RU1832041C - Foam suppressor - Google Patents

Abstract

The invention relates to compositions that prevent foaming (foaming), and can be used in the cellulose-paper, petrochemical, petroleum and chemical industries, for example, in the manufacture of wallpaper, latex, in water-dispersion paints, during drilling, etc. The antifoam contains an organic liquid, liquid paraffin, aerosil and a dispersant, which is a mixture of oil-soluble polyethylene glycol esters of alkyl phenols and monoethanolamides of synthetic fatty acids fraction. Antifoam has a high antifoam efficiency and a long active time in relation to aqueous solutions of surfactants, latexes, etc. 1 tab.

Description

The invention relates to compositions that prevent foaming (foaming), and can be used in enterprises of the pulp and paper, petrochemical, petroleum and chemical industries, for example, in the manufacture of wallpaper, latex, in water-dispersion paints, during drilling, etc. .

The purpose of the invention is to increase the efficiency of antifoam and increase the duration of active action of antifoam.

Moreover, oil-soluble polyethylene glycol esters of alkyl phenols and monoethanolamides of synthetic fatty acids are taken in a ratio of 1: 1 to 1:10.

Liquid paraffin (TU 38,101856-84) is highly compatible with hydrophobic and hydrophilic products and is used as an organic liquid in this composition.

Aerosil (TU 39-888-83) in organic liquids sharply increases the antifoam efficiency of the latter.

A mixture of oil-soluble surfactants - polyethylene glycol ethers of alkyl fuels (TU 6-02-997-75) and monoethanolamides of synthetic fatty acids (TU 38.10797-82) contributes to a more uniform distribution of aerosil in the organic liquid - paraffins, which leads to a significant increase in the efficiency of defoaming for due to uniform composition and improved compatibility with the foam medium. The use of aerosil antifoam and a surfactant mixture in a certain ratio allows a more significant increase in the time of the active action of the drug due to the synergy of their action than is achieved when using each component separately.

The preparation technology of the proposed composition consists in mixing the starting components at a temperature of 60-70 ° C according to a periodic or continuous scheme. No gas emissions or wastewater are generated.

SD

yo about jb

The antifoam ability of the antifoam agent was evaluated according to the following procedure. Tissue grinder (RT-1) having a graduation is poured into a glass of 100 ml of a 0.1% solution of a foaming agent and 0.5% of a defoaming agent is added to a foaming medium (alkyl sulfates of the Cs-Cfs fraction are used as a foaming agent). Set the speed switch at 400 rpm, then simultaneously turn on the electric motor and the stopwatch. The solution was stirred for 30 s, the electric motor was turned off, and the total volume of the resulting foam and liquid was recorded in a beaker immediately after mixing was completed. As a parameter for evaluating the effectiveness of antifoam action, the value of E, which is determined by the equation

E (1-) -100%,

where V2 and Vi are the volume of air in the foamed solution with antifoam and without antifoam, respectively.

The antifoaming time (t) is determined as follows. On the same device, re-mixing is carried out after 10, 20, 30, etc. minutes and determine the value of E. During the action of the antifoam take the maximum time at which the value of E is reduced by no more than 10%.

Example 1. The composition of the antifoam, wt.%: Paraffin 97.2; Aerosil 2.0; alkylphenol polyethylene glycol esters (AF-4) and synthetic fatty acid monoethanolamides (MEA), taken in a ratio of 1: 1 0.8.

The appearance of the composition is a gel-like system, it stratifies during storage.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 58%, g 10 min.

Example 2. The composition of the proposed antifoam, wt.%:

paraffin 96.0

Aerosil 3.0

AF-4 and IEA

in the ratio 1: 1 1,0

The appearance of the composition is a gel-like system.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 70%, g 30 min.

Example 3. The composition of the proposed antifoam, wt.%:

paraffin 89.5

aerosil 9

AF-4 and IEA

in a ratio of 1: 1 1.5.

0

5

0

5

0

5

0

5

0

5

The appearance of the composition is a uniform gel-like system.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 90%, t 40 min.

Example 4. The composition of the proposed antifoam, wt.%:

paraffin 83.0

Aerosil 15.0

AF-4 and IEA

in the ratio 1: 1 2.0

Appearance of the composition is a gel-like system with a low sediment content.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 100%, t 60 min.

Example 5. The composition of the proposed antifoam, wt.%:

paraffin wax 81.0

Aerosil 16.0

AF-4 and IEA

in the ratio 1: 1 3.0

Appearance of the composition is a viscous gel-like system with a low sediment content.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 85%, g 50 min.

Example 6. The composition of the proposed antifoam, wt.%:

paraffin 89.5

Aerosil 9.0

hydroxyethylated alkyl phenols

(Poet 3) and the IEA in the ratio

1: 1 1.5

The appearance of the composition is a gel-like homogeneous system.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 95%, g 50 min.

Example 7. Composition for defoaming, wt.%:

paraffin 89.5

Aerosil 9.0

hydroxyethylated alkyl phenols

(Poet 5) and the IEA in the ratio

1: 1 1.5

The appearance of the composition is a uniform gel-like system.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 80%, t 50 min.

Example 8. The composition for defoaming, wt.%:

paraffin 89.9

Aerosil 9.0

AF-4 and IEA in

ratio 1:10 1.1

The appearance of the composition is homogeneous viscous gel-like composition.

. The following data were obtained on the antifoaming efficiency of antifoam agents:

E 97%, g 60 min.

Example 9. The composition of the proposed antifoam, wt.%:

paraffin 89.5

Aerosil 9.0

AF-4 and IEA in

ratio 2: 1 1,5

The appearance of the composition is an exfoliating system with a slight precipitate.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 60%. g 20 min.

Example 10. The composition for defoaming, wt.%:

paraffin. 89.4

Aerosil 9.0

AF-4 and IEA in

ratio 1:15 1.6

The appearance of the composition is a viscous gel-like system.

The following data were obtained on the antifoaming efficiency of antifoam agents:

E 60 ° ,, g 20 min.

Comparative data and experimental results are shown in the table.

These tables confirm that the proposed antifoam has a defoaming ability that exceeds the efficiency of the antifoam prototype by 1.5-2 times.

The upper limit of the content of Aerosil additive is limited by economic indicators, with an antifoam content of 15% in May. Aerosil completely prevents foaming. Therefore, a further increase in the content of Aerosil is economically disadvantageous, as it leads to a rise in price

antifoam without increasing its effectiveness. In addition, a further increase in the aerosil content leads to a violation of the uniformity of the composition, which leads to a decrease in efficiency.

It should also be noted that when using liquid paraffins in combination with activating additives (aerosil and dispersant), the time of the active action of antifoam is 2-3 times longer

Compared with the defoamer of the prototype.

In addition to the benefits of this

composition should include the reduction of fire hazard. The flash point of dibutyl ether is 25 ° C, and the temperature

the flash of the proposed antifoam is 108 ° C.

Claims (1)

SUMMARY OF THE INVENTION An antifoam agent containing an organic liquid, aerosil and a dispersant. featuring both and with that. that, in order to increase the efficiency of anti-foaming and increase the duration of the active action, it contains liquid paraffin as an organic liquid, a mixture of oil-soluble polyethylene glycol ethers of alkyl phenols and monoethanol amides of synthetic fatty acids of the Xu Cie fraction in a ratio of 1: 1 - 1:10 as the dispersant in the following ratio of ingredients, wt.%: Aerosil 3-15. Dispersant 1-2. Liquid paraffin The composition and effectiveness of defoamers