow.

Although it allows extraction to take place in a much shorter time than is required for hydrodistillation extraction operations, this method also has a significant drawback in that it requires a large amount of energy to extraction is achieved which makes it economically disadvantageous.

All known methods for extracting natural products using microwaves described in the literature can only be realized with a very small volume of biological material at high microwave power, which is typically from 10,000 to 20,000 W per kilogram of biological matter. The maximum power available on the market for microwave transmitters operating at 2450 MHz is 6 kW. Therefore, in order to be used in industry, these methods must be adapted for continuous operation in such a way that they have a small mass at a certain location at a reasonable microwave power source.

SUMMARY OF THE INVENTION

It is an object of the invention to provide a method and installation for the extraction of natural products using microwaves to be used on all natural biological materials containing water, whether of animal, plant or microbiological character, with increased profitability of extraction.

It is an object of the invention to provide a method by which it is possible to extract without the use of a solvent and, accordingly, to obtain an extract without any solvent residue.

It is an object of the invention to implement such a method of extracting natural products that has a reduced energy consumption for a given amount of biological matter processed.

It is an object of the invention to provide an installation for carrying out the method according to the invention to achieve efficient extraction at low energy consumption.

The task is solved by a method of extracting at least one natural product from biological matter using microwaves, comprising the following steps.

Placing the biological matter in one chamber, in the absence of any solvent;

Microwave irradiation of the biological matter present in the chamber to provoke the evaporation of at least one portion of the water contained therein so as to release at least a portion of the natural product;

Separation of residual biological matter from the extracted natural product.

According to the invention, the method also includes the following additional steps.

Periodic reduction of pressure inside the chamber during microwave exposure to assist the bursting of cellular structures of biological matter irradiated by microwaves;

Heating the chamber for at least the main stage of microwave irradiation to compensate for the drop in temperature caused by the evaporation of biological matter water.

The simultaneous incorporation of the microwave irradiation steps, the use of reduced pressure in the chamber and the heating of said chamber is applied for the hydrodistillation of the natural product by its entrainment into the water vapor emanating from the biological matter.

The method of extracting natural products from biological matter using microwaves according to the invention is preferably carried out such that the step of applying reduced pressure consists in subjecting the inside of the chamber to cyclic depression.

Preferably, the step of the method, comprising periodically applying a reduced pressure, involves subjecting the inside of the chamber to depression cycles.

According to one embodiment of the invention, the method of extracting natural products from biological matter using microwaves is performed in such a way that the step of separating the residual biological matter from the extracted natural product involves the following operations.

Cooling of water vapor containing extracted natural product;

Casting of the liquid mixture obtained during cooling;

Separation of extracted natural product and water obtained during casting.

A method of extracting natural products from biological matter using microwaves according to the invention, in which at least a portion of the water obtained during the casting step is injected into the chamber for the hydrodistillation of the natural product contained in the remainder of the biological matter.

In another preferred embodiment of the method for extracting natural products from biological matter using microwaves according to the invention, the heating step is carried out at a temperature lower than 100 ° C.

It should be emphasized that it is better to keep the temperature lower than 75 ° C to allow the extraction of products which tend to decompose under heat.

The method of extracting natural products from biological matter using microwaves according to another preferred embodiment is well accomplished so that microwaves having a frequency of at least 300 MHz are used in the microwave irradiation step.

It is well known that in many countries the use of frequency is strictly regulated and, for example, in France only the 915 MHz and 2450 MHz frequencies are permitted are industrial facilities that generate microwaves.

A method of extracting natural products from biological matter using microwaves according to a preferred embodiment of the invention, wherein the microwave irradiation step is carried out at a power of approximately 100 W to 10,000 W per kilogram of treated product.

The method of extracting natural products from biological matter using microwaves according to the invention is preferably arranged so that the microwave irradiation step is carried out with mechanical agitation of the biological matter.

Such a method according to the invention can be used appropriately for all natural biological matter, whether of animal, plant or microbiological origin, as long as they contain at least about 30% water. This method can be used, in particular, for the extraction of essential oils from plants, animal tissues, in particular fish, as well as from algae and microalgae and optionally microorganisms. Of course, this biological matter may be crushed before being placed in the chamber to increase microwave exposure.

