SU1834694A3 - Composition for clearing exhaust gases of motor transport and device - Google Patents

Description

The invention relates to vehicles, in particular to mixtures used in converters for cleaning exhaust gases of automobiles and can be used to clean any other gas pollution in all sectors of the economy.

The aim of the invention is to increase the degree of purification of exhaust gases from toxic substances.

This goal is achieved by the composition for purification of exhaust gases in the form of an aqueous solution of alkali, - contains water from iron-containing mineral and drinking water, as a sorbent - bentonite B with a particle size of not more than 100 microns and an additional powdery casein and liquid soap as a binder and surface active substance, respectively, with the following ratio of components, wt.%:

Bentonite B 1-2 Casein Powder Caustic Soda Liquid Soap Iron 0.85-1.15 0.85-1.15 0.85-1.15 - mineral water drinking water 48-80 15-48.

The achievement of this goal is also facilitated by the use of mineral water as iron-containing water.

1834694 AZ water with an iron content of at least ’27 mg / L.

This goal is also achieved by a method of preparing a composition for cleaning exhaust gases, according to which mineral iron-containing water is pre-mixed with drinking water in a ratio of 1: 1-5.3: 1, bentonite B is introduced into the water with a particle size of not more than 100 microns in an amount of 1- 2 wt.% And at the same time powdery casein is added as a binder in an amount of 0.85-1.15 wt.%; the resulting mixture is subjected to boiling in a steam bath with stirring for 2 hours 50 minutes - 3 hours 10 minutes and caustic soda and liquid soap are added in an amount of 0.85-1.15 wt.% each and the mixture is further stirred.

An example of a composition for cleaning exhaust gases is a mixture of the following composition. Composition: 48 l of mineral water from the Utsersky deposit with an iron content of 27 mg / l. 48 liters of drinking water. 1 kg of bentonite B, 1 kg of caustic soda, 1 liter of liquid soap and 1 kg of casein.

For the manufacture of the mixture used a tank with a useful capacity of 100 l, placed in a steam bath subjected to prolonged heating, and components, the amount of each of which is shown in table. 1.

Water for the mixture was prepared in 4 versions: when the content of mineral water in its total amount of 40: 50: 85 and 95%. Moreover, the content of bentonite varies from 0.8 to 2.5 wt.%, And the content of caustic soda, liquid soap and casein is from 0.8 to 1.2 wt.%.

When making the mixture, both liquids are poured into the tank, then bentonite B and casein are added to the cold mixture in the quantities specified by the experimental conditions, after which the mixture is boiled and stirred in a steam bath for 2 hours 45 minutes, 3 hours, 3 hours 20 minutes. After the set time has elapsed, the resulting mixture. caustic soda and liquid soap are added, mixed and the mixture allowed to cool. Next, the finished mixture is poured into a liquid neutralizer, with a spray atomizing liquid into droplets 50-100 microns in size.

As a result of testing the mixture, the following parameters for the purification of exhaust gases were revealed (Table 2). As can be seen from the above data, the proposed mixture improves the degree of purification of exhaust gases.

A decrease in the amount of binder in all experiments reduces the capture of CO, P and soot (by 5-12%).

An increase in the amount of casein to 1,% increases resistance, reducing engine power (up to 6%),

A decrease in the amount of caustic soda to 0.8% leads to a decrease in the pH in the droplets taken from the gases leaving the catalyst, i.e. reduces the degree of neutralization,

An increase in caustic soda to 1.5% 10 does not cause any significant improvement in the purification and neutralization of exhaust gases.

A decrease in the amount of surfactant to 0.8% increases the CO content in the exhaust gases after the neutralizer, and an increase of up to 1.2% sharply increases the foaming and emission of foam outside the neutralizer, which requires either an increase in the dimensions of the latter or additional introduction of antifoam agents, complicating the cleaning system .

During the experiments, in the variant of bentonite B content of more than T% at an M / P of 50%, a slight decrease (4-5%) in the amount of CH in emissions was noted.

A decrease in the boiling time of the mixture to 2 hours 45 minutes or less revealed insufficient uniformity in the volume distribution and dissolution of bentonite and casein particles, which leads to some (2-3%) reduction in cleaning efficiency, and an increase in this time to 3 hours 10 minutes or more does not cause noticeable changes in the capture properties of the mixture.

The use of bentonite B particles with a size of more than 100 μm leads to their rapid settling to the bottom of the catalyst during operation, which requires an increase in the amount of binder in the mixture, i.e. offers an increase in resistance and a drop in engine power.

When equipping a vehicle with a liquid neutralizer filled with this composition for cleaning vehicle exhaust gases, a sharp reduction in environmental pollution by exhaust products and a reduction in their toxicity are ensured.

about

Claims (3)

