RU2735837C1 - Method of producing carbon sorbent for cleaning waste water from oil products - Google Patents

Abstract

FIELD: environmental protection.

SUBSTANCE: invention relates to environmental protection, to methods for producing sorbents from biodegradable carbon material for purification of waste water from oil products. Invention relates to a method of obtaining carbon sorbent for purification of waste water from petroleum products, which includes carbonization of the ground nut shell in a muffle furnace. Raw material used is a pecan nut shell which is ground to produce a weighed portion sized to 2 to 5 mm and moisture content of 12 to 15%, carbonisation is carried out at temperature from 300 to 400°C for 45 to 60 minutes followed by cooling in a desiccator to temperature of 20 to 25°C and holding for at least 24 hours.

EFFECT: technical result is obtaining a carbon sorbent obtained from environmentally safe plant material with sorption properties for cleaning oil products.

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Description

The invention relates to the field of environmental protection, to methods of producing sorbents from biodegradable carbon material for purification of wastewater from oil products.

A known method for producing activated carbon from seeds of fruits and nut shells (RF patent No. 2622660, publ. 19.06.2017), including carbonization of the feedstock in the temperature range 600-750 ° C and steam-gas activation at elevated temperatures, and the pre-dried feedstock at a temperature of 200-250 ° C, they are impregnated with a saturated solution of urea or thiourea in an amount of 5-10 wt% in relation to the feedstock, subjected to carbonization at an elevated temperature, the resulting material is crushed to a fraction of 0.8-1.6 mm, after which screening less than 0.8 mm is crushed to a fraction with a powder particle size of less than 0.05 mm to obtain a clarifying activated carbon, and the main fraction is activated with water vapor at a temperature of 800-850 ° C for 1.5-2 hours to obtain an activated modified carbon.

The disadvantage of this method is the multistage nature of the process, namely the need for preliminary drying of raw materials, the need for heat treatment at high temperatures twice and for 8-10 hours.

There is a known method of obtaining a sorbent from ash and slag waste (RF patent No. 2708604, publ. 09.12.2019), accumulated on ash dumps according to the scheme of hydraulic ash removal, including crushing of raw materials, its heat treatment and holding, cooling, and ash and slag waste accumulated at ash dumps according to the hydraulic ash removal scheme, ash and slag grinding is carried out to a particle size of 0.25-0.5 mm, and heat treatment and aging are carried out in two stages, at the first stage they are heated to 110-120 ° C and kept at a given temperature of 30 -35 minutes, and at the second stage it is heated to 600-630 ° C and kept at the specified temperature for 40-45 minutes.

The disadvantage of this sorbent is the danger of re-contamination of the water purified by the sorbent due to the content of cations of iron, manganese, copper, lead in the initial raw material of ash and slag.

There is a known method of producing a sorbent (RF patent No. 2172209, publ. 20.08.2001) based on a natural polymer of plant origin in the form of a nut shell, including crushing the latter, impregnating and processing the shell until a sorption carbon surface is formed, and the operations of impregnation and processing of the shell are combined and is carried out first by keeping it in a solution of concentrated hydrochloric acid for 15-30 hours, and then, after washing with water to a neutral medium, the shell is again kept in a 33% sodium hydroxide solution for 2-2.5 hours, washed to neutral pH , crushed and dried at 100 ° C.

The disadvantages of this method of obtaining a sorbent are the processing time of the raw material from 15 to 30 hours and the use of aggressive reagents, namely concentrated hydrochloric acid and caustic soda, from which subsequently it is required to wash the processed raw materials, which leads to the use of a large amount of purified fresh water.

There is a known method of obtaining a granular sorbent (RF patent No. 2552449, publ. 06/10/2015), including drying dispersed powder of iron oxide-hydroxide, which is used as a precipitate isolated from groundwater at iron removal stations, and the dispersed powder is suspended in an apolar medium (nonane, or octane, or nephras, or carbon tetrachloride) with the addition of a polar aqueous polymer solution by stirring with a stirrer at a speed of 300-2000 rpm for 5-10 minutes to obtain granules.

The disadvantage of this method is the possibility of re-contamination of the water purified by the sorbent due to the iron content in the feedstock.

A known method of producing a sorbent (RF patent No. 2459660, published on August 27, 2012), including heat treatment of rice husks at 200-430 ° C in the plasma of a low-pressure high-frequency discharge, and in addition to the plasma-forming gas, silicon oxide powder with a particle size of 50 250 nm, and the process is carried out with the supply of plasma gas with a flow rate of 0.04-0.08 g / s, husk of rice grains with a flow rate of 8-10 g / s, silicon oxide powder with a flow rate of 0.5-1 mg / s.

The disadvantage of this method is the need to add silicon oxide powder to the feedstock, which leads to the potential re-contamination of the water purified by the sorbent with mechanical impurities.

A known method of producing a carbon sorbent (patent for invention of the Russian Federation No. 2565194, publ. 10/20/2015), taken as a prototype, which consists in carbonization of crushed walnut shells in a muffle furnace with air access at a temperature of 700-800 ° C for 2 hours and having an average pore size of 2.2 nm, an average pore volume of 0.14 cm ³ / g and a specific surface area of 1336.96 m ² / g.

