DE102021000607A1 - Flotation plant, use and method - Google Patents

Abstract

Flotation plant for the physical-chemical separation of liquid mixtures, in particular process waste water and/or recycling circuits, with dispersed and/or suspended solid materials due to different surface wettability of the solid materials, with gas bubbles adhering to at least some of the solid materials being transportable to a surface of the liquid mixture and with clearing devices for floating solid materials can be cleared, in particular with movable slide devices and/or with a funnel, comprising a flotation reactor, in particular round and/or angular, in particular with a flotation tank for receiving the liquid mixture, a device for generating gas bubbles, which can be attached to at least some of the solid materials are, comprising a device for generating a predetermined pressure in a liquid flow, wherein the liquid flow under pressure gas, esp other air, is to be supplied, a device for pressure relief for generating gas bubbles occurring in the liquid flow being provided downstream in the direction of the liquid flow, an ultrasonic device comprising at least one ultrasonic actuator being provided downstream of the device for pressure relief.

Description

The invention relates to a flotation plant for the physical-chemical separation of liquid mixtures according to the preamble of claim 1, a use of a flotation plant according to the preamble of claim 9 and a method of using a flotation plant according to the preamble of claim 10.

Flotation processes as separation processes for liquid mixtures have in common that small gas bubbles are used to float the solid materials to be separated, which attach themselves to floating solid particles as they rise, so that their flotation is made possible.

In dissolved air flotation, a gas dissolved in a liquid under pressure bubbles out when the pressure is reduced/released. In dissolved air flotation, wastewater is usually saturated with air at an overpressure of between 4 and 6 bar and then fed into a flotation tank of a flotation reactor via expansion devices. After expansion to atmospheric pressure, the excess air bubbles out of the liquid in the form of fine bubbles. In the contact and mixing zone, the gas bubbles form an agglomerate with the solid in the liquid mixture, which due to its low density rises to the surface of the flotation reactor and can be removed there. At constant temperature, the solubility of a gas in a liquid phase increases proportionally with the partial pressure of this gas above the liquid. So if you pressurize a liquid, saturate it with gas or air and then bring the water back to ambient pressure using the expansion device, a corresponding proportion of gas or air is released in the form of bubbles.

In flotation reactors of the prior art, the problem often arises due to an irregular bubble size with sometimes very large bubbles that it cannot be ensured that a sufficiently large proportion of the solid materials is integrated into the flotate to be cleared, so that some solid materials cannot be safely separated and cleared to let.

The object of the present invention is to provide an improved dissolved air flotation system that avoids the disadvantages of the prior art.

The object is achieved by a flotation system for the physical-chemical separation of liquid mixtures, in particular process waste water and/or recycling circuits, with dispersed and/or suspended solid materials due to different surface wettability of the solid materials, with gas bubbles adhering to at least some of the solid materials being attached to a surface of the liquid mixture and can be cleared with clearing devices for floating solid materials, in particular with movable slide devices and/or with a funnel, comprising a flotation reactor, in particular round and/or angular, in particular with a flotation tank for receiving the liquid mixture, a device for generating gas bubbles, which at least attachable to a portion of the solid materials, comprising means for generating a predetermined pressure in a liquid stream, the liquid tsstrom gas, in particular air, is to be supplied under overpressure, with a device for pressure relief being provided downstream in the direction of the liquid stream for generating gas bubbles occurring in the liquid stream, with an ultrasonic device comprising at least one ultrasonic actuator being provided downstream of the device for pressure relief, whereby the distribution of the Sizes of the gas bubbles can be adjusted in a predetermined manner, after which the liquid stream is to be fed in turn to the liquid mixture, which is to be introduced together into the flotation reactor.

With the system according to the invention, an optimal gas bubble spectrum in the sense of microbubble generation and predetermined, small bubble sizes can be reliably set, which have properties adapted to the solid materials to be separated. The type of bubble generation and the resulting bubble quality, quantity and size can be easily adjusted during operation. This represents both an environmentally friendly and at the same time energy-saving system. A corresponding degree of cleaning can be obtained with lower energy consumption, especially with a wide range of system pressures, especially low system pressures of less than 4 bar, especially even from 1 bar, so that a low-energy system can be achieved.

The attachment of the gas bubbles to the solid materials contained in the liquid mixture thus takes place more easily and intensively according to the invention. The bubbles generated have a more homogeneous size distribution and are smaller on average. Due to the better ability of small bubbles to accumulate, reducing the bubble size leads to improved utilization of the entrained air on the one hand and more complete expulsion of the solid materials from the liquid mixture, thereby reducing both the concentration of solids in the clear-flow area of flotation decreases as the stability of the flotate layer to be cleared increases.

