METHOD AND LIQUID MIXING SYSTEM FOR PROVIDING A LIQUID/FOAM MIXTURE

Abstract

A method as well as a liquid mixing system provide a liquid-foam mixture by mixing water with at least one additive. The liquid mixing system includes a water pressure source, an additive reservoir unit, an air compressor unit with a compressor and a drive device, a first and second mixing device, a discharging unit, and multiple different line networks for the respective media. The drive device is formed by a water engine or a water turbine, the water inlet of which is line-connected to the water pressure source.

Claims

1. A method for providing a liquid-foam mixture by mixing water with at least one additive (4, 35) by means of a liquid mixing system (1), in which the following steps are carried out: providing a water pressure source (2) for discharging the water, providing at least one first additive reservoir unit (3) with a first additive (4) accommodated therein, providing an air compressor unit (5) for providing compressed air, comprising a compressor (6) and a drive device (7), wherein the drive device (7) is drive-connected to the compressor (6), providing a first mixing device (8) with a first mixing chamber (9) for admixing at least the first additive (4) to the water discharged from the water pressure source (2), providing a second mixing device (10) with a second mixing chamber (11) for optionally admixing compressed air to the liquid-foam mixture discharged from the first mixing device (8), and a connecting line (12) connecting the two mixing devices (8, 10) to one another, providing a discharging unit (13) for discharging the liquid-foam mixture with a connection device (14) and a discharge line (15), by means of which discharge line (15) the connection device (14) is line-connected to the mixing devices (8, 10), providing a water line network (16) with at least one first water feed line (17), by means of which first water feed line (17) the first mixing device (8) is line-connected to the water pressure source (2), providing an additive line network (18) with at least one first additive line (19), by means of which first additive line (19) the first additive reservoir unit (3) is line-connected to the first mixing device (8), providing a compressed air line network (20) with a first compressed air line (21), by means of which compressed air line (21) the second mixing device (10) is optionally line-connected to the compressor (6), feeding the water from the water pressure source (2) to the first mixing device (8) via the first water feed line (17), feeding at least the first additive (4) from the first additive reservoir unit (3) to the first mixing device (8) via the first additive line (19), mixing the water with the at least one additive (4) by means of the first mixing device (8) and forwarding the liquid-foam mixture from the connection device (14) to the discharging unit (13), wherein the drive device (7) of the air compressor unit (5) is formed by a water engine or a water turbine comprising at least one water inlet (23) and at least one water outlet (24), a second water feed line (25) is provided, and the at least one water inlet (23) of the water engine or the water turbine is line-connected to the water pressure source (2) via the second water feed line (25), and the water discharged from the water pressure source (2) is fed to the water engine or the water turbine via the second water feed line (25), and the water engine or the water turbine is driven by pressurized water of the water pressure source (2).

2. The method according to claim 1, wherein a first additive conveying device (28), in particular a conveyor pump driven by compressed air, for the first additive reservoir unit (3) and a second compressed air line (30) are provided, by means of which second compressed air line (30) the compressor (6) is line-connected to the first additive conveying device (28) of the first additive reservoir unit (29), and in this regard, the first additive conveying device (28) of the first additive reservoir unit (3) is driven by the compressed air fed in the second compressed air line (30), and in this regard, the first additive (4) is taken from a first additive reservoir (29) and is conveyed to the first mixing device (8) via the first additive line (19).

3. The method according to claim 1, wherein the water of the water pressure source (2) is taken from a water reservoir having a water pump, an open body of water using a water pump, a hydrant, and/or a water reservoir applied with a pressure medium.

4. The method according to claim 1, wherein the water escaping from the at least one water outlet (24) of the water engine or the water turbine is drained into the open.

5. The method according to claim 1, wherein at least one water return line (38) is provided, and the water escaping from the at least one water outlet (24) of the water engine or the water turbine is returned to the water pressure source (2), in particular into its unpressurized section, via the water return line (38), and is discharged back to the water engine or the water turbine by said water pressure source (2).

6. The method according to claim 2, wherein a differential pressure regulating member (31) is arranged in the second compressed air line (30), by which differential pressure regulating member (31) the water pressure in the first water feed line (17) is determined, and the pressure level of the compressed air fed to the additive conveying device (28) is adjusted based on the determined water pressure.

7. The method according to claim 1, wherein a second additive reservoir unit (32) with a second additive conveying device (33) and a second additive reservoir (34) with a second additive (35) accommodated therein is provided, and the compressed air is fed and driven from the compressor (6) to the second additive conveying device (33) via a third compressed air line (36), and in this process, the second additive (35) is taken from the second additive reservoir (34) and conveyed to the first mixing device (8) via a second additive line (37).

8. The method according to claim 1, wherein the volume flow of the liquid-foam mixture fed to the second mixing chamber (11) of the second mixing device (10) is adjusted manually and/or pneumatically.

9. The method according to claim 1, wherein the water is discharged from the water pressure source (2) with a pressure value selected from a pressure value range with a lower limit of 6 bar, preferably 9 bar, and an upper limit of 20 bar, in particular 12 bar.