The method according to the invention allows for the waterproofing of the product to be extracted, but not by introducing water from outside during the process, but by the water contained in the treated biological material. In the description according to the invention, water will be referred to as constitutional water, even when previously introduced into biological matter, if the substance is placed in a dehydrated form and needs to be re-moistened.

The method according to the invention therefore consists in subjecting the treated biological matter to microwave irradiation, in the absence of a leaching solvent allowing the contents of the cells of that matter to be discharged outwards. In order to facilitate the process and to azeotropically entrain the extracted product, the pressure in the chamber is reduced. This reduction in the pressure in the chamber allows, on the one hand, to increase the mechanical effect on the walls of the cells of biological matter and, on the other, to increase the volatility of the azeotropic mixture composed of the product extracted from water vapor. According to the invention, simultaneous heating of the chamber makes it possible to compensate for the rapid drop in temperature caused by the evaporation of the constituent water under the influence of the pressure drop in the chamber. This drop in temperature is really capable of completely neutralizing the effects of microwaves.

The object is also solved by an installation for extracting natural products of biological matter by means of microwaves according to the invention, which consists of a single chamber equipped with means for generating microwaves located inside the chamber having a double thermostatic wall; heating means for regulating the temperature of the double thermostatic wall; pressure relief devices located inside the chamber; and means for separating the extracted natural product located at the outlet of the camera.

Preferably, the microwave extraction installation of the biological products according to the invention is arranged so that the means of separating the extracted natural product include cooling agents.

It is also preferred that the microwave extraction plant for natural biological products of the invention be provided with means for actuating the pressure reducing means provided for cyclically reducing the pressure inside the chamber.

Preferably, one embodiment in which the microwave extraction plant for natural biological products is configured so that the chamber is provided with agitators.

Preferably, the microwave extraction plant for extracting natural products from biological matter according to the invention has means for diverting the residual water obtained by means of separating the extracted product to the interior of the chamber.

The method of extracting natural products from biological matter using microwaves according to the invention has the following advantages.

Compared to conventional hydrodistillation, it is obtained with an equivalent composition and profitability in a significantly shorter time. While conventional hydrodistillation typically takes hours, the reduced-pressure hydrodistillation time of the invention lasts minutes. For some products using this method, it is possible to obtain a certain amount of extract ten times faster than in conventional steam distillation. The energy consumed is much less for a certain amount of biological matter processed. In hydrodistillation, it is necessary to heat the biological matter and the added water, the mass of which can represent up to ten times the mass of biological matter. The residual biological matter obtained at the end of the process is in the dry state, since the constitutional water contained therein is used to capture the extracted product and the method does not require the addition of water from outside. Therefore, this residual material will be easily decomposable and possibly recycled as fuel.

Another advantage of the method is that much less residual water is obtained than in conventional hydrodistillation methods, with at least a portion of the water obtained from this casting being injected into the chamber to hydrodistill the natural product remaining in the hydrodistillation process. the residue of biological matter.

Description of the attached figures

The invention and the advantages that it provides are explained by the description of the examples of conversion and the attached figures, of which:

Figure 1 is a schematic view of an installation according to the invention;

FIG. 2 is a variation of the pressure in the chamber and the temperature of the biological matter according to an example application of the method according to the invention with the schematic installation of FIG. 1 for extracting hot peppermint oil;

Figure 3 is the variation of the yield of the peppermint essential oil obtained from the first application of the method;

Figure 4 - the change in the pressure in the chamber and the temperature of the biological matter in the context of a comparative example of extraction of peppermint essential oil;

Figure 5 is a variation in the yield of hot mint essential oil in the comparative example;

Figure 6 shows the change in the pressure in the chamber and the temperature of the biological matter within the second embodiment of the method of the invention for extracting sage tea;

Figure 7 is the variation in yield of sage tea essential oil obtained from the second embodiment of the process according to the invention.

Examples of carrying out the invention

Figure 1 shows schematically an installation for the extraction of natural products from biological matter. The installation has one camera 1 with microwave generators 2 located inside the space limited by the chamber 1. In accordance with the legal provisions, these microwave generators 2 allow 2450 MHz to be emitted. It is possible to use a 915 MHz microwave generator, which is also permitted in France.

The chamber 1 has at its bottom a mixing means 9, representing a turbine with three blades that stirs biological matter while it is inside the chamber 1 and is exposed to microwaves. Stirring allows to increase the exposure of biological matter to microwaves and to avoid the possibility that some areas may not be sufficiently irradiated to successfully flow and complete the extraction.

