RU2482913C1 - Method of producing vegetable sorbent - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to production of sorbents to be used in cleaning water solution of heavy metals and oil products. Alfalfa extraction wastes are used as initial stock. Wastes are washed by water, dried at 45-55°C to fixed weight, and ground to select 0.1-0.8 mm-fraction and to introduce β-cyclodextrin in amount of 3-5 wt % into fraction. Additionally, sorbent is pelletised.

EFFECT: expanded range of absorption activity.

2 cl, 4 ex

Description

The invention relates to sorption technology, and in particular to methods for producing sorbents that can be used to purify heavy metals and oil products from aqueous solutions.

A known method of obtaining a biologically active drug based on alfalfa [RF Patent No. 2335925, class. A23L 1/30, A23L 1/304. Publ. October 20, 2008], including grinding plant materials, treating them with an extractant containing an aqueous solution of salts of macro- and microelements, holding the extracting mixture at elevated temperature and pressure with further separation, purification and drying of the extract. In this case, the extraction of plant materials is first carried out with condensate heated to 60-80 ° C. Moreover, the mass ratio of plant materials to condensate is 1: 6. Then it is fed to “hot extraction” in an apparatus heated by water vapor, and aqueous solutions of macro- and microelements are introduced with stirring. The ratio of the aqueous solution of the extract to the plant material is 6: 1 wt. Hot extraction is carried out at 110-140 ° C and a pressure of 1.5-4.5 atm for 0.6-1.2 hours. After that, the excess pressure is released and the temperature is reduced to 100 ° C. The mixture can withstand another 0.2-0.8 hours. Next, the extract is fed to the filtration, evaporation to a concentration of 45-50%. The finished mixture is poured or dried, then packaged. The drug has immunomodulating properties and can be used as dietary supplement for food and feed.

The disadvantage of this method is the generation of waste products in the form of cake. The drug has low sorption properties.

A known method of disposal of waste extraction of medicinal raw materials by obtaining sorbents [RF Patent No. 22353511, class. B01J 20/24, 20/30. Publ. 06/10/2005], where the waste products of the extraction of the fruits of hawthorn and rose hips are used as plant materials. These wastes are washed with water, dried first at 60-65 ° C, then 100-105 ° C, crushed, sieved, fractions of 0.2-2 mm are taken. The resulting sorbent in the form of a powdery product can be used to clean aqueous solutions of heavy metals and organic pollutants.

The disadvantage of this method is the lack of the ability of the sorbent to eliminate odors and tastes of contaminated aqueous solutions.

A known method of producing a plant-based sorbent for the purification of aqueous solutions of heavy metals [RF Patent No. 2209114, class. B01J 20/24. Publ. 07/27. 2003], characterized in that as a plant base use the waste of the extraction of licorice roots naked. The residues of naked licorice are washed with water to unpainted water, dried at 60-65 ° C, then at 100-105 ° C to constant weight, crushed, sieved, a 0.2-2 mm fraction is taken to obtain a sorbent in the form of a brown powder. Sorbent allows you to clean the aqueous solution from heavy metals, in particular from copper - with an efficiency of 91%, with a sorption capacity of 3.6 mg / g, from zinc - 91.6% and 3.7 mg / g, respectively. The method allows the complex use of plant materials - waste process of extraction of licorice roots.

The disadvantage of this method is the inaccessibility of the raw material base for sorbent, the inefficiency of the sorbent for water purification from organic contaminants.

Known methods for producing a sorbent on a plant basis [Patents of the Russian Federation No. 2221638, 2221639, class. B01J 20/24. Published on January 20, 2004], in which oilcake is used as a plant-based raw material — a waste from the processing of melon seeds and melon peel. The raw material is washed with water, dried at a temperature of 60-65 ° C to constant weight, crushed, sieved, a fraction of 0.2-2 mm is selected. The method allows to simplify the technology and increase the sorption capacity of the sorbent when cleaning aqueous solutions of heavy metals, such as copper and zinc.

The disadvantage of this method is the lack of sorbents in the ability to eliminate odors and tastes of contaminated aqueous solutions.

The closest in technical essence and the achieved effect is a method of producing a sorbent on a plant basis [RF Patent No. 2221640, class. B01J 20/24. Publ. 01/20. 2004] for the purification of aqueous solutions of heavy metals, including washing the vegetable base, drying to constant weight, grinding, selecting a fraction, and waste from processing vegetables and fruits into juices that are washed with water, dried at a temperature of 60 -65 ° C, crushed, selected fractions of 0.1-4 mm The method allows to simplify the technology, increase the sorption capacity of the sorbent for copper and zinc, to utilize the waste from the production of vegetable and fruit juices.

The disadvantage of this method is the lack of sorbents in the ability to eliminate odors and tastes of contaminated aqueous solutions.

The problem to which the invention is directed, is to develop a method for producing a sorbent from waste plant materials with an expanded spectrum of sorption activity.

