RU2031919C1 - Method for processing stripped lubricating and cooling emulsions of rolling aluminium - Google Patents

Abstract

FIELD: purification of sewage. SUBSTANCE: concentrated solution of sodium chloride having concentration at least 25 % is proposed as demulsifier. Trace amounts of sodium hydroxide are added into it to pH 7.5-9.0, mass ratio salt solution: emulsion being as least 1:4. The process is followed by separation into aqueous and oil layer, aqueous layer is evaporated and thus obtained distillate is used for production of fresh emulsion. Residue of evaporation is used for processing stripped emulsion. EFFECT: simplifies decomposition of stripped emulsion. 2 cl, 1 tbl

Description

 The invention relates to the field of wastewater treatment in metal processing, in particular to methods for processing waste lubricant-cooling emulsions generated during the rolling of aluminum.

 The lubricating-cooling emulsions used in rolling aluminum are oil-in-water emulsions with an oil content of up to 100 g / l emulsion. In the process of rolling, the emulsions are saturated with a thin suspension of aluminum, which affects the quality of aluminum rolling. In this case, the color of the emulsion changes from milky white (in the fresh emulsion) to blue-gray (in the used emulsion).

 Spent emulsions are one of the main sources of wastewater in metallurgical and engineering plants. Usually they are diluted with a large amount of relatively pure water until the required standards are achieved, and various types of treatment are used to reduce their degree of contamination.

Various methods are known for decomposing spent cooling lubricant emulsions. For example, electrochemical purification, for the implementation of which industrial anionic surfactants are introduced: alkyl sulfates, alkyl sulfonates, linear alkyl benzene sulfonates and conduct electrochemical coagulation at pH = 4.5-5 and a current density of 0.01-0.012 A / cm ² . The method can be used to clean drains containing cutting fluids grinding fluids from metal processing plants. The electrochemical method of purification of emulsion wastewater containing oil can be attributed to the method of purification using electrochemical treatment equipment, consisting of ELKOFLOK blocks.

Various coagulants are used to decompose the emulsion and purify oil from wastewater. For example, the hydrocarbon emulsion to be separated is displaced with an aqueous, alcoholic, or aqueous-alcoholic solution of an ionic surfactant such as glygol ether at a temperature of 313-363 ^° K in such a ratio that the concentration of surfactant in the resulting aqueous phase is at least 150 mg / l.

 In addition, for the decomposition of the emulsion and the separation of oils from emulsions containing anionic surfactants, mechanical cleaning methods are used, in which microfilters are used to separate insoluble solid impurities. As the filter material is used pulp.

 Certain positive results can be achieved by decomposing the emulsion with superheated water, as well as water vapor sprayed under a pressure exceeding the working pressure in the pipeline.

 All of the above methods of decomposition of the emulsion have significant disadvantages: high temperature or pressure, which is associated with an additional expenditure of energy, as well as the use of expensive reagents, the presence of a large amount of wastewater, and the complex design of the process.

 The prototype of the proposed method for the decomposition of the emulsion is a method in which the processing of the cooling lubricant emulsion is carried out by the method of two-stage coagulation: first, using sodium chloride (20 g / l of the emulsion, then after acidifying the solution with sulfuric acid (1-2 g / l) to pH 5- 6 with the help of iron sulfate (4-6 g / l) with the addition of “weighting agents” (bentonite, lime) .In this case, the metal suspension becomes sediment (not less than 2% of the liquid volume), and the residual oil concentration in the waste water is 60 -80 mg / l.

 The disadvantages of the prototype method are: the complexity of the technology, due to the multi-stage process (two stages of reagent treatment, precipitation, its dehydration and transportation, corrosion protection issues); high consumption of reagents; the introduction of large amounts of chloride into wastewater with a relatively high oil content; the presence of stubborn sediment.

 The aim of the invention is to simplify the processing of waste emulsion, reducing the consumption of reagents with the complete exclusion of wastewater and sludge.

