DE10209147A1 - Rotor-Stator Mixer for rapid production of liquid dispersions from temperature sensitive materials has a variable geometry mixing cavity - Google Patents

Abstract

A rotary mixer has inlet (5) and outlet (6) at opposite ends of a tapered working cavity, where the rotor-stator diameter ratio decreases from the inlet to the outlet end.

Description

The invention relates to rotor-stator mixers with which fast, Temperature-sensitive processes can be carried out in the liquid phase.

Rotor-stator mixers generally consist of at least one Mixing elements provided rotor and a stator surrounding the rotor, the current-breaking elements. Such rotor-stator mixers are well known. The rotor rotates at high speed while the stator remains stationary. Due to the movement of the rotor, the liquid that is in the Annular gap is located between the rotor and the stator, mixed turbulently. In the case of immiscible liquids, the high energy input makes one of the both liquids finely dispersed in the other. Here is the emerging one Dispersion the more finely divided the higher the speed and thus the introduced Energy is. Due to the high speed of the rotor during mixing a lot of energy introduced into the liquid and converted into heat. Thereby there is an increase in the temperature of the liquid in the course of the mixing process Mixture.

A solution is included in the production of polyurea dispersions Containing tolylene diisocyanate and a polyether with an emulsion Hydrazine hydrate and a polyether quickly mixed. Toluene diisocyanate reacts and hydrazine hydrate very quickly to a finely divided solid. Problematic with the reaction is that the emulsion fed into the mixer at high Temperatures tend to decay. With a coarse emulsion, however, only undesirably generated coarse solid particles. It also leads to a too high Temperature to reduce product quality and increase the build-up of deposits in the Mixer.

The object of the present invention is to provide rotor-stator Mixers with which liquids without a sharp rise in temperature very quickly can be mixed or dispersed. The object of the present invention is continue to use the rotor-stator mixer according to the invention for the Production of polyurea dispersions.

The task is solved by rotor-stator mixers, in which the in mixing components entered mixing energy per volume, that is the specific energy input when the mixing / dispersing occurs Components in the rotor-stator mixer is very high and to exit from the rotor Stator mixer decreases. This ensures that mixing / dispersing components very strong when entering the rotor-stator mixer be mixed. However, this means that the associated mixed energy Temperature increase of the mixture / dispersion does not become too large, the specific energy input in the direction of the outlet from the rotor-stator mixer. In this way, the reactants can be distributed very quickly together to be reacted. The intensive mixing / dispersion of the Components take place during a short dwell time. In connection there is the post-mixing / post-dispersion, with a lower specific energy input is mixed / dispersed.

The invention relates to a rotor-stator mixer consisting at least of one with mixing elements and a rotor surrounding the rotor, with current-stator provided stator, an inlet in the rotor stator Mixer and an outlet from the rotor-stator mixer, the inlet and the outlet at opposite ends in the direction of the axis of rotation of the rotor of the rotor-stator mixer are arranged, characterized in that the Ratio of the diameter of the rotor to the diameter of the stator in Direction of the axis of rotation of the rotor from the inlet of the rotor-stator mixer to The rotor-stator mixer outlet decreases.

The diameter of the rotor in the sense of the invention is the diameter of the rotor with the mixing elements arranged thereon. Under According to the invention, the diameter of the stator is the inside diameter of the stator understood without the current-breaking elements attached to it.

The ratio of the diameter of the rotor to the diameter preferably increases of the stator in the direction of the axis of rotation of the rotor from the inlet of the rotor-stator Mixer towards the outlet of the rotor-stator mixer by at least 5%, especially preferably at least 25%, very particularly preferably at least 40%.

In a preferred embodiment of the rotor-stator mixer, the rotor is in Direction of its axis of rotation from the inlet of the rotor-stator mixer to the outlet of the rotor-stator mixer is conical or step-like narrowing.

The mixing energy entered into the mixture, which is used for mixing, Dispersion and temperature rise is the higher at the same speed, the larger the diameter of the rotor. Because with increasing diameter takes the peripheral speed of the rotor and that arranged on the rotor Mixing elements and thus the shear or shear stress generated in the Liquid too. The inventive design of the rotor-stator mixer it is achieved that the mixing energy per Volume unit in the area of the inlet is higher than in the area of the outlet because the Diameter of the rotor with the mixing elements arranged on it in the area of the outlet is smaller than the diameter in the area of the inlet.

The ratio of the diameter of the rotor is preferably in the range of Outlet to the diameter of the rotor in the area of the inlet ≤ 0.9, especially preferably ≤ 0.7, very particularly preferably ≤ 0.5.

The ratio of the diameter of the rotor in the area of the inlet to the length of the The rotor in the direction of its axis of rotation is preferably in the range from 1: 0.5 to 1: 3.

The ratio of the diameter of the stator is preferably in the range of Outlet to the diameter of the stator in the area of the inlet <1.0. The distance of the rotor from the stator perpendicular to the axis of rotation is particularly preferred of the rotor over the entire length of the rotor in the direction of its axis of rotation consistently.

If the distance between the rotor and the stator remains the same over the entire length of the rotor in the direction of its axis of rotation, the specific energy input decreases from the inlet of the rotor-stator mixer to the outlet of the rotor-stator mixer, since the energy input is directly proportional to the diameter in the fifth Potency is (Taschenbuch Maschinenbau, Volume 2 , VEB Verlag Technik Berlin, 1965, page 840), but the volume is only related to the diameter in the second potency.