According to the invention, the chamber 1 is connected, on the one hand, with means for reducing the pressure 5 inside it and, on the other hand, with means 6 for separating the extracted natural product from the biological matter under the influence of microwaves. The pressure relief means 5 inside the chamber 1 can be implemented by any means used to create a partial vacuum inside the chamber, for example a regular water pump or a jet pump. In the example, the means for separating the extracted product 6 include a pipeline 11 located at the top of the chamber 1 around which cooling means 7 formed by a serpentine hose flowing coolant are provided.

Pipeline 11 allows the recovery of the vapors obtained by the action of microwaves on biological matter, in which the vapor of the essential oil is 5. Under the influence of the coolants 7, the water vapor condenses. At the outlet of the pipeline 11 there is a casting 12 for separating the condensed vapors and for extracting the essential oil. After separation, the remaining water 10 is diverted from another pipeline 10 to the chamber 1, where it is recycled for further recovery.

In order to heat the interior of chamber 1 and to compensate for the decrease in temperature due to the pressure reduction caused by means 5 produced by a vacuum pump, chamber 1 has a double thermostatic wall 3 connected to means for heating 4. 20 Actuators 8 for pressure relief means are provided.

The installation described above is used to apply the microwave extraction method of 25 mint essential oils (Example 1) and sage (Example 3).

Example 1. Hot mint 1 kg (Mentha piperita L., Hungarian variety) containing 15% dry matter is placed in chamber 1. The means 30 for heating 4 are adjusted so that the thermostatic wall 3 induces a temperature of about 70 ° C inside. in the chamber 1 and the agitators 9 rotate at 40 rpm. The power of the micro-35 level 2 generating means is 1150 W and the reflected power is from 170 to 220 W. During the extraction, which lasts for 15 minutes, the effective absorbed power is from 930 to 980 W.

During the extraction, the means 5, 40 produced by the vacuum pump are actuated so that the pressure is reduced to 250 tb.This pressure drop occurs after 5, 10 and 13 min.

In addition, the temperature of the cooling medium circulating in the coil 7 is fixed at 5 ° C so as to cause condensation of the vapors obtained by the influence of the microwaves on the hot mint and containing the essential oil. 50

The change in the temperature of the mint in chamber 1 and its pressure is explained in figure 2. Under the influence of microwaves, the temperature of the material quickly equalizes with the ambient temperature of 75 ° C. As soon as a partial vacuum (250 mbar) is created inside chamber 1, the temperature drops due to the vacuum pump representing the pressure reducing means 5. This drop in temperature is quickly compensated by heating the chamber 1 so as to reduce the effect of the microwaves.

After extraction (Fig. 3), which lasted for 15 min, and after three cycles of depression, 1.52 ml of essential oil (or a yield of 1.01 ml per 100 g of dry matter) was recovered.

Hydrodistillation of the peppermint residue obtained by such a microwave extraction method allows the extraction of less than 50 mg of essential oil. The method of the invention therefore yields an essential oil close to the depletion of biological matter.

Comparison of the gas phase chromatographic profiles of the two types of essential oils obtained by the method of extraction according to the invention and by classical hydrodistillation does not show any significant differences in their composition.

Example 2.

The hot mint was used as in Example 1, but with the vacuum pump 5 running continuously, so that the pressure inside the chamber 1 was fixed at 250 mbar for the entire duration of the extraction operation.

The change in the temperature of the mint and the pressure in the chamber 1 is shown in FIG. 4.

In FIG. 5 shows the yield of essential oil, which is only 0.2 ml per 100 g of dry matter, i. E. five times smaller than Example 1. 1150 mg of essential oil was separated from the remaining mint after extraction. These results show the importance of periodically reducing the pressure inside the chamber 1 according to the invention.

Example 3.

Tea 500 g (Salvia officinaliss L.) containing 25% dry matter is placed in chamber 1. The heating agents 4 are adjusted so that the thermostatic wall 3 induces a temperature of about 70 ° C inside the chamber 1 and the agents for stirring 9 operate at 40 rpm.

The input power of the microwave generator 2 is 1000W and the reflected power varies between 150W and 200W. During the extraction, which lasted for 10 minutes, the effective absorbed power is therefore from 800 to 850W.