 The goal of the invention is achieved by a method in which the spent emulsion is treated with a concentrated (not less than 25 wt.%) Sodium chloride solution, to which a small amount of sodium alkali is added to pH = 7.5-9.0. Processing is carried out at a weight ratio of saline: emulsion of at least 1: 4, followed by separation into an oil and water layer, evaporation of the aqueous layer, using distillation (distillate) to prepare a fresh emulsion, and evaporation residues for reprocessing the next portions of the spent emulsion ( with control over the concentration of sodium chloride and pH). The processing time of the emulsion (stirring) is 10-20 minutes, the settling time is 1-2 hours.

 Salient features of the proposed method are: use for the decomposition of the emulsion of sodium chloride concentration of at least 25 wt.% In an alkaline medium pH = 7.5-9.0, as well as the reuse of water-salt solution obtained by decomposition of the emulsion after evaporation to a concentration of at least 25 wt.%, which allows to completely eliminate wastewater in this production. The distillation obtained by evaporation of the water-salt layer is used to prepare a fresh emulsion.

 The proposed method is illustrated by the following examples.

PRI me R 1 (for comparison). The experiment was carried out in a glass reactor with a stirrer and a lower fitting for unloading the lower water-salt layer. 250 g of spent emulsion are charged into the reactor. In a separate container, a sodium chloride solution is prepared at a concentration of 25 wt.% D = 1.188 g / cm ³ , a NaCl solution has a pH = 7. When the stirrer is on, a sodium chloride solution is fed into the reactor in a weight ratio of 1: 0.9 NaCl solution: emulsion. Stirring is carried out for 15 minutes. Then, after settling for 2 hours, the lower water-salt layer was evaporated. The evaporation of the lower water-salt layer is carried out to a solution concentration of 25 wt.% D = 1.188 g / cm ³ , pH = 7.0, then one stripped off the water-salt layer is used to decompose the spent emulsion, and distillate (distillate) is used to prepare a fresh emulsion . Loaded into the reactor: 250 g of spent emulsion and 275 g of a 25% NaCl solution d = 1.188 g / cm ³ pH = 7. After stirring for 15 minutes and settling for 2 hours, the following was obtained: 445.15 g of lower water-salt layer and 78.11 g of an oil layer containing a suspension of aluminum.

The lower water-salt layer d = 1,071 g / cm ³ containing 10 wt.% NaCl is evaporated to a concentration of NaCl in it of 25 wt.% And d = 1,188 g / cm ³ .

By evaporation of 445.15 g of the lower water-salt layer, we obtained: 266.03 g of distillate pH = 7 and 178.4 g of residue d = 1.188 g / cm ³ , pH = 7.0.

 Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer, turbid, dark gray, contains a suspension of aluminum, the emulsion is not completely decomposed.

 During evaporation of the water-salt layer, aluminum deposition is observed on the walls of the reactor. The evaporation mode is unstable, flipping.

 The distillation as a result of the overshoots is cloudy, contains a suspension of aluminum; it is unsuitable for re-processing the spent emulsion by it.

 PRI me R 2 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl solution: emulsion 1: 1, NaCl solution has a pH = 7.0.

The reactor is loaded with 250 g of spent emulsion and 250 g of NaCl solution of 25 wt.% D = 1,188 g / cm ³ .

After mixing and settling obtained: 424.11 g of a water-salt layer d = 1,041 g / cm ³ , pH = 7.0 and 74.30 g of an oil layer containing a suspension of aluminum.

After evaporation of the lower layer, we obtained: 321.11 g of distillate pH = 7.0 and 100.0 g of residue d = 1.188 g / cm ³ , pH = 7.0.

 Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer, turbid, dark gray, contains a suspension of aluminum, the emulsion is not completely decomposed. During evaporation of the water-salt layer, aluminum deposition is observed on the walls of the reactor. The evaporation mode is unstable, flipping. Distillation is not used to prepare a fresh emulsion.

 PRI me R 3 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl solution: emulsion 1: 3, NaCl solution has a pH = 7.0.

The reactor is loaded with 250 g of spent emulsion and 83.3 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After mixing and settling obtained: 282.11 g of a water-salt layer d = 1,056 g / cm ³ , pH = 7.0 and 50.08 g of an oil layer containing a suspension of aluminum.

After evaporation of the lower layer, we obtained: 190.04 g of distillate pH = 7.0 and 90.1 g of residue d = 1.188 g / cm ³ , pH = 7.0.

 Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is cloudy, gray, contains a suspension of aluminum, the emulsion is not completely decomposed.

