DE4304782A1 - Method for dispersing liquids, suspensions and heterogeneous fluids, and stirring and gas admixture system for implementing the method - Google Patents

Abstract

The invention relates to a method for dispersing liquids, suspensions and heterogeneous fluids which is distinguished, in particular, by more efficient dispersion of the gas to be introduced into the medium and by better distribution of the gas phase in the reaction vessel, more effective flow prevailing through problem zones. The dispersion process essentially takes place in two stages. The invention further relates to a stirring and gas admixture system by means of which the method is implemented and is intended, in particular, to be used in aeration tanks for aerating waste water and sewage sludges, with the purpose of improving the efficiency of such plants. A stirring body, open at the bottom, is preferably arranged centrally in a reaction tank below the liquid level on a drive shaft and rotates. Below the stirring body there is a gas cushion which is supplied via the drive shaft, fashioned as a tubular shaft, or is supplied separately. The stirring body is of perforated construction, the design of the perforation being capable of being varied in terms of type, size and density, and carries transport blades (paddles) on its rim. Dispersion takes place at the perforation and at the stirring-body rim. <IMAGE>

Description

The invention relates to a method for dispersing Liquids, suspensions and heterogeneous fluids, as well as a Stirring and gassing system for carrying out the process.

It is particularly useful for aerating waste water and sewage sludge provided in aeration tanks and has the goal of efficiency to improve such facilities.

In addition, possible uses in chemical Industry, biotechnology and in the food industry seen.

The functions of circulating a pool fluid by stirring and Fumigation should run at the same time, even without fumigation can be stirred.

Such systems already exist and are described, for example, in DE-OS 35 19 520, in DE-OS 36 03 466 and in Utility Model No. G 91 06 639.5. They work according to the following principle:
A hollow body open at the bottom, expediently a single or double-walled cone (DE-OS 35 19 520) is set in rotation via a vertical axis. As a result, the pool liquid is circulated in such a way that it is sucked down above the rotor, deflected along its lateral surfaces in the direction of the pool edge and rises again from there.

The circulation can still by on the outer and inner surface of the Rotors attached elements are reinforced.

The gas required for fumigation is based on the principle of Diving bell under the cone. The gas escapes under the mantle ring of the cone into the liquid and thereby as a result of the rotation, assisted by on the cone arranged essays, dispersed.

The described device has the major disadvantage that the gas bubbles do not reach maximum areas Liquid speed reach and therefore insufficient in the Cymbals are distributed.

Due to the mandatory shear surfaces, a increased energy requirements.

The totality of the aforementioned disadvantages leads to a increased time must be spent to get the appropriate To achieve mass transfer.

Attempts have been made to improve efficiency Flow conditions in the layers near the ground and in the area intensify the pool edge.

For this purpose it is proposed in DE-OS 36 03 446, under the hollow body a bottom cone to reduce the distance between Arrange the bottom edge of the rotor and the pelvic floor.  

However, this requires increased technical effort and is not suitable for every technical application. For example then not when a high degree of flexibility is required. Farther is the installation and removal, for. B. for maintenance work. The pool volume under the bottom cone goes Execution of proceedings lost.

Finally, in German Utility Model No. G 91 06 639.5 proposed to design the stirring body as a hyperboloid or its shape exactly the theoretical calculation of the streamlines replicate in the container.

Like the aforementioned solutions, the system does not come without additional transport ribs on the surface of the stirring body, which means increased energy expenditure.

The dispersed gas occurs almost horizontally below the Shroud of the stirring body and then rises relatively quickly open up so that the area is maximum Liquid speed near the bottom and at the pool edge hardly is achieved by the resulting flow of the gas phase. Ultimately, there are devices for gassing and circulation for the Wastewater technology for use in which the Axis of rotation of an electric motor angled by the motor in the wastewater immersed hollow shaft is provided, which its free end is provided with propeller-like wings and has an air outlet opening, while on the engine side End air intakes are provided through the system Compressed air is supplied. The escaping compressed air is through the wings dispersed.

The device described enables a targeted To direct the liquid jet into problem areas of the pelvis. However must be the mandatory inclination in the pool get noticed. Whether the device as a centrally located Mixing and gassing system suitability, should be put aside stay. However, it seems questionable that by mere Takeover without additional constructive and equipment Effort to operate, which was described by the Technology disadvantages can be eliminated. The main disadvantage of all the solutions mentioned is that the dispersed gas phase is insufficient from the Liquid flow is detected. It occurs in areas reduced speed in the liquid phase and leads thus to an insufficient use of the distribution effect. The exchange of substances can therefore only take place to a limited extent.

