RU2158175C1 - Process of mixing of liquid substances - Google Patents

Abstract

FIELD: chemical industry, synthesis of various liquid-phase substances. SUBSTANCE: process involves mechanical mixing of substances which are subjected to action of electromagnetic SHF radiation of certain frequency and intensity. Synthesis of mixed substances takes place not thanks to thermal heating by SHF field but due to forces of SHF field. EFFECT: considerable shortening of technological process and reduced energy consumption accompanied by enhanced quality of mixing. 1 tbl

Description

 The invention relates to technological chemical processes and can be used for the synthesis of various substances in the liquid phase (including very thick ones), for example, in the production of mastics, adhesives, compounds, greases, motor oils, varnishes, paints, etc. , that is, in processes in which several substances are mixed to obtain a product with the desired properties.

 The closest in technical essence and the achieved result is a method of mixing liquid substances, including mechanical mixing of the mixed substances [1]. In this method, the mixing of substances is carried out by a mechanical stirrer with blades in a vessel equipped with a jacket for water or steam heating of the entire vessel. Mixing of substances is carried out with simultaneous heating to a predetermined temperature, which is maintained until the end of the mixing process, sometimes carried out for several hours.

 The disadvantages of this method are the high energy consumption and low productivity due to the duration of the process. So, in this method, the set temperature is reached only two hours after the heating is turned on, and to achieve the necessary properties and parameters of the resulting product, it is necessary to spend two to eight hours on mixing, depending on the composition of the substances being mixed.

 The objective of the invention is to increase the efficiency of the process of mixing liquid substances by significantly reducing the time of the process and reducing energy consumption while significantly improving the quality of the synthesized product.

 This problem is solved in such a way that in a method of mixing liquid substances, including mechanical mixing of substances, the substances to be mixed are affected by electromagnetic microwave radiation with a frequency of 0.1-300 GHz and a field strength of 0.1 V / cm to 100 V / cm, depending on the molecular structure of the mixed substances.

With a uniform distribution of the mixed substances in the total volume (it is still necessary to ensure certain conditions), a synthesis reaction occurs, which allows to obtain the final product, which will have a stable state with the necessary properties. In fact, during the mixing process, the mixed substances mutually dissolve in each other. It is known from physics that all substances are composed of atoms and molecules, between which intermolecular forces of attraction and repulsion act. The dissolution of substance A in substance B is possible only in the case when the intermolecular attractive forces F _AA and F _BB , which carry out the bond between the particles of substances A and B, are overcome by forces F _AB , which appear when these substances dissolve. If F _AA and F _{BB are} significantly greater than F _AB , then molecular distribution does not occur, i.e. these substances are not soluble in each other [2]. Thus, to dissolve one substance in another, a sufficiently strong attraction between the molecules of the soluble substance and the solvent is necessary, or conditions must be created under which the forces F _AA and F _BB decrease and the force F _AB increases. In many technological processes, this is achieved by increasing the temperature of the mixed substances. In addition, many substances are divided into polar and nonpolar, consisting of polar or nonpolar molecules [3]. In polar substances, molecules, due to the asymmetric distribution of charges, have a constant dipole moment, i.e. are dipoles. In nonpolar substances, the charge distribution in the molecules is symmetrical and they do not have a dipole moment. However, under the influence of an external force field (for example, electric), the symmetry of the distribution of charges in the molecules is broken and they acquire an induced dipole moment. This phenomenon is called polarizability. In polar substances, dipoles are oriented in the direction of the external field. When an external alternating force field is applied to the mixed substances, dipoles of polar molecules and induced dipoles of non-polar molecules will follow a change in the direction of the external field. At a certain frequency and power of the external field, conditions are created when the forces of intermolecular attraction F _AA and F _BB will weaken, and the forces F _AB will increase due to the strength of the external field. As a result, heating of the mixed substances is not required to ensure the synthesis process. The minimum temperature of the mixed substances should be such as to ensure the possibility of achieving a uniform distribution of the components in the total volume with mechanical stirring.

 It is also known [3] that the natural vibration frequencies of the molecules of many substances lie in the superhigh frequency range from 0.1 GHz to 300 GHz. The closer the frequency of the external field to the frequency of the natural vibrations of the molecules, the more effective the field will affect the molecules, i.e. the forces of intermolecular interaction will change more, and the faster the process of synthesis of substances will occur.

 The synthesis effect under the influence of the microwave field to one degree or another will occur in many leachable liquids. This is explained by the fact that the stated effect is based on the classical model of the atomic and molecular structure of matter, and the interaction between atoms and molecules occurs with a discrete change in the energy state of their external electron shells, as described in quantum mechanics. The energy of the external electromagnetic microwave field present in the mixed substances makes it possible to change the state of the electron shells of various atoms and molecules faster and easier, leading them to a stable connection - synthesis.

 The method of mixing liquid substances is as follows.

 To obtain, for example, motor oil in a digester [1], which is a 2000 liter capacity equipped with a mechanical stirrer with blades, pour base oil, add 6-10 kinds of additives, in accordance with the recipe, and begin mechanical mixing. After a while, when all the additives are evenly distributed over the volume of the base oil, they begin exposure to the microwave field. The optimal time and nature of the impact are determined experimentally for each brand of engine oil produced.

 The method is illustrated by the following example.

 Base oil with additives (in accordance with the recipe) in plastic containers of 0.12 and 3 l was placed in a chamber with a volume of 25-30 l, in which an electromagnetic microwave field was created with a frequency of 2450 MHz with an electric field strength E from 0 to 24 V / cm. Immediately before being placed in the chamber, the oil with additives was mixed by shaking and shaking for 10 seconds. To determine the effect of the magnitude of the electromagnetic field strength E on the process of mixing the base oil with additives, studies were conducted in a waveguide chamber. A 50 ml glass tube filled with base oil with additives, which was pre-mixed with a glass rod for 10 seconds, was placed in the middle of the wide waveguide wall. By changing the output power of the generator, a predetermined value of E was created in a glass test tube with oil. All results are shown in the table.

 The table shows that the process of dissolution of additives in the base oil when exposed to a microwave field is practically independent of the initial and final temperatures of the mixed components.

The proposed method of mixing liquid substances provides in comparison with the prototype the following advantages:
- reduces the duration of the mixing process by several hours;
- reduces energy consumption by more than 10 times;
- improves the quality of mixing; - does not require heating, which is especially important when mixing flammable liquids.

Sources of information
1. Chernozhukov N.I. Oil and gas processing technology. Part 3. Refining of petroleum products and the production of special products. M., 1966, p. 331 (prototype).

 2. Chernozhukov N. I. Technology of oil and gas processing. M., 1966, p. 70.

 3. Skanavi G.I. Physics of dielectrics. M.-L., 1949, p. 355.

Claims (1)

 A method of mixing liquid substances, including mechanical mixing of substances and exposure to mixed substances with electromagnetic microwave radiation, characterized in that they use microwave radiation with a field strength of from 0.1 to 100 V / cm.

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