According to the invention, the zone downstream of the expansion device, in particular the expansion nozzles, is advantageously equipped with ultrasonic actuators which cause the bubble-water mixture in the liquid mixture arriving in this area to oscillate and break up large gas bubbles, in particular air bubbles. In particular, it is advantageous to work at a system pressure of pressure relief between 1 - 8 bar, correspondingly lower. As a result, micro-bubbles in the range of around 20-10 µm, for example, are generated from the otherwise less effective macro-bubbles larger than about 100 µm, but also larger than 50 µm, and the bubble carpet is homogenized . In order to be able to float particles of different sizes, the carpet of microbubbles advantageously has very small microbubbles, in particular smaller than about 20 μm, but overall advantageously smaller than about 100 μm. The formation of larger bubbles can thus be prevented, which would otherwise pull the desired small bubbles upwards before they can combine with the solid materials.

If necessary, the liquid mixture can also be chemically and physically pretreated and flocculated, so that the undissolved substances and precipitable substances contained in the wastewater receive a corresponding particle size, which can be floated through the carpet of micro-air bubbles, which can be advantageously adjusted according to the invention. The pretreated, flocculated liquid mixture can advantageously be brought into an inlet zone of a flotation reactor. In this zone, a partial flow of water saturated with compressed air, in particular in a partial flow quantity of about 5-20%, can be fed in and expanded directly, with corresponding bubbles being produced by a suitable design of the expansion device. The amount of bubbles generated depends on the degree of enrichment and the saturation of the air in the partial water flow, which depends, among other things, on the pressure and temperature of the chemical composition of the liquid mixture. The saturation of air is insufficient, especially at temperatures above 40°C and pressures below 3 bar. At the same time, air saturation at high pressure is associated with increasing energy consumption, so the aim is not to operate the air saturation at 5-6 bar, as is customary on the market, but at 3 bar, which is made possible by the ultrasonic device according to the invention.

Flotation tanks can, for example, be equipped with mechanical clearing devices and/or hydraulic clearing devices, in particular with flat bottoms and/or hoppers and/or discharge devices. Flotation reactors can operate with air saturation in a main stream and/or in a bypass stream. Exemplary plant capacities are between 0.5 and 100 m ³ /h.

It is advantageous if the ultrasonic actuator is provided in a round rod design and/or in a flat design.

It is advantageous if the ultrasonic actuator has a power density of between approximately 20 watts/m ³ and approximately 500 watts/m ³ . The sound energy is designed in particular in such a way that the solid materials, in particular lumps of sludge, are not destroyed and a surface of the flotation tank is not activated so that the solid materials to be floated can accumulate here as a sludge phase.

It is advantageous if the ultrasonic actuator has adjustable ultrasonic frequencies between approximately 20 kHz and approximately 1 MHz.

It is advantageous if the device for generating gas bubbles is set up for use in a clear water flow from the flotation reactor and/or at least a partial flow of the liquid mixture.

It is advantageous if a chemical pretreatment of the liquid mixture is provided, in particular in which case the emulsions of the liquid mixture must first be split and at least some of the solid materials must be bound in flakes.

It is advantageous if parameters of the device, in particular the device for pressure relief, are to be adjusted depending on the type of gas and/or type of liquid mixture and/or saturation pressure and/or pH value of the liquid mixture and/or the viscosity of the liquid mixture and/or the surface tension of the liquid mixture. In particular, the parameter provided is the size of the gas bubbles generated, which can be influenced by the type of gas and/or type of liquid mixture and/or saturation pressure and/or pH value of the liquid mixture and/or the viscosity of the liquid mixture and/or the surface tension of the liquid mixture, in particular thus advantageously adaptable in combination with the ultrasonic device provided according to the invention.

It is advantageous if the device for pressure relief includes nozzles and/or needle valves and/or cone valves. With nozzles, needle or cone valves small gas bubbles can be generated by the inventive Ultrasonic device can be further improved.

The object is also achieved by using a device according to one of claims 1 to 8 for cleaning waste water and/or process water with emulsified and/or dispersed solid materials, in particular paint waste water from brush cleaning and/or waste water from boat washing and/or container washing systems and/or cream production and/or skin care product production and/or meat processing and/or slaughterhouses and/or dairies/milk production and/or wine production and/or juice production and/or breweries and/or canners and/or canteen kitchens and/or canteens and/or restaurants and/or cosmetics production and/or food production and/or for transport companies and/or chemical industry and/or pharmaceutical industry and/or petrochemical industry and/or textile industry and/or paper industry.