During the extraction, the vacuum pump 5 is activated to reduce the pressure to 250 mbar. The pressure reduction is performed after 3.5 and after 7 min.

In addition, the temperature of the cooling medium circulating in the coil 7 is fixed at 5 ° C to cause condensation of the vapors obtained by the action of microwaves on the sage.

The variation of the temperature of the sage contained in chamber 1 and the pressure inside it is shown in FIG. 6.

In FIG. 7 shows the results of a 10-minute extraction and two cycles of depression. 3.06 ml of essential oil (ie yield of 2.55 ml per 100 g of dry matter) were separated.

The theoretical yield for classical hydrodistillation of the same amount of sage is 2.77 ml per 100 g, indicating that the use of the process according to the invention allows the extraction of more than 90% of the essential oil from the treated sage.

The invention is not limited to the examples described above for its application. In particular, a means of generating microwaves 2 with a shorter or longer duration may be provided, which would allow different microwave frequencies to be used, and separation of steam from the steam by another technique could be achieved. other than that described without departing from the scope of the invention.

Claims (13)

1. A method of extracting natural products from biological matter using microwaves, comprising the steps of: placing the biological matter in a chamber in the absence of any solvent; microwave irradiation of the biological matter present in the chamber to provoke the evaporation of at least one portion of the water contained therein so as to release at least a portion of the natural product; and separating the residual biological matter from the extracted natural product, characterized in that it also includes the following additional steps: periodic reduction of the pressure inside the chamber (1) during microwave exposure to aid the degradation of the cellular structures of the biological matter irradiated from microwaves; heating the chamber (1) for at least the main microwave irradiation application stage to compensate for the temperature drop caused by the evaporation of biological matter water, wherein this combination, including microwave irradiation steps, uses reduced pressure in the chamber (1) and the heating of the chamber (1) is applied to hydrodistillate the natural product by entraining it in the water vapor exiting the biological matter. A method for extracting natural products from biological matter using microwaves according to claim 1, characterized in that the step of applying reduced pressure consists in subjecting the inside of the chamber (1) to cyclic depression. A method of extracting natural products from biological matter using microwaves according to claim 1 or 2, characterized in that the step of separating the residual biological matter from the extracted natural product involves the following operations; cooling the water vapor containing the extracted natural product; casting of the liquid mixture obtained on cooling and separating the extracted natural product and the water obtained on casting. Method for extracting natural products from biological matter using microwaves according to claim 3, characterized in that at least a portion of the water obtained during the casting step is injected into the chamber ((1) for hydrodistillation the natural product found in the residue of biological matter. Method for extracting natural products from biological matter using microwaves according to one of claims 1 to 4, characterized in that the heating step is carried out at a temperature lower than 100 ° C. Method for extracting natural προ-5 microwave organic products according to one of the claims of 1 to 5, characterized in that microwaves with a frequency of at least 300 MHz are used in the microwave irradiation step. 7. A method for extracting natural products from biological matter using microwaves according to one of claims 1 to 6, characterized in that the microwave irradiation step is carried out at a power of approximately 100 W to 10,000 W per kilogram of treated product . Method for extracting natural products from biological matter using microwaves according to one of claims 1 to 7, characterized in that the microwave irradiation step is carried out by mechanical agitation of the biological matter. An installation for the extraction of natural products from biological matter using microwaves to carry out the method according to claims 1 to 8, characterized in that it consists of: one chamber (1), in which the means are arranged for 30 generating microwaves (2) and having a double thermostatic wall (3), heating means (4) adjusting the temperature of the double thermostatic wall (3), pressure reducing means (5) located in the chamber (35) 1) means for separating the extracted natural product (6) located and the outlet of the chamber (1). An installation for extracting natural products from biological matter using microwaves according to claim 9, characterized in that the means for separating the extracted natural product (6) include cooling means (7). 11. Installation for extraction of natural 10 Biological matter using microwaves according to claim 9 or 10, characterized in that it is provided with actuation means (8) of the pressure reducing means (5) provided for cyclically reducing the pressure inside the camera (1). 12. Installation for the extraction of natural products from biological matter using microwaves according to one of 20, characterized in that the chamber (1) is also provided with stirring means (9). 13. Installation for the extraction of natural products from biological matter with more 25 microwave power according to one of claims 9 to 12, characterized in that there are means (10) for diverting the residual water obtained by means of separating the extracted product (6) to the interior of the chamber (1).