 During evaporation of the water-salt layer, aluminum deposition is observed on the walls of the reactor. The evaporation mode is unstable, flipping. Distillation is not used to prepare a fresh emulsion.

 PRI me R 4 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl solution: emulsion 1: 4, NaCl solution has a pH = 7.0.

The reactor is loaded with 250 g of spent emulsion and 62.5 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After mixing and settling obtained: 263.91 g of a water-salt layer d = 1,071 g / cm ³ , pH = 7.0 and 46.13 g of an oil layer containing a suspension of aluminum. After evaporation of the water-salt layer, the following was obtained: 157.13 g of distillate pH = 7.0 and 104.0 residues d = 1.188 g / cm ³ , pH = 7.0.

 Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer is cloudy gray, contains a suspension of aluminum, the emulsion is not completely decomposed.

 During evaporation of the water-salt layer, aluminum deposition is observed on the walls of the reactor. The evaporation mode is unstable, flipping. Distillation is not used to prepare a fresh emulsion.

 PRI me R 5 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl: emulsion is 1: 4.5, and the NaCl solution has a pH = 7.0.

The reactor is loaded: 250 g of emulsion and 55.50 g and 25% NaCl solution d = 1.88 g / cm ³ .

After moving and settling obtained: 258.51 g of a water-layer layer d = 1,101 g / cm ³ , pH = 7.0 and 45.03 g of an oil layer containing a suspension of aluminum.

After evaporation of the lower water-salt layer, the following was obtained: 132.01 g of distillate pH = 7.0 and 123.11 g of the residue d = 1.188 g / cm ³ , pH = 7.0.

 Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion. When the emulsion decomposes, the water-salt layer is cloudy, gray, contains a suspension of aluminum, the emulsion is not completely decomposed.

 During evaporation of the water-salt layer, aluminum deposition is observed on the walls of the reactor. The evaporation mode is unstable, flipping. Distillation is not used to prepare a fresh emulsion.

 PRI me R 6. The experiment was carried out in the conditions of example 1.

 The ratio of 25% NaCl: emulsion is 1: 0.9, and the NaCl solution has a pH of 7.5.

The reactor is loaded: 250 g of spent emulsion and 275 g of a 25% solution of NaCl d = 1,188 g / cm ³ .

After mixing and settling obtained: 444.91 g of a water-salt layer pH = 7.5 and 77.10 g of an oil layer containing a suspension of aluminum. After evaporation of the water-salt layer, the following was obtained: 372.5 g of distillate pH = 7.0 and 70.81 g of residue d = 1.188 g / cm ³ , pH = 7.5. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is yellow transparent, the emulsion decomposes, does not contain aluminum suspension.

 When evaporation of the water-salt layer, the residue is yellow-brown in color, transparent, the evaporation regimen is calm without overshoot. Stripping can be used to prepare a fresh emulsion.

 PRI me R 7. The experiment was carried out in the conditions of example 1.

 The ratio of 25% NaCl: emulsion is 1: 1, the NaCl solution has a pH = 7.5.

The reactor is loaded: 250 g of spent emulsion and 250 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After mixing and settling obtained: 423.98 g of a water-salt layer and 74.1 g of an oil layer containing a suspension of aluminum. After evaporation of the water-salt layer, the following was obtained: 287.51 g of distillate pH = 7.0 and 134.21 g of the residue d = 1.188 g / cm ³ , pH = 7.5. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is yellow transparent, the boundary between the oil layer and the water-salt layer is clear, the emulsion decomposes, does not contain aluminum suspension.

 The evaporation mode is stable, transparent distillation can be used to prepare a fresh emulsion.

 PRI me R 8. The experiment was carried out in the conditions of example 1.

 The ratio of 25% NaCl r to emulsion is 1: 3. The NaCl solution has a pH = 7.5.

The reactor is loaded with 250 g of spent emulsion and 83.3 g of a 25% NaCl solution d = 1.188 g / cm ³ . After mixing and settling, 282 g of a water-salt layer of pH = 7.5 and 49.97 g of an oil layer containing a suspension of aluminum were obtained.