The disadvantage of this method is the duration of the process and high temperatures of product carbonization.

The technical result is to obtain a carbon sorbent for the purification of wastewater from oil products from environmentally friendly plant raw materials with sorption properties for cleaning from oil products.

The technical result is achieved by the fact that a pecan nut shell is used as a raw material, which is crushed to obtain a sample size of 2 to 5 mm and a moisture content of 12 to 15%, carbonization is carried out at a temperature of 300 to 400 ° C for 45 to 60 minutes, followed by cooling in a desiccator to a temperature of 20 to 25 ° C and holding for at least 24 hours.

A method of obtaining a carbon sorbent for purifying wastewater from oil products is carried out as follows.

Pecan shells are ground in a ball mill to obtain a sample size of 2 to 5 mm and a moisture content of 12 to 15%. A weighed portion of the walnut shell is placed in a uniform layer in ceramic crucibles and carbonized in a muffle furnace at a temperature of 300 to 400 ° C for 45 to 60 minutes. The resulting carbon sorbent is cooled to a temperature of 20 to 25 ° C in a desiccator and kept under normal conditions for 24 hours until the humidity is normalized.

After receiving the finished product, the moisture, bulk density, total carbon content, retention capacity, adsorption activity and adsorption of oil products of the obtained carbon sorbent are tested according to standard procedures of the Russian Federation.

The method of obtaining a carbon sorbent for purifying wastewater from oil products is illustrated by the following examples.

Example 1. Pecan shells are ground in a ball mill to obtain a sample of 2 mm. A weighed portion of the walnut shell is placed in a uniform layer in ceramic crucibles and carbonized at a temperature of 300 ° C for 60 minutes in a muffle furnace. The sorbent is cooled to room temperature in a desiccator, then kept under normal conditions for 24 hours until the humidity is normalized. Moisture, bulk density, total carbon content, retention capacity, adsorption activity and adsorption of oil products of the obtained sorbent are measured.

The effectiveness of this method has been proven by checking the sorption properties of the obtained sorbent by laboratory tests, the results are presented in table 1.

Table 1 - Characteristics of the sorbent obtained in example 1.

Sorbent characteristic unit of measurement Value Holding ability y / y 0.65 NP adsorption y / y 1.42 Adsorption activity mg / g 36.25 Bulk density g / dm ³ 581.40 Humidity % 4.64 Total carbon content % 76.60

Example 2. Pecan shells are ground in a ball mill to obtain a sample of 3 mm. A weighed portion of the walnut shell is placed in an even layer in ceramic crucibles and carbonized at 350 ° C for 50 minutes in a muffle furnace. The sorbent is cooled to room temperature in a desiccator, then kept under normal conditions for 24 hours until the humidity is normalized. Moisture, bulk density, total carbon content, retention capacity, adsorption activity and adsorption of oil products of the obtained sorbent are measured. The effectiveness of this method has been proven by checking the sorption properties of the obtained sorbent by laboratory tests, the results are presented in table 2.

Table 2 - Characteristics of the sorbent obtained in example 2.

Sorbent characteristic unit of measurement Value Holding ability y / y 0.70 NP adsorption y / y 1.40 Adsorption activity mg / g 39.75 Bulk density g / dm ³ 553.70 Humidity % 5.03 Total carbon content % 79.80

Example 3. Pecan shells are ground in a ball mill to obtain a sample of 5 mm. A weighed portion of the walnut shell is placed evenly in ceramic crucibles and carbonized at 400 ° C for 45 minutes in a muffle furnace. The sorbent is cooled to room temperature in a desiccator, then kept under normal conditions for 24 hours until the humidity is normalized. Moisture, bulk density, total carbon content, retention capacity, adsorption activity and adsorption of oil products of the obtained sorbent are measured. The effectiveness of this method has been proven by checking the sorption properties of the obtained sorbent by laboratory tests, the results are presented in table 3.

Table 3 - Characteristics of the sorbent obtained in example 3.

Sorbent characteristic unit of measurement Value Holding ability y / y 0.73 NP adsorption y / y 1.44 Adsorption activity mg / g 43.75 Bulk density g / dm ³ 518.30 Humidity % 5.11 Total carbon content % 82.90

Based on the results of the studies carried out, a carbon sorbent was obtained from pecan shells with high sorption properties (table 4).

Table 4 - The efficiency of the obtained sorbent

Sorbent characteristic unit of measurement Value Holding ability y / y 0.65-0.73 NP adsorption y / y 1.40-1.44 Adsorption activity mg / g 36.25-43.75 Bulk density g / dm ³ 518.30-581.40 Humidity % 4.64-5.11 Total carbon content % 76.60-82.90

The obtained characteristics of the carbon sorbent make it possible to use it for the purification of wastewater contaminated with oil products.

Claims (1)

A method of producing a carbon sorbent for purifying wastewater from oil products, including carbonization of crushed walnut shells in a muffle furnace, characterized in that pecan shells are used as a raw material, which is crushed to obtain a sample with a particle size of 2 to 5 mm and a moisture content of 12 to 15 %, carbonization is carried out at a temperature of 300 to 400 ° C for 45 to 60 minutes, followed by cooling in a desiccator to a temperature of 20 to 25 ° C and holding for at least 24 hours.