SU1054463A1 - Method of biological wet seasoning of bast fibre stems - Google Patents

Description

The invention relates to the textile industry, in particular, to the technology of preprocessing bast cultures for the purpose of isolating fibers from them. The known method of biological water-air lobe of the stems of bast crops is that the stems are immersed in a tank with a moistening liquid and are kept at ambient temperature in the case of a cold-water lobe or at C and in the case of a thermal lobe. As substances and microorganisms that are harmful to the process of the lobe accumulate in the liquid, the urine liquid is regenerated by its aeration, possibly with its additional settling after aeration. Aeration of the moistening liquid is carried out directly in the moistening tanks or in special aerators equipped with an ejector to form a water-air-air emulsion. In the latter case, either the fluid from the tank is drained from the tank and replaced with a regenerated one, or a continuous or intermittent canal of liquid is provided through the aerator 1. The disadvantages of this method; are the longer duration of the lobe process, which reaches several days, as well as the poor quality of the resulting trusts, which leads to the poor quality of the waste produced from the tres. in the subsequent processing steps of the fiber. The closest to the result proposed by the technical essence and the i-to-My result is the biologic method of the water-air lobe of the stems of the bast cultures with periodic circulation of the moistening fluid through the aerator and when the aerator-ejector moves along the closed contour. The intensity of the circulation of the moistening liquid corresponds to the Final water modulus of 1: 5 or 1 g70, i.e. during the period of the lobe through 0, the washbasin passes 50-70 m of the moistening liquid per 1 ton of stems. The intensity of aeration of the moistening liquid corresponds to a flow rate of 6–8 m of air per 1 m of moistening liquid, which is m of air per 1 ton of flax stems or 100 m3 of air per 1 ton of hemp stems. Aeration is carried out in 1-5 hours for-2 hours. J. The duration of the process of the lobe of flax stems in 3B-Sv C is h. However, in this aerator, the moistening fluid is continuously mixed with the acidic moistening fluid supplied from the moistening tank. This slows down the process of its regeneration and requires additional anaerobic regeneration. In addition, the pH of the liquid at the beginning and at the end of the process has a big difference, i.e. pH fluctuations and a decrease in the buffer capacity of the washing liquid are observed, which leads to the inhibition of pectin-degrading and acid-degrading microorganisms, and this slows down the process of the lobe and impairs the quality of the obtained trusts. Frequently, the pH of the moistening fluid decreases to a value and lower, in this case, the fluid is acidified, and it cannot be restored biologically. There is a need to dump the cleaning fluid into the environment or clean it at special treatment facilities. Thus, the disadvantages of this method are also the length of the process and the low quality of the received trusts. The purpose of the invention is to reduce the duration of the process and improve the quality of the trusts. This goal is achieved by the fact that, according to the method of biological water-air lobes of bast cultures with periodic circulation of the moistening liquid through the aerator and aerating it when moving along the closed circuit, the aerator-ejector is pre-introduced in a mass ratio with a moistening liquid 1: 3 -6 aerated reused moistening liquid with a buffer capacity at pH 6.8-7.3 and pH 7,, 8, equal to 2.0-28.0 and 3, respectively, 0 ml of 0.1 N. oxalic acid solution per 100 ml of wet liquid, circulation of moisten bones are performed with an intensity of 5-8 l / h per 1 kg of stems for h in the case of thermal lobe after 10-12 h, and in the case of cold-water lobe after 18-20 h from the beginning of the lobe process and then every day to the end of this process, and aeration — in, 2–6 hours from the start of circulation of the moistening fluid at an air flow rate of 30–50 m – 1 ton of stems. The peculiarity of the process of the lobe according to the invention is the use of the aerated wetting liquid many times with HIGH buffer capacity, the so-called reserve liquid. The reserve liquid is specially prepared in a separate aerator and introduced into the aerator, through which periodically the liquid is channeled from the wash tank during the lobe. . Circulation of the washing liquid and simultaneous aeration together with the buffer reserve liquid at the Ratio of the latter to the washing liquid 1: 3-1: 6 allows periodical, during the lobe, to equalize the active acidity and temperature of the washing liquid, due to what it keeps slightly alkaline reaction during the whole process, and the pH of the liquid is not significant. This gives the OPPORTUNITY to provide the optimum. conditions for undesirable and active life of lectin-degrading and acid-degrading microorganisms. and, in turn, intensify. process lobes. When diluting the backup liquid more; than 1: 6, a sharp decrease in its buffer capacity occurs. The ratio of the reserve liquid to the cleaning liquid more than 1: 3 is unsuitable for economic reasons, since this requires increasing the capacity of the aerators and the technological parameters of the process are not improved. Implementation of the first circulation by simultaneous aeration of the moistening fluid 10–12 hours from the initial process of the thermal mochi 18–20 from the beginning of the cold duct with an intensity of 5–8 l / h per 1 kg of stem and then every day until the end of the process makes it possible to maintain The level of technological properties of the moistening liquid throughout the entire urine process due to the maximum enrichment of the aerated moistening liquid with nutrients extracted from. labyrinth and necessary; yes1M) 1 for bacteria, in 3; particular aerobic, and also allows to ensure the constant pH of the moistening fluid. When the circulation time is less than five hours, the update of the moistening liquid does not occur throughout the volume, its pH drops, the quality of the trusts decreases, and if circulated for more than six hours, unnecessary operational costs increase. When the circulation rate is less than 5 l / h, the acceleration of the lobe process is accelerated. insignificantly, and when circulating more than 8 l / h, suppression occurs at the expense of the chemical effect, and the process of the lobe slows down. . Aeration of the liquid for less than two hours is not enough to achieve the necessary. pH of the liquid, and more than 6 hours is not economical. Air consumption is 30-50 tons of raw material. With air flow to aerate the fluid less than 30, its amount is not enough to regenerate the fluid to optimal parameters, and with air flow more than 50 m the oxygen of the air is not fully used. The proposed method is characterized by a much greater circulation intensity of the moistening liquid than the known one. . Conducting the process of the lobe by means of a bret mu mug makes it possible to use the cleaning fluid many times over many years of work, which eliminates wastewater and ensures that the environment is not contaminated. The drawing shows schematically an image; a device for realizing the method is considered. A device for carrying out the method includes a wash tank 1, a collection tank 2, a pump station 3 pumps, an aerator 5 with perforations 6 located in it, connected to ejectors 7, a pumping station a1 aeration 8 with pumps 9, an aerator 10 seconds The “perfr1” in it contains tubes 11 connected to the factors 12. The method is carried out as follows. To the moistening tank 1 they load the stem cultures of hemp cultures, for example, hemp, and pour it with the moistening liquid previously used for the lobe.