After evaporation of the water-salt layer, 168.13 g of distillate pH = 7.0 and 112.00 g of residue d = 1.188 g / cm ³ pH = 7.5 were obtained. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer is yellow, transparent, the interface is clear, the emulsion has decomposed completely, does not contain aluminum suspension. When evaporation of the water-salt layer, the remainder is yellow-brown in color, transparent does not contain suspended aluminum. Steady mode steady. Stripping can be used to prepare a fresh emulsion.

 PRI me R 9. The experiment was carried out in the conditions of example 1.

 The ratio of 25% NaCl to emulsion is 1: 4. The NaCl solution has a pH = 7.5.

The reactor is loaded with 250 g of spent emulsion and 62.5 g of a 25% NaCl solution d = 1.188 g / cm ³ . After mixing, 264.37 g of a water-salt layer of pH = 7.5 and 46.08 g of an oil layer containing a suspension of aluminum were obtained.

After evaporation of the water-salt layer, 136.03 g of distillate pH = 7.0 and 125.10 g of residue d = 1.188 g / cm ³ , pH = 7.5, were obtained. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 After decomposition of the emulsion, the water-salt layer is yellow, transparent, the interface is clear, the emulsion has decomposed completely, does not contain a suspension of aluminum. Steady mode steady. Stripping can be used to prepare a fresh emulsion.

 PRI me R 10 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl: emulsion is 1: 4.5, and the NaCl solution has a pH of 7.5.

The reactor is loaded: 250 g of spent emulsion and 55.5 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After stirring and settling, 258.0 g of a water-salt layer and 44.98 g of an oil layer containing a suspension of aluminum were obtained. After evaporation of the water-salt layer, 112.1 g of distillation pH = 7.0 and 143.54 g of residue d = 1.188 g / cm ³ , pH = 7.5 were obtained. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer is gray, opaque, the interface is fuzzy, the emulsion has not decomposed, contains a suspension of aluminum.

 During evaporation of the water-salt layer, aluminum deposition is observed on the walls of the reactor. The evaporation mode is unstable, there are overshoots. Stripping cannot be used to prepare a fresh emulsion.

 PRI me R 11. The experiment was carried out in the conditions of example 1.

 The ratio of 25% NaCl: emulsion is 1: 0.9, and the NaCl solution has a pH of 8.0.

The reactor is loaded with 250 g of spent emulsion and 275 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After stirring and settling obtained: 374.10 g of distillate pH = 7.0 and 71.40 g of residue d = 1.188 g / cm ³ , pH = 8.0. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer is yellow, transparent, the interface is clear, the emulsion has decomposed, does not contain aluminum suspension.

 When evaporation, the residue is yellow-brown, transparent, does not contain suspended aluminum. The evaporation mode is stable, without overshoot. Stripping can be used to prepare a fresh emulsion.

 Experience 12. The experiment was carried out in the conditions of example 1.

 The ratio of the 25% NaCl solution to the emulsion is 1: 1, the NaCl solution has a pH = 8.

The reactor is loaded with 250 g of spent emulsion and 250 g of a 25% NaCl solution d = 1.188 g / cm ³ . After stirring and settling, 424.61 g of a water-salt layer and 74.55 oil layer containing a suspension of aluminum were obtained.

After evaporation of the water-salt layer, 100.28 g of distillate were obtained, pH = 7.0 and 321.75 g of residue, d = 1.188 g / cm ³ , pH = 8.0. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer is yellow, transparent, the interface is clear, the emulsion has decomposed, does not contain aluminum suspension.

 When evaporation of the water-salt layer, the residue is yellow, transparent, does not contain a suspension of aluminum. Steady mode steady. Distillation can be used to prepare a fresh emulsion.

 Experience 13. The experiment was carried out in the conditions of example 1.

 The ratio of 25% NaCl to emulsion is 1: 3; NaCl has a pH of 8.

The reactor is loaded with 250 g of spent emulsion and 83.3 g of a 25% NaCl solution d = 1.188 g / cm ³ . After stirring and settling, 281.97 g of a water-salt layer and 50.35 g of an oil layer containing a suspension of aluminum were obtained.

After evaporation of the water-salt layer, 191.00 g of distillation pH = 7.0 and 90.01 g of residue d = 1.188 g / cm ³ , pH = 8 were obtained. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to decomposition of waste emulsions.