With the present invention, a high degree of cleaning can be achieved in a wide variety of application areas with less energy input, as a result of which additional environmental protection and at the same time an acceleration of the cleaning process can be noted. It is particularly advantageous if the proportion of dispersed, emulsified and particulate solids flowing into the system is 100 to 20,000 mg/l and the solids to be separated consist predominantly of organic/inorganic product residues and cleaning residues, such as those found in the plastics industry, cosmetics industry, industrial washing and cleaning processes.

The object is also achieved by a method for cleaning and / or separation using a flotation system according to one of claims 1 to 8, for the physical-chemical separation of liquid mixtures, in particular process waste water and / or recycling circuits, with dispersed and / or suspended solid materials different surface wettability of the solid materials, with gas bubbles adhering to at least some of the solid materials being transported to a surface of the liquid mixture and being cleared away with clearing devices for floating solid materials, in particular with movable slide devices and/or with a funnel, comprising a flotation reactor, in particular round and/or angular, in particular with a flotation tank for receiving the liquid mixture, a device for generating gas bubbles which are attached to at least part of the solid materials, wob ei by means of a device for generating a predetermined pressure in a liquid stream, gas, in particular air, being supplied to the liquid stream under overpressure, gas bubbles being generated in the liquid stream downstream in the direction of the liquid stream by a device for pressure relief, with downstream of the device for pressure relief by means an ultrasonic device comprising at least one ultrasonic actuator, the distribution of the sizes of the gas bubbles is set in a predetermined manner, with the liquid flow then being fed in turn to the liquid mixture, which are fed together into the flotation reactor; in particular, it is advantageous to work at a system pressure of pressure relief between 1 - 8 bar.

Further features and advantages of the invention result from the claims and the following description, in which exemplary embodiments of the subject matter of the invention are explained in more detail in conjunction with the drawings.

• 1 eine erfindungsgemäße Vorrichtung in Schemazeichnung.

Show it:

• 1 a device according to the invention in schematic drawing.

1 shows a flotation plant 1 according to the invention for the physical-chemical separation of liquid mixtures 2, in particular process waste water and/or recycling circuits, with dispersed and/or suspended solid materials 3 due to different surface wettability of the solid materials 3, with gas bubbles 4 adhering to at least some of the solid materials 3 can be transported to a surface 5 of the liquid mixture 2 and cleared with clearing devices 6 for floating solid materials 3, in particular with movable slide devices 16 and/or with a hopper, comprising a flotation reactor 7, in particular round and/or angular, in particular with a flotation basin 8 for receiving the Liquid mixture 2, a device 9 for generating gas bubbles 4, which can be attached to at least part of the solid materials 3, comprising a device 10 for generating a predetermined pressure in a liquid flow 11, with gas, in particular air, being fed to the liquid flow 11 under overpressure, with a device 13 for pressure relief being provided downstream in the direction 12 of the liquid flow 2 for generating gas bubbles 4 occurring in the liquid flow 11, with a pressure relief device 13 downstream of the device 13 for pressure relief Ultrasonic device 14 is provided comprising at least one ultrasonic actuator 15, whereby the distribution of the sizes of the gas bubbles 4 is predetermined to generate micro-bubbles adjustable, then the liquid flow 11 in turn is to be fed to the liquid mixture 2, which are to be introduced together into the flotation reactor 7.

Liquid flow can be, for example, clear water from the flotation reactor 7, which is enriched with gas bubbles, whereupon the liquid flow is fed to the liquid mixture 2, whereupon the mixture of the two flows is passed through the ultrasonic device and a further improvement in the bubble distribution and a reduction in the size of the gas bubbles is achieved.

There are three variants for generating the required fine gas bubbles, the full-flow process, in which the entire feed of liquid mixtures 2 is saturated with air, or a partial-flow process, in which only part of the feed to the flotation reactor, for example clear water from the flotation reactor 7, is Gas, in particular air, is saturated, or a recirculation method in which any amount of the cleaned clear water is recirculated and is thereby saturated with gas, in particular air. The recirculation volume can be adapted in such a way that the necessary number of fine gas bubbles is sufficient for all expected operating conditions.

To produce a defined quantity of gas bubbles, a measurement is carried out in a gas quantity measuring device 17 and a subsequent gas quantity regulation in a gas quantity regulation device 18.

The combined streams are conducted into the flotation reactor 7 and flow through an upflow region 19, whereupon a flotation carpet 20 is formed, which is cleared and discharged, for example, by means of clearing devices 6 through movable slide devices 16.