So there is the task of mass transfer to make it more effective and with a stirring and Fumigation system for liquids, suspensions and heterogeneous Develop fluids that must meet the following parameters:

• - There should be flexible drive options for the stirring body stand open;
• - The dispersion should be more efficient and variable than in previous investments are made;
• - The flow conditions are to be improved by all Areas of the pelvis are mixed, especially the Pool edge;
• - It is to save energy;
• - The efficiency is to be improved.
• - The installation and removal of the agitator body with the pool filled to be possible

In the middle of the pool there is an agitator under the surface of the Liquid, suspension or the heterogeneous fluid used. This is supported by a one-sided or double-sided Drive shaft rotated so that there is a Basic flow of the type described in the beginning in the basin sets.

To improve the stirring effect, the stirring body carries on his Jacket ring a defined number of transport blades. These are placed so that the major part of the dispersed gas obliquely from the edge of the stirring body flows down towards the pool edge and from there to the surface rises.

The direction of flow is beyond the position of the Transport blades based on the radial speed adjusts the surface of the stirring body. they should be chosen as large as possible so that the necessary Target speed of the liquid phase is reached.

The stirring body has any concave shape, being secured must be that there is a sufficiently large under the stirring body Can form gas bubble. The air supply is either through the drive shaft designed as a hollow shaft from above or from below or separately directly under the stirring body. A Fumigation ring is not required.

On the basis of the described equipment requirements is proposed according to the invention, the dispersing process in perform two procedural steps.

For this purpose, the stirring body is perforated. Depending on Perforation can be even across the entire requirement Surface of the stirring body may be distributed or in size, shape and Density vary.

On the arrangement of additional transport ribs to be dispensed with.

The gas bubbles rising through the perforation become tangential as a result of the rotary movement of the stirring body sheared, caught by the flow of liquid, along the  Stirring body surface transported to the wreath and from the transport vanes located there again dispersed. The gas phase then consists of a large number of small gas bubbles. It is exactly in the range of the maximum Liquid velocity and is therefore effective in distributed throughout the reaction basin. As a result of the enlarged The process is more efficient in the mass transfer area Compared to the state of the art.

The bubble size can be regulated via the speed of the agitator. The type, size and density of the are used to preset the gas phase Perforation and number and position of the transport blades. With the method according to the invention, a larger gas volume can be obtained be dispersed. Results from the volume flow of the gas an expanded range of variations in the Execution of the procedure and the possible uses. The flood point is postponed because of a higher gas volume is enforceable.

Using the example of a stirring and gassing system for use in The invention is based on aeration tanks for wastewater treatment a drawing explained in more detail.

As can be seen therein, the stirring body 1 is located in the lower region of a reaction tank 2 filled with waste water below the fluid play 3 . It is firmly connected to a rotating drive shaft 4 , which is displaced on the pool floor 5 and above the reaction pool 2 . The upper camp has not been shown.

Compressed air is fed as a reaction gas from outside through a separate air line 6 under the stirring body 1 . The outlet opening 8 should be as close as possible to the agitator shaft 7 .

The stirring body 1 has the shape of a hollow spherical section open at the bottom, on the rim 11 of which a plurality of transport blades 9 are arranged.

For the purpose of dispersing the air cushion located under the stirring body 1 , the spherical part of the hollow sphere section is perforated by perforations which are uniform in diameter and spacing.

Reference list

1 stirring body
2 reaction tanks
3 liquid levels
4 drive shaft
5 pelvic floor
6 Air / gas line
7 agitator shaft
8 outlet opening
9 transport bucket
10 perforation
11 edge of agitator
12 pool edge

Claims (5)

1. A method for dispersing liquids, suspensions and heterogeneous fluids, and a stirring and gassing system for carrying out the process, characterized in that a two-stage dispersion takes place by means of the stirring and gassing system according to claim 2, in such a way that in the first process step on the perforation ( 10 ) and subsequently most of the gas phase is dispersed again on the transport blades ( 9 ). 2. Stirring and gassing system for liquids, suspensions and heterogeneous fluids for stirring or simultaneous stirring and gassing, consisting of a stirring body arranged on a rotating shaft, which is provided with transport blades to improve the stirring effect and under which a gas cushion is located, whereby the gas supply is provided either by the drive shaft designed as a hollow shaft or separately from the outside, characterized in that the stirring body ( 1 ) has a perforated surface for carrying out the first dispersion stage and is shaped in such a way that a maximum throwing distance of the gas bubbles arises to large To achieve residence times in the liquid phase, and that the transport blades ( 9 ) for the implementation of the second dispersion stage are arranged circumferentially on the agitator ring ( 11 ), and that the supply of gas under the agitator body ( 1 ) is provided as close as possible to the agitator shaft ( 7 ) . 3. stirring and gassing system according to claim 2, characterized in that the perforation ( 10 ) is evenly distributed over the surface of the entire stirring body ( 1 ). 4. stirring and gassing system according to claim 2, characterized in that the perforation ( 10 ) has different shape, size and density. 5. stirring and gassing system according to claim 4, characterized in that the stirring body ( 1 ) to the stirring body rim ( 11 ) is more perforated than in the middle.