 When the emulsion decomposes, the water-salt layer is yellow, transparent, the interface is clear, the emulsion has decomposed, does not contain aluminum suspension.

 When evaporation of the water-salt layer, the residue is yellow, transparent, does not contain a suspension of aluminum. The evaporation mode is stable, without overshoot. Stripping can be used to prepare a fresh emulsion.

 Experiment 14. The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl to emulsion is 1: 4; NaCl has a pH of 8.0.

The reactor is loaded with 250 g of spent emulsion and 62.5 g of a 25% NaCl solution d = 1.188 g / cm ³ . After mixing and settling obtained: 264.29 g of a water-salt solution and 45.89 g of an oil layer containing a suspension of aluminum.

After evaporation of the water-salt layer, 158.10 g of distillate were obtained pH = 7.0 and 105.12 g of residue d = 1.188 g / cm ³ , pH = 8.0. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is yellow, transparent, the interface is clear, the emulsion has decomposed, does not contain aluminum suspension.

 After evaporation of the water-salt layer, the residue is yellow, transparent, does not contain a suspension of aluminum. The evaporation mode is stable, without overshoot. Stripping can be used to prepare a fresh emulsion.

 Experiment 15 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl to emulsion is 1: 4.5; the NaCl solution has a pH of 8.0.

The reactor is loaded with 250 g of spent emulsion and 55.5 g of a 25% NaCl solution d = 1.188 g / cm ³ .

 After mixing and settling obtained: 258.45 g of a water-salt solution and 44.10 g of an oil layer containing suspended aluminum.

When evaporation of the water-salt layer obtained: 134.10 g of distillate pH = 7.5 and 123.61 g of residue d = 1.188 g / cm ³ , pH = 8.0. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is opaque, the interface is fuzzy, the emulsion is not completely decomposed, it contains aluminum suspensions.

 After evaporation of the water-salt layer, the remainder is gray, contains a suspension of aluminum. The evaporation mode is unstable, flipping. On the walls of the reactor are crystals of aluminum. Stripping cannot be used to prepare a fresh emulsion.

 Experiment 16. The experiment was carried out under the conditions of Example 1. The ratio of a 25% NaCl solution: emulsion was 1: 0.9, and the NaCl solution had a pH = 9.0.

The reactor is loaded: 250 g of spent emulsion and 275 g of a 25% NaCl solution at = 1.188 g / cm ³ .

After mixing and settling obtained: 445.3 g of saline and 77.10 g of an oil layer containing a suspension of aluminum. After evaporation of the water-salt layer, the following was obtained: 373.10 g of distillate pH = 7.0 and 71.00 g of the residue, pH = 9.0, d = 1.188 g / cm ³ . Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer is transparent, yellow, does not contain aluminum suspension, the emulsion decomposed. After evaporation of the water-salt layer, the residue is yellow, transparent, does not contain a suspension of aluminum. The evaporation mode is stable, without overshoot. Stripping can be used to prepare a fresh emulsion.

 Experiment 17. The experiment was conducted under the conditions of example 1.

 The ratio of 25% NaCl solution: emulsion 1: 1, NaCl solution has a pH = 9.0.

The reactor is loaded: 250 g of the spent emulsion and 250 g of a 25% NaCl solution d = 1.188 g / cm ³ . After mixing and settling obtained: 424.3 g of a water-salt solution and 74.0 g of an oil layer containing a suspension of aluminum.

After evaporation of the water-salt layer obtained: 321.62 g of distillate pH = 7.0 and 100.74 g of residue pH = 9.0 d = 1.188 g / cm ³ . Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is transparent, yellow in color, does not contain suspended aluminum, the emulsion decomposed. After evaporation of the water-salt layer, the residue is yellow-brown in color, transparent, does not contain a suspension of aluminum. The evaporation mode is stable, without overshoot. Stripping can be used to prepare a fresh emulsion.

 Experiment 18. The experiment was conducted under the conditions of example 1.

 The ratio of 25% NaCl: emulsion 1: 3, NaCl solutions has a pH of 9.0.

The reactor is loaded: 250 g of spent emulsion and 83.3 g of 25% NaCl d = 1.188 g / cm ³ .