After an hour with thermal loin and after 18-20 hours with a cold-water lobe from the beginning of the process, the circulation of the washing liquid begins and it is carried out with simultaneous aeration of 2-6 hours.

The movement of the moistening liquid is carried out in the following way.

From the moistening tank. 1, the liquid flows by gravity into the collecting tank 2, from which pump k is pumped to the aerator 5 through pumping station 3. Before starting the process, a reserve moistening liquid is injected into the aerator 5 in such a quantity that upon diluting it with the cleaning liquid supplied to the aerator their weight ratio is 1: 3 1: 6.

From the aerator 5, the liquid flows by gravity through distribution pipelines into the urinating tank.

Simultaneously with the circulation, the liquid is aerated. At the same time, the liquid from the aerator flows by gravity into the pumping station of aeration 8 liquid, from where pumps 9 through ejectors 7 and perforated pipes 6 again: are fed into the aerator. Thus, the aeration and circulation of the moistening fluid occurs simultaneously along independent circuits. Subsequent circulations with simultaneous aeration are performed similarly every day until the end of the washing process. The circulation intensity of the moistening fluid is 5-8 l / h per 1 kg of stems with a duration of 5-6 h. The same aeration of the liquid is carried out within 2-6 h from the start of the circulation of the moistening fluid at an air flow rate of 30-50 m on 1 t of stalks.

When the pH of the moistening liquid is lowered or the buffer capacity of the reserve liquid in the aerator 5 is significantly reduced, the movement of the moistening liquid is switched to the aerator 10, and in the aerator 5 the aerated liquid is aerated to a predetermined pH value. The technological scheme of the movement of the moistening fluid is carried out according to the following scheme: the wetting tank 1 - the collecting tank 2, the pump station 3 - the pumps i - the aerator 10 - the wetting tank .1, and the aeration according to the scheme: the aerator 10 - the pump station of aeration of the liquid 8 - ipumps 9 perforated pipes 11 - aerator 10. At the end of the process, the lobes of the pro, drain the cleaning fluid into the collection tank 2, from where it is pumped into one of the regenerators for

further use.

I

The inclusion of two aerators into the scheme allows simultaneous aeration of the cleaning fluid during the process; mixing one of them; AND preparing the reserve liquid c. -HIGH buffer capacity in another.

Loss of the moistening fluid due to ablation by trust, evaporation and so far is filled with fresh water, which is fed from a well or natural reservoir to the aerator 5.

The trust obtained by the method according to the invention had the number 1.3 and -1.1.

8 table.1 shows examples of cold-water lobes of cannabis stalks with and, and table. 2 - examples of thermal lobe of hemp stalks and flax stalks.

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with 11lO As can be seen from the table. 1 and 2, the duration of the lobe process according to the proposed method is 82-357 hours with a cold-water lobe, and when heat is 20-30-30 hours, and according to the prototype method, 110-50, respectively, and 29- ifl hours. The number of quality trusts in a known method is 1.3 and in the prototype it is 1.1. Thus, the proposed method of biological water-air lobe compared with the known method allows to shorten the process time by intensifying the process as a result of ensuring optimal parameters of the moistening liquid, which favorably affects the development and viability of pectin-degrading and acid-destroying microorganisms; to increase the quality of the trusts, since the maintenance of the washing liquid at a given pH level throughout the volume of the urine tanks throughout the whole lobe process ensures an even degree of soaking of the trusts; to reduce the time of preparation of the moistening liquid to the subsequent moistens, since the moistening liquid in the KOHUig process has the same or slightly changed properties as it was at the beginning of the process, which makes it possible not to discharge the disinfectant liquid that pollutes the environment.

Claims (1)

^Z METHOD OF BIOLOGICAL WATER AIR-AIR URIN OF STEMS OF ANYA CROPS έ periodic circulation of the washing liquid through the aerator and aeration of it while moving in a closed circuit, the aerator-ejector is used and this is necessary in order to reduce the duration of the process and increase the quality and process. the aerator is preliminarily introduced in a weight ratio with a 1: 3-6 wetting liquid, aerated, reused wetting liquid with a buffer capacity at pH 6.8-7.3 and pH 7.5-7.8, respectively 2.0-28 0 and 3.5-37.0 ml 0.1N. oxalic acid solution per 100 ml of washing liquid, the circulation of the washing liquid is carried out with an intensity of 5 * 8 l / h per 1 kg of stems for 5-6 hours in the case of a warm lobe in 10-12 hours, and in the case of a cold-water lobe in 18- 20 hours from the beginning of the urine process and then every day until the end of this process, and aeration - for 2-6 hours from the beginning of the circulation of the washing fluid at an air flow rate of 30-. Ts50 m® per 1 t of stems. SU „„ 1054463 1 ('1054463 ‘