Claim 1. The composition for cleaning exhaust gases of vehicles, including montmorillonite sorbent clay, caustic soda and water, characterized in that, in order to increase the degree of purification of exhaust gases from toxic substances, it contains bentonite B with a particle size of not more than 100 μm and optionally powdered casein and liquid soap as a binder and surfactant, respectively, and water from iron-containing mineral and drinking water in the following ratio of components, wt.%: Specified Bentonite B 1-2 Powdery casein 0.85-1.15 Caustic soda 0.85-1.15 Liquid soap 0.85-1.15 Iron mineral water 48-80 Drinking water 15-48. 2. The composition of the PL, about t l emerging the fact that it contains mineral water with an iron content of at least 27 mg / l. 3. A method of manufacturing a composition for cleaning the exhaust gases of vehicles containing sorbent clay montmorillonite type, caustic soda and water, characterized in that that, in order to increase the degree of purification of exhaust gases from toxic substances, water is preliminarily prepared from iron-containing mineral and drinking water in a ratio of 1-5.3: 1. 5 bentonite B is introduced into the water as a sorbent with a particle size of not more than 100 μm and at the same time casein is added as a binder, the resulting mixture is boiled with stirring in a steam bath for 2 hours 50 minutes - 3 hours 10 minutes, after which caustic is added to the mixture soda and optionally liquid soap as a surfactant and is additionally mixed, while bentonite is used in an amount of May 1-2. %, and casein, soda AND liquid soap - in the amount of 0.85-1.15 wt.% for each, based on the total amount of the finished mixture. 4. The method according to p. 3, characterized in that the mineral water is taken with an iron content of at least 27 mg / L. Table 1 Component Name Units ism Number of substances according to manufacturing options 1 2 3 4 5 Sorbent bentonite B kg 0.5 1,0 - 1.5 2.0 2.5 Caustic soda kg 0.8 1.0. 1.5 1.0 1,0 Binder (Casein) kg 0.8 1,0 1.5 1.0 1,0 Surfactant (liquid soap) kg 0.8 . 1.0 1,2. 1.0 1.0 table 2 From oxides Compared to the original quantity ^ In comparison with the well-known solution of a. from. 1005849% nitrogen at 76.4 by 12.7 sulfur at 97.7 by 12.7 carbon by 71.7 no data From soot 99.3 at 3 From hydrocarbons by 98.6 by 1.9 From formaldehyde 99.8 by 1.1 From lead 7.2 no data 7 1834694 8 b Table 3 Designations: And * mineral water; P - feed water; With K · casein; I am a liquid soap. bentonite B , With caustic soda; test option Toxic substances in exhaust gas, cash registers L 0 NITRIC ACIDS Oxides I of sulfur I Carbon Monoxide I Carbohydrate dy 4 Fornalkle I guides | Lead | Soot _v 1. N / A - 40 * 1, BEFORE CLEANING 0.21 0.1 4.2 oz 0,07 0.01. 0.06 after cleaning: 1.1. B.S.K.Gt 'ao 0.8 wtL 0.08 0.014 2.233 0.0162 0.0023 0.01 0.003 1.2. B - 1-2 weight L C, K, k, - 0.851.15 Beet 0,0 / 8 0.014 2.20 0.015. 0.002 0.0096 0.002 1.3. B - 2.5 weight L /. C.KfS - 1.2 L each 6.0 / 9. 0.0146 2, t8 0.0148 0.002 0.0098 0.0021 - the degree of purification on page 1.2, 62.3 86.: 47.6 99. 97.1 4.1. 96.7 2. N / A * 50 * - before cleaning 0.21 0.1 4.2 0.3 0,07 0.01 0.06 2.1. - after cleaning: &, C, 1C, X · 0.8 weight, * 0,052 0.0042 1.37. 0.0064 0,0006 0.0044 6,00074 2.2. B 1-2 weight, * C, K, K - 0.851.15 weight, * 0,0512 0.004 1,344 0.006 0.0042 0,0007 2.3. B - 2.5 weight. * S, K, G - 1.2 weight L 0,0515 0.0044 1,338 0.00546 0.00422 0.00073 - degree of purification according to p. 75.6; eb 68 '. ·. 98 10.0 6.4 98.9 3. n / a 85 * - before cleaning 0.2 * 0.1 4,2 ' 0.3 0,07 0.01 0.06 - ate cleaning: 3.1. B, C, K, I - 0.8 WL 0,053 0.0023 1,171 0.0038 0,0004 0.00931 0,00045 3.2.  8 - 1-2 weight. * C, K, K - at 0.851.15 weight L 0.05 o; 002. 1,163 0.0036 0,0004 0.00928 0.0004 3-3. B - 2.5 weight, *; C, CD, - by '1.2 weight. * 0.051 0.0021 1,161 6,0033 0,00042 6,0093 0,00043 - degree of cleaning on page 3.2 76.1 y8.0 72.3 98.8 99,4 7.2 99.3 4. N / A95 * - before cleaning 0.21 0.1 4.2 oh s 0,07 0.01 0.06 - after cleaning  - ' 4.1. ε, ί, Κ, Β - 0.8 weight each, * 0,048 0,0 * 0082 1.06 0.0033 0,0004 0.0092 0,00021 4.2. B - 1-2 weight L: C, K, C - 0.851.15 weight. * _. · 0.0475 0,0008 1.0! A 0.003 0.00919 6,0002 4.3. B - 2.5 wt. *. C, K, I 1.2 wt. * . 0,0478 0,00081 1,051 0.0028 _l 0.00322 0,00021 - degree of cleaning on page *. 2. 77.4 99,2 74.9 99 100 8.1. 99.7 5. The average degree of insight (options 2,3,4) 76.4 97.7 71.7 λ ev; in 99.8: 99.3 i. .. h The average degree of purification (according to options 1.2.3 a.s. 10058 * 9) 63.7 85. . * * · 36.7 98.7 96.3