In a preferred embodiment, the density of the mixing elements increases Rotor from inlet to outlet. All are common as mixing elements Mixing elements such as blades, discs or spikes are suitable.

The invention further relates to a rotor-stator mixer, at least consisting of a rotor provided with mixing elements and a rotor surrounding the rotor with current-breaking stator, an inlet in the rotor Stator mixer and an outlet from the rotor-stator mixer, the inlet and the outlet at opposite in the direction of the axis of rotation of the rotor Ends of the rotor-stator mixer are arranged, characterized in that the Ratio of the diameter of the rotor to the diameter of the stator in Direction of the axis of rotation of the rotor is substantially constant and the Diameter of the rotor and the stator in the direction of the axis of rotation of the rotor Inlet of the rotor-stator mixer towards the outlet of the rotor-stator mixer decrease by at least 5% each.

The diameters of the rotor and the stator preferably decrease in the direction the axis of rotation of the rotor from the inlet of the rotor-stator mixer to the outlet of the rotor-stator mixer in each case by at least 25%, particularly preferably by at least 40%.

This embodiment of the rotor-stator mixer also ensures that the specific energy input into the components to be mixed / dispersed when entering the rotor-stator mixer is very high and towards the outlet from the rotor-stator mixer decreases because the diameter of the rotor with the mixing elements arranged thereon in the region of the outlet is smaller than that Diameter in the area of the inlet.

The rotor-stator mixers according to the invention can be advantageous for production of polyurea dispersions are used. This causes excess temperatures avoided in the mixer and obtained high yields. Caking of the product the walls of the mixer are used when using the rotor Stator mixer also decreased.

The invention is illustrated by the following figure.

Fig. 1 shows an embodiment of the rotor according to the invention schematically stator mixer 10, in which the rotor 1 is rotated with the mixing elements arranged thereon 2 about the axis of rotation 7. The stator 3 , which is provided with current-breaking elements 4 , is fixedly connected to the housing part 9 by means of a screw connection 8 . The liquids to be mixed / dispersed are conveyed through the inlet 5 into the annular gap 11 , are intensively mixed or dispersed there and emerge again at the outlet 6 . The outlet 6 is arranged on that side of the rotor-stator mixer 10 which is opposite in the direction of the axis of rotation 7 of the rotor 1 . The rotor 1 with the mixing elements 2 arranged thereon is conically narrowing in the direction of the axis of rotation 7 from the inlet 5 to the outlet 6 . The distance of the rotor 1 from the stator 3 perpendicular to the axis of rotation 7 is constant over the entire length of the rotor.

Claims (10)

1. rotor-stator mixer consisting at least of a rotor provided with mixing elements and a stator surrounding the rotor, provided with current-breaking elements, an inlet into the rotor-stator mixer and an outlet from the rotor-stator mixer, the inlet and the outlet are arranged at opposite ends of the rotor-stator mixer in the direction of the axis of rotation of the rotor, characterized in that the ratio of the diameter of the rotor to the diameter of the stator in the direction of the axis of rotation of the rotor from the inlet of the rotor-stator Mixer decreases to the outlet of the rotor-stator mixer. 2. rotor-stator mixer according to claim 1, characterized in that the Ratio of the diameter of the rotor to the diameter of the stator in Direction of the axis of rotation of the rotor from the inlet of the rotor-stator mixer towards the outlet of the rotor-stator mixer decreases by at least 5%. 3. rotor-stator mixer according to claim 1 or 2, characterized in that the rotor in the direction of its axis of rotation from the inlet of the rotor-stator Mixer towards the outlet of the rotor-stator mixer is conical or is narrowed in a step-like manner. 4. rotor-stator mixer according to claim 3, characterized in that the Ratio of the diameter of the rotor in the area of the outlet to that The diameter of the rotor in the area of the inlet is ≤ 0.9. 5. rotor-stator mixer according to one of claims 3 or 4, characterized characterized in that the ratio of the diameter of the rotor in the range of Outlet to the diameter of the rotor in the area of the inlet is ≤ 0.7. 6. rotor-stator mixer according to one of claims 3 to 5, characterized characterized in that the ratio of the diameter of the stator in the range of Outlet to the diameter of the stator in the area of the inlet is ≤ 1.0. 7. rotor-stator mixer according to one of claims 3 to 6, characterized characterized in that the distance of the rotor from the stator perpendicular to the axis of rotation of the rotor over the length of the rotor in the direction of its axis of rotation is constant. 8. rotor-stator mixer according to one of claims 1 to 7, characterized characterized in that the ratio of the diameter of the rotor in the range of Inlet to the length of the rotor in the direction of its axis of rotation in the range of 1: 0.5 to 1: 3. 9. Rotor-stator mixer, at least consisting of one with mixing elements provided rotor and one surrounding the rotor, with current-refracting Element-provided stator, an inlet into the rotor-stator mixer and an outlet from the rotor-stator mixer, the inlet and the Outlet at opposite in the direction of the axis of rotation of the rotor Ends of the rotor-stator mixer are arranged, characterized in that that the ratio of the diameter of the rotor to the diameter of the Stator is substantially constant in the direction of the axis of rotation of the rotor and the diameter of the rotor and the stator in the direction of Rotation axis of the rotor from the inlet of the rotor-stator mixer to Reduce the outlet of the rotor-stator mixer by at least 5%. 10. Use of the rotor-stator mixer according to one of claims 1 to 9 for the production of polyurea dispersions.