RU2314855C2 - Method for processing of coniferous tree greens and apparatus for performing the same - Google Patents

Abstract

FIELD: medicine, perfume and cosmetics production, veterinary and animal farming.

SUBSTANCE: method involves extracting base products from tree greens by exposing to steam; infusing; cooling vapor-and-gas mixture and separating water extract from essential oil; after processing with steam, enriching resulted vapor-and-gas mixture with ferrous iron or ferric iron; periodically subjecting primarily processed raw material to processing with steam and infusion between periods of processing with steam; infusing raw material during periods exceeding duration of processing with steam by at least two times; performing processing with steam and infusion during each period not less than three times. Apparatus for processing of coniferous tree greens has steam generator and extractor connected in series, base product discharge line including cooler, extract collector and reservoirs for base product. Apparatus has one or two additional base product discharge lines and device for enriching resulted mixture with ferrous or ferric iron, said device being positioned between extractor and cooler of first base product discharge line. Each of additional discharge lines has filters and reservoirs for collecting of base products, said filters and reservoirs being connected in series. One of additional lines has cooler positioned in front of filter.

EFFECT: increased efficiency in processing of raw material.

8 cl, 3 dwg

Description

The invention relates to a technology for processing plant materials and can be used in medicine, perfume and cosmetics, veterinary medicine and crop production.

A known method of obtaining a means of increasing the resistance of the organism (RF patent No. 2061491, A61K 35/78), including the processing of woody green Siberian fir (Abies Sibirica) with steam for 1.5-2 hours at a steam temperature of 100-110 ° C and a pressure of 0, 2-0.3 atm, after which the resulting vapor-gas mixture is removed and the aqueous extract is separated from the oil.

The drug, obtained in a known manner from Siberian fir, has a wide range of therapeutic effects: increases the body's resistance to colds, stimulates the activity of the hematopoiesis system and the immune system, has a beneficial effect on the central nervous system. It can be used in animal husbandry as a biostimulant and for sanitation of the body.

The known technology is not effective enough, since it does not provide complete extraction of biologically active substances (BAS), vitamins and trace elements from plant materials.

The closest in technical essence and the achieved result to the claimed method is a method of obtaining funds that increase the resistance of the organism (RF patent No. 2120801, А61К 35/78), including processing the greenery of fir Siberian steam for 4-6 hours at a temperature of 100-110 ° C and a pressure of 0.2-0.3 atm, infusion at atmospheric pressure and a temperature of 95-100 ° C for 4-6 hours, reprocessing with steam for 8-12 hours, separating the aqueous extract and centrifuging it at 18-23 thousand rpm

The known method is not effective enough, because it does not provide complete extraction from plant materials of biologically active substances, vitamins and trace elements.

A device is known (A.V. Glebov, G.S. Mironov. Technology for the production of essential oil in a stationary fir plant. Siberian State Technological University, Krasnoyarsk (http://povman.samgtu.ru/2/5.doc (570 KB) · 08/06/2001), consisting of a distillation vat, a steam boiler, a refrigerator, an oil separator (Florentine) and a receiver, interconnected by a pipeline system.

Known installation is designed to produce oil. The aqueous extract obtained after separation of the oil is a waste product. It was found that if the oil is distilled off under certain conditions, then the aqueous extract acquires a number of valuable healing properties. It is saturated with biologically active substances, includes multivitamin complexes C, P, B, K, polyphenolic complexes.

The known installation is not effective enough, since it does not fully extract biologically active substances, vitamins and microelements from plant materials, and does not fully use the resources inherent in plant materials, in this case, coniferous wood.

The closest in technical essence and the achieved result to the claimed device for processing coniferous wood greens is the device described in RF patent No. 2061491, А61К 35/78, including a steam generator, extractor, refrigerator, a single collection of Florentine and containers for collecting oil and water extract .

The known device is not effective enough, because it does not provide complete extraction from plant materials of biologically active substances, vitamins and trace elements.

The main objective of the proposed group of inventions is to create a method for processing coniferous wood greens and devices for its implementation, which can improve the efficiency of processing coniferous wood greens by means of better and more complete extraction of biologically active substances from coniferous wood greens (spruce, pine, Siberian fir, cedar), vitamins A, B, C, E and obtaining target products enriched with ferrous and trivalent iron.