After mixing and settling obtained: 282.14 g of a water-salt layer and 49.27 g of an oil layer containing suspended aluminum. After evaporation, it was obtained: 191.86 g of distillate pH = 7.0 and 90.0 g of residue pH = 9.0, d = 1.188 g / cm ³ . Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is transparent, yellow in color, does not contain suspended aluminum, the emulsion decomposed. After evaporation of the water-salt layer, the residue is yellow-brown in color, transparent, does not contain a suspension of aluminum. The evaporation mode is stable, without overshoot. Stripping can be used to prepare a fresh emulsion.

 Experiment 19. The experiment was conducted under the conditions of Example 1.

 The ratio of 25% NaCl solution: emulsion 1: 4, NaCl solution has a pH = 9.0.

The reactor is loaded: 250 g of spent emulsion and 62.5 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After mixing and settling obtained: 264.28 g of a water-salt layer and 45.03 g of an oil layer containing a suspension of aluminum. After evaporation of the water-salt layer, the following was obtained: 136.1 g of distillate pH = 7.0 and 125.97 g of a residue, pH = 9.0, d = 1.188 g / cm ³ . Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion. When the emulsion decomposes, the water-salt layer is yellow, transparent, does not contain aluminum suspension, the emulsion decomposes.

 After evaporation of the water-salt layer, the residue is yellow-brown in color, does not contain a suspension of aluminum. The evaporation mode is stable, without overshoot. Stripping can be used to prepare a fresh emulsion.

 Experiment 20 (for comparison). The experiment was carried out under the conditions of example No. 1.

 The ratio of 25% NaCl: emulsion is 1: 4.5, and the NaCl solution has a pH of 9.0.

The reactor is loaded with 250 g of spent emulsion and 55.5 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After mixing and settling obtained: 258.21 g of a water-salt layer and 44.02 g of an oil layer containing a suspension of aluminum. After evaporation of the water-salt layer, the following was obtained: 112.03 g of distillate pH = 7.8 and 143.28 g of the residue, pH = 9.0, d = 1.188 g / cm ³ . Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion is decomposed, the water-salt layer of gray color, opaque, contains a suspension of aluminum, the emulsion did not decompose. During evaporation of the water-salt layer, aluminum deposition is observed on the walls of the reactor.

 The evaporation mode is unstable, flipping. Stripping cannot be used to prepare a fresh emulsion.

 Experience N 21 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl: emulsion is 1: 0.9, and NaCl has a pH of 10.0.

The reactor is loaded with 250 g of spent emulsion and 275 g of a 25% NaCl solution d = 1.188 g / cm ³ .

With stirring and settling obtained: 445.03 g of a water-salt layer and 77.01 g of an oil layer containing a suspension of aluminum. After evaporation, it was obtained: 372.04 g of distillate pH = 8.2 and 70.03 g of residue d = 1.188 g / cm ³ . Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is yellow, transparent, does not contain aluminum suspension, the emulsion decomposes.

 During evaporation of the water-salt layer, strong foaming is observed and foam enters the distillate. Stripping cannot be used to prepare a fresh emulsion.

 Experiment 22 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl to spent emulsion is 1: 1. The NaCl solution has a pH = 10.0.

The reactor is loaded: 250 g of spent emulsion and 250 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After stirring and settling, 424.10 g of a water-salt layer and 74.11 g of an oil layer containing a suspension of aluminum were obtained. After evaporation of the water-salt layer, 287.14 g of distillate pH = 8.0 and 134.05 g of residue pH = 10.0 d = 1.188 g / cm ^{3 were} obtained. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is yellow, transparent, the emulsion has decomposed, does not contain aluminum suspension.

 The evaporation mode is unstable, there is a strong foaming, transfer. Stripping cannot be used to prepare a fresh emulsion.

 Experiment 23 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl to spent emulsion is 1: 3. The NaCl solution has a pH = 10.0.

The reactor is loaded with 250 g of spent emulsion and 83.3 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After mixing and settling obtained: 282.15 g of a water-salt layer and 49.54 g of an oil layer that does not contain a suspension of aluminum. After evaporation of the water-salt layer, the following was obtained: 168.25 g of distillate pH = 7.9 and 111.35 g of the residue d = 1.188 g / cm ³ pH = 10.0. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is transparent, yellow in color, the emulsion decomposes, does not contain aluminum suspension.

