SU1588437A1 - Method of producing sorbent based on tremolite - Google Patents

Abstract

The invention concerns a method for producing a clay sorbent and makes it possible to increase its sorption capacity for water and oil, strength and yield. The sorbent is prepared by heat treating the palygorskite in the presence of ammonia with a clay: ammonia mass ratio of 1: (0.0100 ... 0.050) under autoclave conditions at a temperature of 150 ... 190 ° C for 4-5 hours. Filling Level autoclave on palygorskit 0,14 - 0,80. 1 tab.

Description

The invention relates to methods for producing sorbents and can be used to purify water and industrial gases from organic impurities, as well as to dry diesel fuel and oils.

The purpose of the invention is to increase the strength and sorption capacity for water and oils, increasing the yield of the target product.

The method is implemented as follows.

A sample of the palygorskite from the Cherkassy deposit is placed in a laboratory autoclave in a tank containing a reagent. The degree of filling of the autoclave by palygor-. skete 0,140-0,800 vol. share. As a reagent, any substance can be used that gives an ammonia pair during heating and decomposition, for example (GOST 786-41) or (NH4) 2CO3 (GOST 3770-64) in an amount of 0.0100-0.0150 in terms of NHa. The autoclave is placed in a furnace and kept there at 150-190 ° C for 4-5 hours. After cooling, the product is ground in a ball mill with a diameter of 15 mm and fractionated on sieves.

The yield of the finished product is in the range of 80-92 wt.%. The resulting product is moistened with salt oil (GOST 1666-42), water until saturation, and then weighed. The sorbability m of oil and water is determined by the formula

m

about / ITI2 - m 1

PP2

100%,

where mi is the dry sorbent mass:

t2 is the mass of wet sorbent. The physicochemical properties of the sorbent are determined as follows: the mechanical crush strength of a fraction of 2-3 mm is measured using a TK 2M type hardness tester (GOST 13407-67): the yield of the finished product is by weight of the resulting sorbent; the specific surface is gas chromatographic on a CHROM-5 device for argon sorption isotherms. The table shows the physical and mechanical characteristics of the sorbent.

EXAMPLE 1. 100 g of palygorskite and 5 g of a 25% ammonia solution are taken, placed in a 300 cm autoclave with a clay filling degree of 0.145% by volume, tightly closed and kept at 180 ° C for 5 hours The ratio of palygorskite; ammonium is 1: 0.0125. After cooling, the product is recovered, ground in a ujiapOB mill for 30 minutes, and subjected to sieve analysis to isolate a fraction of 2–3 mm in size.

The sample has the following physicomechanical characteristics (Ex. 9, Table): mechanical fusion strength is 13.5-10 Pa; specific surface area - 112 water sorption capacity - 182 4ac.%: oil sorption capacity - 143 rjiac. %; yield of the target product - 92 May. % I P p and m 6 p 2. Take 100 g of palygorskite 4 4,2 r (NH4) 2C03 and place it in an autoclave with a degree of filling of the autoclave 0.145. Auto-lav tightly closed and maintained at J70 ° C for 4 hours, 30 min. The ratio of falygorskite: ammonia is 1: 0.0150. the product, after cooling, is recovered, izgColled in a ball mill for minutes and subjected to sieve analysis to isolate a fraction of 2 to 3 mm in size. The sample has the following physico-mechanical: | (anic characteristics: mechanical. IipOMHOCTb for crushing - 13.4-10: specific surface - 130 m / g: water sorbability - 215 May.%; Sorbability ho oil - 142 wt.% : yield of the target product -9 0 wt.% ..

Thus, the proposed method for producing a Palygorsky-based sorbent allows one to obtain a product having an increased crush strength.

orbital capacity for water and oils, and magnify the yield of the target product. The use of the method allows to improve the quality of the sorbent by increasing its

strength from 10.2-10 to (11.0-13.6) -10 Pa, e. 7.3-25%; to increase water sorption from 170 to 180-285 wt.%, i.e. 10 to 115 wt.%; sorbability by oil from 120 to 135-180 wt.%, i.e. 15-60 wt.%; output

the target product from 79 to 80-92 wt.%, i.e. 6-13 wt.%: the specific surface of the sorbent from 76 to 110-148, i.e. by 31-49%.

The proposed method for producing a palygorskite sorbent is less energy-intensive,

and the use of a sorbent improves the degree of purification of industrial gases, oils and liquids. The sorbent obtained by the proposed method is planned to be used on installations by adsorption

cleaning and preparation of natural gases for transportation.

Claims (1)

The invention The method of obtaining a sorbent based on palygorskite, which includes heat treatment of palygorskite in the presence of a chemical reagent, characterized in that, in order to increase the strength and sorption capacity of water and oils, as well as increase the product yield, heat treatment is carried out in the presence of ammonia with a pal: gorsite / ammonia mass ratio of 1: (0.010 -0.015) in an autoclave at 150-190 ° S for 4-5 hours