The problem is solved in that in a method for processing coniferous wood greens, including extraction of target products from wood greens by steam treatment, infusion, cooling of the gas-vapor mixture and separation of the aqueous extract from the essential oil, after the steam treatment the steam-gas mixture is enriched with divalent and trivalent iron, primary processed raw materials are periodically subjected to steam treatment with infusion between each period of steam treatment, and the infusion of raw materials is carried out in periods of time to toryh exceeds the steaming treatment at least twice, and the raw material and steaming infusion in each time period to produce at least three times.

It is preferable in the primary processing of raw materials to process steam from 7 hours to 24 hours

It is optimal to process the raw materials with steam between periods of infusion to carry out periods of 3.5 hours, 3.0 hours, 2.5 hours, 2.0 hours and 1.0 hours.

It is advisable to filter the target products.

The problem is also solved by the fact that the device for processing coniferous wood greens contains a steam generator and an extractor connected in series and a target product removal line including a cooler, an extract collector and containers for the target products.

What is new is that the device additionally contains one or two lines of removal of the target products and an enrichment device with ferrous and trivalent iron, installed between the extractor and the cooler of the first line of removal of the target products, each of the additional drain lines includes series-connected filters and collection tanks target products, and one of the additional exhaust lines contains a cooler located in front of the filter.

Preferably, the device contains at least two extractors.

It is optimal that one of the additional drainage lines contains a ferrous and ferric enrichment device installed in front of the cooler.

It is advisable to perform multilevel filters.

The claimed method for processing coniferous woody greenery and the device for its implementation have differences from the closest analogues, therefore, the claimed solutions satisfy the patentability condition of the invention of “novelty”.

The analysis of the prior art for compliance of the claimed solutions with the condition of patentability of the invention “inventive step” showed the following.

It is such a sequence of operations of steaming and infusion of coniferous wood greens, with such time intervals with sharp pressure drops in the extractor to atmospheric, that leads to the mass destruction of plant material cells and enrichment of products with biologically active substances and vitamin complexes, which increases the processing efficiency and increases the yield of finished products several times.

Iron is an essential trace element that is necessary for normal functioning of the body, is part of hemoglobin, myoglobin, various enzymes in the liver and spleen, and stimulates the function of blood-forming organs. Ferrous and ferric iron preparations are used as drugs, and ferrous (ferrous) iron preparations are better absorbed and assimilated, and ferric (oxide) iron is worse (Gorbachev VV, Gorbacheva VN G67. Vitamins, micro and macrocells Reference book. - Мn .: Book House; Interpresservis, 2002. - P.367).

Ascorbic acid, the content of which in the needles is 130 mg per 100 g of needles, as a reducing agent promotes the transition of ferric to ferrous iron, which improves absorption and assimilation of it in the body (MD Mashkovsky. Medicines: In 2 volumes. T. 2. - 11th ed. Ster. - M .: Medicine, 1988. - P.122). Therefore, the enrichment of target products saturated with biologically active substances and vitamins, ferrous and trivalent iron allows you to get products with a wide range of therapeutic effects.

The claimed inventions are so interconnected that they form a single inventive concept, since one of them is intended for the implementation of the other, therefore this group of inventions satisfies the requirement of the unity of the invention.

The invention is illustrated by drawings, in which Fig. 1 is a block diagram of a device for processing softwood greenery, Fig. 2 is a process diagram of a device for processing softwood greenery, Fig. 3 shows an embodiment of a bivalent and trivalent enrichment device iron.