 The evaporation mode is unstable, there is a strong foaming, transfer. Stripping cannot be used to prepare a fresh emulsion.

 Experiment 24 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl solution: emulsion 1: 4, NaCl solution has a pH = 10.0.

The reactor is loaded: 250 g of spent emulsion and 62.5 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After mixing and settling obtained: 264.01 g of a water-salt layer and 45.01 g of an oil layer containing a suspension of aluminum. After evaporation of the water-salt layer, we obtained: 138.08 g of distillate pH = 7.8 and 125.28 g of the residue d = 1.188 g / cm ³ , pH = 10.0. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is yellow, transparent, does not contain aluminum suspension, the emulsion decomposes.

 During evaporation of the water-salt layer, strong foaming, overshoots are observed. Foam gets into the distillate. Stripping cannot be used to prepare a fresh emulsion.

 Experiment 25 (for comparison). The experiment was carried out under the conditions of example 1.

 The ratio of 25% NaCl solution: emulsion is 1: 4.5, the NaCl solution has a pH = 10.0.

The reactor is loaded: 250 g of spent emulsion and 55.5 g of a 25% NaCl solution d = 1.188 g / cm ³ .

After mixing and settling obtained: 258.18 g of a water-salt layer and 42.74 g of an oil layer containing a suspension of aluminum. After evaporation of the water-salt layer, the following was obtained: 112.02 g of distillate pH = 7.9 and 143.0 of the residue d = 1.188 g / cm ³ , pH = 10.0. Distillation is used to prepare a fresh emulsion, and the residue after evaporation is sent to the decomposition of the spent emulsion.

 When the emulsion decomposes, the water-salt layer is transparent, yellow in color, does not contain aluminum suspension, the emulsion decomposes.

 During evaporation of the water-salt layer, strong foaming is observed, the foam is transferred to distillate. Stripping cannot be used to prepare an emulsion.

 The results of the experiments are summarized in table 1.

 The decomposition of the emulsion with a solution of sodium chloride having a pH = 7.0, at any ratio of a solution of sodium chloride: the emulsion is unsatisfactory. The water layer is gray, contains a suspension of aluminum. During evaporation of the water layer, due to an undecomposed emulsion, overshoots are observed, the evaporation regime is unstable. This is illustrated by examples 1 to 5. Unsatisfactory decomposition of the emulsion also occurs if the pH of the sodium chloride solution falls within the range of pH = 7.5-9.0, and the ratio of the sodium chloride solution: emulsion is less than 1: 4. In this case, the emulsion does not decompose; the water-salt layer of gray color contains a suspension of aluminum; the evaporation of the water-salt layer is unstable, transfer. This is illustrated by examples 10,15,20. In the case of using a strongly alkaline solution of sodium chloride at any ratio of the sodium chloride solution, the decomposition of the emulsion proceeds satisfactorily, but when the water-salt layer is evaporated, strong foaming is observed, as a result of which the distillation has an alkaline reaction, which does not allow using it to prepare a fresh emulsion. This is illustrated by examples 21-25.

 Thus, satisfactory examples corresponding to the process conditions, i.e. pH = 7.5-9.0 and the ratio of the solution of sodium chloride: emulsion is not less than 1: 4.0, are examples 6-9, 11-14, 16-19.

Claims (2)

 1. METHOD FOR PROCESSING WASTE LUBRICANT COOLING EMULSIONS FROM ALUMINUM ROLLING, including treatment with sodium chloride solution, characterized in that the treatment is carried out while maintaining the concentration of sodium chloride solution at least 25 wt.% With the addition of sodium alkali to it to a pH of 7 equal to 7 5-9.0, with a ratio of saline: emulsion of at least 1: 4, followed by settling of the mixture and evaporation of the exfoliated aqueous solution, using the residue from the evaporation to process a new portion of the spent emulsion, and the resulting distillate and - for the preparation of a fresh emulsion.  2. The method according to claim 1, characterized in that the evaporation of the aqueous solution is carried out until the distillation residue is quantitatively equal to the initial alkalized saline solution, while maintaining the initial concentration of sodium chloride and pH of the medium.

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