RU2533235C1 - Method of biogel obtaining and biogel - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: peat in a mixture with water is loaded into a dispersion chamber, then the dispersion chamber is pressurised, static pressure of 5-7 atm is supplied into it and the content of the chamber is processed by ultrasonic vibrations with a density of insonification not less than 50 W/cm², providing the sound pressure on the mixture of peat with water for the preliminarily specified time, which exceeds the static pressure by 2-3 times. The invention also relates to biogel, obtained by the claimed method.

EFFECT: obtaining water-peat biogel with nanosized particles, in which useful substances do not lose their efficiency.

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Description

FIELD OF THE INVENTION

This invention relates to techniques for producing a peat-based biogel, which biogel has the widest application.

State of the art

Currently, various methods for producing biogel, including from peat, are known. All of these methods include grinding peat particles.

So, in the patent of the Russian Federation No. 2188628 (publ. September 10, 2002), a cosmetic product based on an aqueous extract of mixed peat mud is disclosed, and in the patent of the Russian Federation No. 2256438 (publ. July 20, 2005), the mud paste is additionally wiped through a sieve. With such mechanical grinding, particles of the order of tens or even hundreds of micrometers are obtained.

Patents of the Russian Federation No. 2228921 (publ. 06/20/2004) and 2475038 (publ. 02/20/2013) describe methods for producing biogel from peat, in which the feedstock is treated with an alkaline solution before grinding. However, chemical treatment destroys the humic substances originally found in peat.

In the patent application of the Russian Federation No. 2006137086 (published on April 27, 2008), a method for hydration of biopolymers by means of cavitation and a gel-like product from hydrated biomass are described. This method has very limited use, because an aqueous solution of salts is subjected to cavitation.

In the patent of the Russian Federation No. 2279323 (publ. 10.07.2006) grinding is carried out using ultrasonic cavitation, and in the patents of the Russian Federation №2304460 (publ. 20.08.2007), 2331478 (publ. 20.08.2008) and 2446852 (publ. 10.04.2010) ultrasonic cavitation is carried out in the presence of static pressure in the reactor chamber.

A common drawback of all known methods for producing biogel is that the resulting biogel has a particle size of the order of micrometers, as a result of which the use of such a biogel is very limited, because the smaller the particle size of the biogel, the higher its effectiveness as a medicine and (or) cosmetic.

Disclosure of invention

The objective of the invention is to expand the arsenal of existing technical means by developing such a method for producing biogel, with which it is possible to obtain a biogel with nanoscale particles. This allows for a much wider use of such a biogel.

To solve the problem and achieve the technical result in the first object of the present invention, a method for producing biogel, which is a water-peat gel with a particle size of dispersed peat no more than 40-60 nm, is proposed, which consists in: loading peat with a moisture content of 60-80% in a mixture with water at a ratio of peat to water ranging from 1: 1.5 to 1: 3.5; sealing the dispersion chamber; a static pressure of 5-7 atm is supplied to the sealed dispersion chamber; process the contents of the dispersion chamber with ultrasonic vibrations with a sound density of at least 50 W / cm ² , providing for a predetermined time the sound pressure on said mixture of peat with water, exceeding the static pressure by 2-3 times.

A feature of the method of the present invention is that the frequency of ultrasonic vibrations can be adjusted in the range of 15-30 kHz while adjusting the static pressure to reliably disperse peat particles to the indicated sizes.

At the same time, the frequency of ultrasonic vibrations can be adjusted in the following mode: initial exposure in the range of 15-20 kHz for 4-6 minutes and final exposure in the range of 20-30 kHz for 4-6 minutes.

In a second aspect of the present invention, a biogel is provided, which is a water-peat gel with a particle size of dispersed peat of 40-60 nm, obtained by the method according to the first aspect of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

Before describing the proposed method, it is necessary to dwell in more detail on the source material that is used in this method to obtain biogel.

Peat is a capillary substance that is difficult to disperse. With mechanical grinding of peat, the minimum achievable particle size is about 100 microns. Attempts to mechanically crush peat into smaller particles, for example, by means of a vibrating or gas-jet device, lead to smearing of peat on the surface of such a mechanical device.

Peat generally has some humidity. For use in the method of the present invention, the moisture content of peat may be in the range of 60 to 80%, although deviations in either direction are perfectly acceptable.

