SU1442537A1 - Method of regeneration of spent engine oil - Google Patents

Abstract

The invention relates to motor oil, in particular its regeneration after automotive testing. To increase the degree of purification and simplify the process, the oil is treated with ozonized air (from 1% Oj) at 40-70 ° C, followed by purification with 0.1N. a solution of hydrazine chloride and a 2% aqueous solution of polyvinyl alcohol. These conditions ensure complete purification of the oil fractions of crude oil containing up to 5% of resinous substances and mechanical impurities, which is not achieved in the well-known multi-stage vacuum adsorption method. 1 tab.

Description

The invention relates to a method for regeneration of used engine oil and can be used at the points for cleaning (regeneration) of used engine oils.

The purpose of the invention is to simplify the process and increase the degree of oil purification.

Example 1: 250 ml of an M-8B motor oil that has been in operation for 3 months and containing up to 5% resin after centrifuging off water and metal impurities are placed in a glass reaction vessel equipped with a bubbler and passed at the temperature J to ensure the lowest viscosity of the oil being cleaned. oils (in this case, 40-70 C}, ozonized air containing 1% ozone for 25 minutes. Then 30 ml of a 0.1 N solution of hydrazinchloride are added to the ozonized oil. The mixture is stirred for 2-3 min. the layer is washed with 200 ml of 2% m aqueous solution livinilovogo alcohol (PVA) at 40-70 C. After, removal by separatory funnel aqueous rastvora.maslo heated to 110 ° C and at this temperature vscherzhivayut within minutes to remove water,

PRI mme R 2. An oil fraction of oil containing up to 5% resinous substances is dissolved in petroleum ether (70-100 ° C) in a ratio. Then it is ozonized for 45 minutes. Filtered, the solvent is distilled off. An oil is obtained with an insignificant amount of carbonyl compounds, the removal of which is carried out by the method described in Example 1,

The table shows the data on cleaning oil. .

The change in performance does not result in IP achieving the required degree of purification.

A lower value of the indicators does not lead to the purification of the oil, from undesirable impurities, and moreover its pain

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leads to the formation of a stable emulsion that does not stratify well even at high temperature.

PRI me R 3. 250 ml of used engine oil are successively treated with ozonized air at an ozone concentration in the ozone mixture of 0.5% | processing time

“D 10 min Oj-05 n. solution of hydrazine chloride and 1% aqueous solution of PVA. Under such conditions, the formation of a three-layer separation and precipitate is not observed.

l PRI me R 4. 250 ml of waste-. motor oil (АС-8, АС-10) (oil fraction of oil) is treated with ozonized air at a concentration of -. ozone in ozone-air mixture 2,

20 3 and 4% for 50 minutes, 1 and 2 hours; 0.2 n., 0.4 n. and a 0.5 N solution of hydrazine chloride and 4,5,6., 7% aqueous solution of PVA. A stable emulsion forms that does not exfoliate when heated.

The method allows to clean the oil fractions of crude oil containing up to 5% resinous substances, and to obtain oils purified from resinous substances and mechanical impurities, as well as); - 1differ multi-stage methods using expensive equipment, such as vacuum-adsorption, reduce the cost of costly recovery. genes and time to clean.

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Claims (1)

Formula The method of regeneration of waste ..Q engine oil by treating the oil with an oxidizing agent, followed by purification of the oxidized oil, characterized in that, for the purpose of simplification; of the method and degree of purification, J. oil treatment, is carried out with ozonized airMd containing 1% ozone, at 40-70 ° C and cleaning is carried out by treatment with 0.1 N, a solution of hydrazine chloride and an aqueous solution of polyvinyl alcohol. Indicators Before operation (fresh oil) After ozonation stage After additional purification with hydraine chloride and PVA I AC- { AC-10 Viscosity, () ten eight Acid number, mg KOH / g oil 0.02 0.02 0.42 0.36 0.51 0.43 0.13 0.14 Temperature, 200 200 Temperature, cure, C -15 -25 -13 -22 -12 -20 -16 -26 Density at 20 s kg / me900 895 865 851 875 872 894 892 Content% resin - - 2.2 2.4 - - - asphaltenes - - 0.3 0.4 - - - - mechanical impurities - - 1.5 0.8 - - - .l. Compiled by L.Ivanova Editor N. Bobkova Tehred M. Didyk Proofreader S. Cherni Order 6354/23 Circulation 464 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 475 Production and printing company, Uzhgorod, st. Project, 4 IE: AC- ten AS-10 AS-8 one AS-10 AS-8 9.1 7.2 9.8 8.4 9.7 8.3 172 182 206 214 212 221