A device for processing coniferous wood greenery (FIGS. 1 and 2) comprises a steam generator 1; extractors 2.1, 2.2, 2.3, devices 3.1 and 3.2 enrichment with ferrous and trivalent iron, coolers 4.1 and 4.2, a single collection of 5 Florentine, filters 6.1, 6.2, 6.3, 6.4, containers for the target products 7.1, 7.2, 7.3, 7.4. A single collection of 5 Florentine has tiered cranes that are connected: the top through a filter 6.1 - with a capacity of 7.1 for the target product No. 1 of essential coniferous oil, and the bottom through the filter 6.2 - with a capacity of 7.2 for the target product No. 2 (water coniferous extract). Device 3.1 is installed between extractors 2.1, 2.2, 2.3 and cooler 4.1. The second enrichment device 3.2 is located between the extractors 2.1, 2.2 and 2.3 and the second cooler 4.2, connected in series with the filter 6.4 and capacity 7.4 to collect the target product No. 4. The filter 6.3 is connected to a container 7.3 for the target product No. 3. The device also contains a control unit 8 connected to a steam generator 1, extractors 2.1, 2.2 and 2.3, coolers 4.1 and 4.2 and a single collection 5 of Florentine. The lifting mechanism and the receiving container 9 of green wood (DZ).

All nodes of the device for processing coniferous wood greens are connected by pipelines on which the pipe fittings are installed: valves 10-24 and safety valves 25, 26.

The extractors 2.1, 2.2, 2.3 are made in cylindrical form with hermetically sealed covers.

A single collection of 5 Florentine water-oil mixtures is a cylindrical container with multilevel taps of fractions of essential coniferous oils and water coniferous extract.

Devices 3.1 and 3.2 (figure 3) for the enrichment of water coniferous fractions with ferrous and trivalent iron is a pipeline section of carbon steel water pipes, or a pipeline bypass in the form of a coil from carbon steel water pipes of a certain length and diameter. The device can be made in the form of a metal case of any shape with an internal removable set of carbon steel cassettes. The steam-water coniferous fraction as a result of redox reactions on the inner surfaces of the carbon steel pipes of the device is enriched with ferrous and trivalent iron, and the ascorbic acid present in the steam-water mixture, being a reaction reducing agent, promotes the conversion of ferric (oxide) iron to ferrous (ferrous) iron which is well absorbed and absorbed by the body.

Cooler 4.1 is an air-water cooler, and 4.2 is a water cooler.

Filters 6.1 and 6.2 are multi-level; they operate in gravity mode. Filters 6.3 and 6.4 are multi-level with a sealed cover, operating under pressure up to 0.3 atm.

All technological equipment in direct contact with the steam ester coniferous mixture and essential coniferous oil is made of stainless steel grade 12X18H10T.

The control unit is made on the basis of micro-computers, pipe fittings with electric drives, instrumentation and control devices.

The device operates in two modes: manual and semi-automatic. To start the device in semi-automatic mode, a technological program is compiled, the optimal technological parameters of the program for the control unit are configured in manual mode:

- time of periods (time of steam treatment of each period);

- the number of periods;

- temperature and pressure.

The device operates as follows.

Before loading the green wood (DZ), the extractors 2.1, 2.2 and 2.3 are treated with steam, the water is used distilled or sterilized using ultraviolet radiation. To increase the mass transfer surface, woody greens are preliminarily crushed, which contributes to the destruction of the microstructure of the tissues of coniferous breeds. Wood greens are fed into the extractor 2.1 with a uniform compaction of the layers, after loading the lid is sealed. The initial position of the device is the entire pipeline control valves in the closed position.

Primary processing of green wood extractor 2.1.

Turn on the steam generator 1. 40 minutes after starting the steam generator, open the common valve 10 and valves 13, 14 of the extractor 2.1, the pressure in the steam generator is adjusted to 0.1 atm and DZ is steamed for one hour. The steam-ester mixture from the extractor 2.1 enters the device 3.1 enrichment with divalent and trivalent iron, in which as a result of redox reactions, a regulated volume (according to the consumption rate) of the trace element iron of divalent and trivalent is released. Then the gas-vapor mixture enters the cooler 4.1, which brings the temperature of the steam-water mixture to 20-25 ° C. In cooler 4.1, the mixture condenses and the resulting oil-water mixture enters a single collection of 5 Florentine, where it is divided into 2 components (due to different specific gravity: essential pine oil 0.9, aqueous extract 1.0): essential pine oil and water coniferous extract fraction. Essential coniferous oil (target product No. 1) is taken from the top tap, and it is fed through a multi-level filter 6.1 to the receiving tank 7.1. The coniferous water fraction from a single collection of 5 Florentine enters the multi-level filter 6.2, where coarse, medium and fine purification of the water coniferous extract (target product No. 2) takes place. The filtered aqueous coniferous extract enters the receiving tank 7.2 for the finished target product No. 2. The temperature of the steam in the steam generator is maintained within the range of 100-105 ° С, the pressure is 0.15 - 0.3 atm. The yield of essential coniferous oils from 1000 kg of DZ: Siberian fir - 15-17 kg, Siberian spruce - 0.4-0.5 kg, ordinary pine - 0.7-0.8 kg and Siberian cedar - 0.7-0.8 kg. The yield of water coniferous extract is 180 kg of 1000 kg of coniferous woody greens.