The method of the present invention is implemented in devices that are a sealed dispersion chamber, into which the starting material (peat of a given humidity) is mixed with a given volume of water, and then a static pressure of a predetermined value is created by the pump. After that, the contents of the sealed dispersion chamber are exposed to ultrasound, the source of which can be either a magnetostrictive transducer known, known to experts, located, say, under the bottom of the chamber, or a magnetoacoustic generator in which the cylindrical wall of the chamber vibrates under the influence of eddy currents induced in it (see patent RF №2490317). Any of these treatments causes the formation of cavitation bubbles in the peat-water mixture with their subsequent collapse. It is known (see Ultrasound. Small Encyclopedia. Head ed. IP Golyamin. - M .: Soviet Encyclopedia, 1979. - 400 p.) That a collapsing cavitation bubble is capable of dispersing solid particles larger than its own maximum size . Thus, due to the appropriate choice of parameters in the method of the present invention, peat particles are crushed to values of the order of tens of nanometers.

The method of the present invention is as follows. Peat of a given moisture content is mixed with water in a proportion of 1: 1.5 to 1: 3.5. The resulting peat-water mixture is loaded into a dispersion chamber, which, after loading, is sealed, and then a static pressure of about 5-7 atmospheres is supplied to it by a pump. Next, the generator is turned on, connected to an ultrasonic transducer that produces an ultrasonic signal with a frequency of the order of 15-20 kHz and with an amplitude that provides sound pressure in the peat-water mixture, approximately twice or three times the static pressure in the dispersion chamber. Such an ultrasonic treatment of a water-peat mixture takes about 4-6 minutes.

Since the size of peat particles decreases in the process of cavitation in the dispersion chamber, the size of the cavitation bubbles arising should be reduced accordingly. The maximum size of the bubble depends on the time of its growth, and therefore, on the frequency of scoring. Therefore, for a finer dispersion of peat particles in the next 4-6 minutes, processing can be carried out at a higher frequency (20-30 kHz). In principle, the ultrasound frequency can be gradually increased during the entire processing of the loaded portion of the peat-water mixture, then the final particle size of the peat will be about 40-60 nm.

It is only necessary to bear in mind that a decrease in the growth time of a cavitation bubble reduces the kinetic energy of the liquid flows arising during its collapse, which destroy peat particles. Therefore, to maintain the dynamics of dispersion, the static pressure in the dispersion chamber should be increased to 7-10 atmospheres with an increase in the frequency of ultrasonic vibrations.

In the case when the considered ultrasonic treatment is carried out using a magnetoacoustic device in which ultrasonic vibrations are excited due to vibration of the thin wall of the dispersion chamber, the area of the radiating surface becomes much larger than when using a magnetostrictive transducer. Therefore, the process efficiency is significantly increased and the dispersion time of a unit mass of water-saturated peat is reduced.

As a result of this treatment, a biogel is formed in the dispersion chamber, the properties of which are determined by the content of humic acids and fulvic acids, i.e. water soluble humic acids. These are high molecular weight organic substances whose molecular size ranges from 35 to 45 nm. Since in the method of the present invention, peat particles are crushed to 40-60 nm in the absence of chemical as well as thermal treatment, humic and fulvic acids are practically not destroyed and fully exhibit their activity in the resulting biogel.

This biogel can be used not only as a medicinal or cosmetic product, but also in crop production as a stimulator of plant growth, presowing treatment of seeds to stimulate their germination, as well as protecting seeds from fungi, mold and pathogenic bacteria and for disinfecting cereal crops after long-term storage. The Appendix contains the report of the Kursk State University dated February 27, 2013 confirming the effectiveness of the biogel of the present invention.

Thus, the present invention allows to obtain a biogel from a peat-water mixture in which beneficial substances do not lose their effectiveness, because The method of the present invention provides for the production of dispersed peat particles with sizes of the order of 40-60 nm and does not use any chemical or thermal treatment.

Claims (4)

1. A method of obtaining a biogel, which is a water-peat gel with a particle size of dispersed peat no more than 40-60 nm, which consists in the fact that:
- loaded into a dispersion chamber peat with a moisture content of 60-80% in a mixture with water with a ratio of peat to water in the range from 1: 1.5 to 1: 3.5;
- sealing said dispersion chamber;
- serves in a sealed dispersion chamber a static pressure of 5-7 atm;
- process the contents of the said dispersion chamber with ultrasonic vibrations with a sound density of at least 50 W / cm ² , providing for a predetermined time the sound pressure on said mixture of peat with water exceeding the mentioned static pressure by 2-3 times. 2. The method according to claim 1, in which the frequency of said ultrasonic vibrations is regulated in the range of 15-30 kHz while adjusting the static pressure to reliably disperse the particles of said peat to the mentioned sizes. 3. The method according to claim 2, in which the aforementioned adjustment of the frequency of ultrasonic vibrations is carried out in the following mode: initial exposure in the range of 15-20 kHz for 4-6 minutes and final exposure in the range of 20-30 kHz for 4-6 minutes. 4. Biogel, which is a water-peat gel with particle sizes of dispersed peat no more than 40-60 nm, obtained by the method according to any one of claims 1 to 3.