Reference List

1

flotation plant

2

liquid mixture

3

solid material

4

gas bubble

5

surface

6

clearing equipment

7

flotation reactor

8th

flotation tank

9

Device for generating gas bubbles

10

Device for generating a predetermined pressure

11

liquid flow

12

Direction

13

Device for pressure relief

14

ultrasonic device

15

ultrasonic actuator

16

slider device

17

gas metering device

18

gas flow control device

19

upflow area

20

flotation carpet

Claims (10)

Flotation plant (1) for the physical-chemical separation of liquid mixtures (2), in particular process waste water and/or recycling circuits, with dispersed and/or suspended solid materials (3) due to different surface wettability of the solid materials (3), with adhering gas bubbles (4) adhering to at least part of the solid materials (3) can be transported to a surface (5) of the liquid mixture (2) and can be cleared away with clearing devices (6) for floating solid materials (3), in particular with movable slide devices (16) and/or with a funnel, full a flotation reactor (7), in particular round and/or angular, in particular with a flotation tank (8) for receiving the liquid mixture (2), a device (9) for generating gas bubbles (4) which can be attached to at least some of the solid materials (3), comprising a device (10) for generating a predetermined pressure in a liquid flow (11), wherein gas, in particular air, is to be supplied to the liquid flow (11) under overpressure, wherein a device (13 ) is provided for pressure relief to generate gas bubbles (4) occurring in the liquid flow (11), An ultrasonic device (14) comprising at least one ultrasonic actuator (15) is provided downstream of the device (13) for pressure relief, as a result of which the distribution of the sizes of the gas bubbles (4) can be adjusted in a predetermined manner for the generation of microbubbles, whereafter the liquid flow (11) is again to be fed to the liquid mixture (2), which are to be introduced together into the flotation reactor (7). device after claim 1 , characterized in that the ultrasonic actuator (15) in round rod construction and / or planar construction is provided. device after claim 1 or 2 , characterized in that the ultrasonic actuator (15) has a power density between about 20 watts / m ³ to about 500 watts / m ³ . Device according to one of Claims 1 until 3 , characterized in that the ultrasonic actuator (15) has adjustable ultrasonic frequencies between about 20 kHz and about 1 MHz. Device according to one of Claims 1 until 4 , characterized in that the device (9) for generating gas bubbles (4) is set up for use in a clear water flow from the flotation reactor (7) and / or at least a partial flow of the liquid mixture (2). Device according to one of Claims 1 until 5 , characterized in that a chemical pretreatment of the liquid mixture (2) is provided, in particular the emulsions of the liquid mixture (2) being split beforehand and at least some of the solid materials (3) being bound in flakes. Device according to one of Claims 1 until 6 , characterized in that parameters of the device, in particular the device (13) for pressure relief, are to be adjusted depending on the type of gas and/or type of liquid mixture and/or saturation pressure and/or pH value of the liquid mixture (2) and/or the Viscosity of the liquid mixture (2) and/or the surface tension of the liquid mixture (2). Device according to one of Claims 1 until 7 , characterized in that the device for pressure relief comprises nozzles and/or needle valves and/or cone valves. Use of a device (1) according to one of Claims 1 until 8th for cleaning waste water and/or process water with emulsified and/or dispersed solid materials, in particular paint waste water from brush cleaning and/or waste water from boat washing and/or container washing systems and/or cream production and/or skin care product production and/or meat processing and/or slaughterhouses and /or dairies/milk production and/or wine production and/or juice production and/or breweries and/or canners and/or commercial kitchens and/or canteens and/or restaurants and/or cosmetics production and/or food production and/or for transport companies and/or chemical industry and/or pharmaceutical industry and/or petrochemical industry and/or textile industry and/or paper industry. Method for cleaning and / or separation using a flotation plant (1) according to one of Claims 1 until 8th , for the physical-chemical separation of liquid mixtures (2), in particular process waste water and/or recycling circuits, with dispersed and/or suspended solid materials (3) due to different surface wettability of the solid materials (3), with gas bubbles (4) adhering to at least one part the solid materials (3) is transported to a surface (5) of the liquid mixture (2) and is cleared away with clearing devices (6) for floating solid materials (3), in particular with movable slide devices (16) and/or with a hopper, comprising a flotation reactor ( 7), in particular round and/or angular, in particular with a flotation tank (8) for receiving the liquid mixture (2), a device (9) for generating gas bubbles (4) which are attached to at least some of the solid materials (3). , wherein by means of a device (10) for generating a predetermined pressure in a liquid its stream (11), gas, in particular air, being fed to the liquid stream (11) under overpressure, gas bubbles (4) in the liquid stream (11) being released downstream in the direction (12) of the liquid stream (2) by a device (13) for pressure relief are generated, with the distribution of the sizes of the gas bubbles (4) being set in a predetermined manner downstream of the device (13) for pressure relief by means of an ultrasonic device (14) comprising at least one ultrasonic actuator (15), with the liquid flow (11) then in turn being added to the liquid mixture (2 ) is supplied, which are introduced together into the flotation reactor (7).

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