Processing of green wood lasts from 7 to 24 hours, depending on the type of coniferous species (pine, cedar, spruce and Siberian fir), while valves 19, 20 are opened every hour to dump accumulated water condensate with a high content of tar compounds. After the distillation process of essential coniferous oils, the valves 13, 14 of the extractor 2.1 are closed and the valves 15, 16 of the extractor 2.2 are opened. The process of racing essential coniferous oil from extractor 2.2 is similar to the race from extractor 2.1. After distillation of the oil from the extractor 2.2, close the valves 15, 16 and open the valves 17, 18 of the extractor 2.3. The process of racing the essential oil from extractor 2.3 is similar to the previous ones. The extractors 2.2 and 2.3 can be loaded with woody greens immediately with the extractor 2.1 loaded or during the distillation of the essential oil from extractor 2.1.

After distilling the essential coniferous oil from the extractor 2.3, the valves 17, 18 are closed and the secondary processing of DZ is started.

The common valve 10 of the steam generator is open, the safety valve 25 operates in automatic control mode. Open the valves 13, 14 of the extractor 2.1 and process steam DZ. The vapor-gas mixture from the extractor 2.1 enters the device 3.1 enrichment with ferrous and trivalent iron, in which, as a result of redox reactions, a regulated volume (according to the consumption rate) of the trace element of ferrous and trivalent iron is released. Cooler 4.1 brings the temperature of the steam-water mixture to 25-30 ° C. The pressure in the steam generator is maintained at 0.15-0.27 atm. Further, the coniferous water fraction through a single collector 5 of Florentine enters a multi-level filter 6.2, where coarse, medium and fine purification of the water coniferous extract (target product No. 2) takes place. The filtered aqueous coniferous extract enters the receiving tank 7.2 for the finished target product No. 2.

In parallel with the process of extracting product No. 2, valves 19, 12 are opened every 30 minutes to drain the condensed water coniferous fraction accumulated at the bottom of extractor 2.1 through a filter 6.3 into a receiving container 7.3 of target product No. 3.

After that, the valve 12 is closed, the valve 11 is opened, and through the safety valve 26, the steam mixture with the remains of the water coniferous fraction is supplied under pressure 0.15-0.27 atm to the iron and iron enrichment device 3.2, in which the steam-water coniferous fraction is oxidized by reduction reactions on the inner surfaces of carbon steel pipes are enriched with bivalent and trivalent iron. Next, cooler 4.2 brings the temperature of the steam-water mixture to 25-30 ° C and the resulting water coniferous fraction is fed to filter 6.4, where coarse, medium and fine cleaning is performed. The filtered water coniferous fraction enters the receiving tank 7.4 for the finished target product No. 4.

The period of steam treatment with DZ in extractor 2.1 lasts 3.5 hours and, at the end of processing, valves 13, 14 are closed, valves 19, 11 are opened and pressure in extractor 2.1 is sharply reduced from atmospheric pressure 0.27 bar to 0.27 at the pressure relief valve 26. At a temperature of 100 ° C insist DZ extractor 2.1 for 7 hours.

After the end of the steam treatment, the DZ of the extractor 2.1 opens the valves 16, 15 and the steam treatment of the extractor 2.2 begins. Steam treatment of DZ extractor 2.2 is continued for 3.5 hours. The process of racing the aqueous extract from the extractor 2.2 is similar to the process of racing the aqueous extract from the extractor 2.1.