This goal is achieved by the fact that in the proposed method for producing a sorbent on a plant basis for the purification of aqueous solutions, including washing the plant base, drying to constant weight, grinding, selection of a fraction, alfalfa grass extraction waste representing crushed grass with a size of 0.5 to 5.0 mm, drying is carried out at a temperature of 45-55 ° C, fractions of 0.1-0.8 mm are selected. Β-cyclodextrin is introduced into the composition of the selected fraction in an amount of 3-5% by weight of the fraction. Additionally, sorbent is tabletted under a press with a force of 8-10 tf and a working pressure of 270 bar under vacuum pumping conditions.

The sorbent is made on the basis of β-cyclodextrin and alfalfa grass extraction waste, which takes place in two stages: the first is the extraction of plant materials with condensate heated to 60-80 ° C, the second is hot extraction at 110-140 ° C and pressure 1, 5-4.5 atm for 0.6-1.2 hours, after which the excess pressure is released, the temperature is reduced to 100 ° C, and the extract is kept for another 0.2-0.8 hours. The sorbent is a powder ( or tablets), having multifunctional sorption properties, allowing its use for och water sources from both heavy metals and oil pollution. β-cyclodextrins have the ability to fix petroleum products, aromatic substances and dyes, provide the elimination of extraneous odors from contaminated aqueous solutions [Food chemistry. Nechaev A.P., Trauberg S.E., Kochetkova A.A. et al., St. Petersburg: GIORD, 2003, pp. 165-166].

Maintaining the specified limits of the conditions for the process of obtaining the sorbent (drying temperature 45-55 ° C, the introduction of β-cyclodextrin in an amount of 3-5%) provides the target product with an expanded spectrum of sorption activity. Conducting tabletting at the selected process indicators ensures the production of sorbent tablets with high strength and convenience in dosing and application of the sorbent. The resulting sorbent does not contain xenobiotic substrates, which allows its use as an enterosorbent, for example, in animal husbandry.

Example 1. Obtaining a sorbent.

Alfalfa grass extraction waste, representing chopped grass ranging in size from 0.5 to 5 mm, is washed with water, dried in an oven with forced ventilation at 45-55 ° C to constant weight. Grinding is carried out in a mill, a fraction of 0.1-0.8 mm is selected. To the selected fraction add β-cyclodextrin in an amount of 3-5% by weight of the fraction. Then, tabletting is carried out using a mold for the manufacture of PF-13 tablets using a press providing a force of 8-10 tf and a working pressure of 270 bar under vacuum pumping conditions. Get tablets with a diameter of 13 mm and a mass of 600 mg.

Example 2. Testing.

In a flask with a capacity of 100 cm ³ make 1 tablet (600 mg) of the sorbent and 60 ml of an aqueous solution containing 0.1 mg / l of lead in the form of lead nitrate, stirred for 10-15 minutes, kept at room temperature for 4 hours ( until cessation of lead analysis). A water layer is separated in which the lead content, which is 0.0084 mg / l, is determined by voltammetric method on the Ecotest-VA device.

Sorption capacity is 9.18 μg / g (purity 92%).

Example 3. Testing.

In a flask with a capacity of 100 cm ³ make 1 tablet (600 mg) of the sorbent and 60 ml of an aqueous solution containing 0.1 mg / l of cadmium in the form of cadmium nitrate, stirred for 10-15 minutes, kept at room temperature for 4 hours ( until cessation of cadmium analysis is terminated). An aqueous layer is separated in which the cadmium content, which is 0.0051 mg / l, is determined by voltammetric method on the Ecotest-VA device.

Sorption capacity is 9.49 μg / g (purity 95.0%).

Example 4. Testing.

In a flask with a ground stopper with a capacity of 250 cm ^3, add 1.0 ml of the state standard sample of a solution of oil products (hydrocarbons) on carbon tetrachloride and 99 ml of water at a temperature of 20 ° C, close the stopper and mix. Then open the flask and evaluate the nature and intensity of the odor on a five-point system in accordance with GOST 3351-74. Then make 1 tablet (600 mg) of the sorbent, close the cork and dissolve by stirring for 10-15 minutes, after which the nature and intensity of the odor are similarly determined.

When a state standard sample of petroleum products was added, the sample received a score of 5 points (the smell intensity is very strong, the character is smell so strong that the water is unusable), after making 1 tablet of sorbent, the sample received a score of 0 points (smell intensity is not, the character is smell not felt).

The technical result of the present invention is to obtain a sorbent with an expanded spectrum of sorption activity, which allows to purify aqueous solutions in which heavy metals and petroleum products are present, and to make complex use of waste plant materials.

Claims (2)

1. A method of producing a plant-based sorbent for the purification of aqueous solutions, including washing the plant base, drying to constant weight, grinding, fraction selection, characterized in that as a plant base, alfalfa grass wastes are used, which are crushed grass with a size of 0 , 5 to 5.0 mm, drying is carried out at a temperature of 45-55 ° C, fractions of 0.1-0.8 mm are taken, β-cyclodextrin is introduced into the selected fraction in an amount of 3-5% by weight of the fraction. 2. The method according to claim 1, characterized in that the sorbent is further pelletized under a press with a force of 8-10 Tc and a working pressure of 270 bar under vacuum pumping conditions.