After the end of the steam treatment, the DZ of the extractor 2.2 opens the valves 18, 17 and the steam treatment of the extractor 2.3 begins. Steam treatment of DZ extractor 2.3 continues for 3.5 hours. The racing process of the aqueous extract from the extractor 2.3 is similar to the racing process of the aqueous extract from the extractor 2.1 and 2.2.

The process of steam treatment of each extractor for 3.5 hours is carried out at least three times. Insist the raw material between each steam treatment for 7 hours (the brewing time is the sum of the working time of 2 extractors, during which the 3rd is infused).

Next, steam treatment of DZ of each extractor begins for 3 hours. The process of steam treatment of each extractor for 3 hours is carried out at least three times. Insist raw materials between each steam treatment for 6 hours

Then the DZ of each extractor is treated with steam for 2.5 hours. The treatment of each extractor is carried out at least three times. Insist raw materials between each steam treatment for 5 hours

Next, the DZ of each extractor is treated for 2 hours. The treatment of each extractor is carried out at least three times. Insist raw materials between each treatment with steam for 4 hours

Then the DZ of each extractor is treated with steam for 1.0 h. The treatment of each extractor is carried out at least three times. Insist raw materials between each steam treatment for 2 hours

The process of alternately turning on three extractors with steaming coniferous DZ and infusion lasts about 108 hours with a total finished product output of 1020 kg and ends according to the results of studies on biologically active substances, vitamins and microelements according to the methods of the State Pharmacopoeia of the Russian Federation. The number of processing and infusion periods can vary depending on the quality of coniferous forest products and the season.

After the extraction of biologically active substances from coniferous greenery is completed, it is fed for drying, and after crushing and grinding it turns into an additional product No. 5 - fodder flour in the amount of 500 kg from 1000 kg of DZ for farm animals and birds. In addition, the spent DZ can be successfully used for composting and as a substrate for growing vegetables.

The yield of the target product No. 2 after the secondary processing of DZ from 1000 kg of coniferous woody greens is 540 kg, the target product No. 3 is 200 kg, the target product No. 4 is 100 kg.

Thus, the proposed method and device can increase the yield of 1000 kg of coniferous wood of target species with a higher content of biologically active substances, vitamin complexes and microelements compared with the prototype several times (in the prototype 150-170 kg containing polyphenols ( BAS) - 3.56 mg%, in the proposed method - 1020 kg with a polyphenol content of 10-15 mg%), turning the processing of coniferous wood into non-waste production. The presence of three extractors in the device increases the processing productivity.

Claims (8)

1. A method of processing coniferous wood greens, including extraction of target products from wood greens by steam treatment, infusion, cooling of the gas-vapor mixture and separation of the aqueous extract from the essential oil, characterized in that after the steam treatment the resulting gas-vapor mixture is enriched with ferrous and ferric iron, which is primarily processed the raw materials are periodically subjected to steam treatment with infusion between each period of the steam treatment, and the infusion of raw materials is carried out in periods whose time exceeds the steam treatment process is not less than two times, and the raw materials are steamed and infused in each time period at least three times. 2. The method according to claim 1, characterized in that during the primary processing of the raw materials are treated with steam for at least 7 hours 3. The method according to claim 1, characterized in that the processing of raw materials with steam between periods of infusion is carried out in periods of 3.5 hours, 3 hours, 2.5 hours, 2.0 hours and 1.0 hours. 4. The method according to claim 1, characterized in that the target products are filtered. 5. A device for processing coniferous wood greens, comprising a steam generator and an extractor connected in series, and a target products removal line including a cooler, an extract collector and containers for target products, characterized in that it additionally contains one or two target products removal lines and a device enrichment with ferrous and trivalent iron, installed between the extractor and the cooler of the first exhaust line of the target products, each of the additional exhaust lines includes a follower newly connected filters and containers for collecting target products, one of the additional lines containing a cooler located in front of the filter. 6. The device according to claim 5, characterized in that the device contains at least two extractors. 7. The device according to claim 5, characterized in that one of the additional drainage lines contains an enrichment device with two and ferric iron, installed in front of the cooler. 8. The device according to claim 5, characterized in that the filters are multilevel.

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