10. The method according to claim 1, wherein the water engine or the water turbine is fed the water with a volume flow selected from a volume flow value range with a lower limit of 400 l/min, preferably 500 l/min, and an upper limit of 2,000 l/min, preferably 1,000 l/min, is also advantageous.

11. A liquid mixing system (1) for providing a liquid-foam mixture, which is formed by mixing water with at least one additive (4), for performing the method according to claim 1, the liquid mixing system (1) comprising a water pressure source (2), which water pressure source (2) is configured to discharging water, at least one first additive reservoir unit (3), which first additive reservoir unit (3) is configured to accommodate a first additive (4), an air compressor unit (5) comprising a compressor (6) and a drive device (7), wherein the drive device (7) is drive-connected to the compressor (6), and wherein the air compressor unit (5) is configured to provide compressed air, a first mixing device (8) with a first mixing chamber (9), which first mixing device (8) is configured to admix at least the first additive (4) to the water discharged from the water pressure source (2), a second mixing device (10) with a second mixing chamber (11), which second mixing device (10) is configured to optionally admix compressed air to the liquid-foam mixture discharged from the first mixing device (8), and a connecting line (12) connecting the two mixing devices (8) to one another, a discharging unit (13) with a connection device (14) and a discharge line (15), by means of which discharge line (15) the connection device (14) is line-connected to the mixing devices (8, 10), wherein the discharging unit (13) is configured to discharge the liquid-foam mixture, a water line network (16) with at least one first water feed line (17), by means of which first water feed line (17) the first mixing device (8) is line-connected to the water pressure source (2), an additive line network (18) with at least one first additive line (19), by means of which first additive line (19) the first additive reservoir unit (3) is line-connected to the first mixing device (8), a compressed air line network (20) with a first compressed air line (21), by means of which first compressed air line (21) the second mixing device (10) is optionally line-connected to the compressor (6), wherein the drive device (7) of the air compressor unit (5) is formed by a water engine or a water turbine comprising at least one first water inlet (23) and at least one water outlet (24), a second water feed line (25) is provided, and the at least one water inlet (23) of the water engine or the water turbine is line-connected to the water pressure source (2) via the second water feed line (25), wherein the water engine or the water turbine can be driven by the pressurized water of the water pressure source (2) to be discharged from the water pressure source (2).

12. The liquid mixing system (1) according to claim 11, wherein furthermore, a first additive conveying device (28), in particular a conveying pump drivable by means of compressed air, a first additive reservoir (29) at the first additive reservoir unit (3) for accommodating the first additive (4), and a second compressed air line (30) are provided, by means of which second compressed air line (30) the compressor (6) is line-connected to the first additive conveying device (28) of the first additive reservoir unit (3), and wherein the first additive reservoir (29) is line-connected to the first mixing device (8) via the first additive conveying device (28) and the first additive line (19).

13. The liquid mixing system (1) according to claim 11, wherein the water pressure source (2) is selected from the group of water reservoir having a water pump, open body of water and water pump, hydrant, a water reservoir applied with a pressure medium.

14. The liquid mixing system (1) according to claim 11, wherein the at least one water outlet (24) of the water engine or the water turbine opens to the outside.

15. The liquid mixing system (1) according to claim 11, wherein the water line network (16) comprises at least a first water return line (38), by means of which first water return line (38) the at least one water outlet (24) of the water engine or the water turbine is line-connected to the water pressure source (2), in particular to its unpressurized section.

16. The liquid mixing system (1) according to claim 12, wherein a differential pressure regulating member (31) and a measuring line (45) are provided, which differential pressure regulating member (31) is arranged in the second compressed air line (30), and the measuring line (45) is line-connected to the first water feed line (17) starting from the differential pressure regulating member (31), and wherein the differential pressure regulating member (31) is configured to determine the water pressure in the first water feed line (17), and the pressure level of the compressed air fed to the additive conveying device (28) is adjustable based on the determined water pressure.

17. The liquid mixing system (1) according to claim 11, wherein a second additive reservoir unit (32) with a second additive conveying device (33) and a second additive reservoir (34) for accommodating a second additive (35) is provided, and wherein the compressor (6) is line-connected to the second additive conveying device (33) via a third compressed air line (36), and furthermore, the second additive reservoir (34) is line-connected to the first mixing device (8) via the second additive conveying device (33) and a second additive line (37).

18. The liquid mixing system (1) according to claim 11, wherein the first mixing device (8) is formed by a Venturi nozzle arrangement.

19. The liquid mixing system (1) according to claim 11, wherein the second mixing device (10) comprises an actuator member (39), which actuator member (39) is configured to adjust the volume flow of the liquid-foam mixture fed to the second mixing chamber (11) of the second mixing device (10).

20. The liquid mixing system (1) according to claim 11, wherein the liquid mixing system (1) is mounted on a base frame (42) as a compact assembly unit.

Description

[0054] These show in a respectively very simplified schematic representation:

[0055] FIG. 1 a flow scheme of a possible embodiment of a liquid mixing system;

[0056] FIG. 2 the compact-design liquid mixing system, which is mounted on a base frame, in a stylized, diagrammatic representation.

[0057] First of all, it is to be noted that in the different embodiments described, equal parts are provided with equal reference numbers and/or equal component designations, where the disclosures contained in the entire description may be analogously transferred to equal parts with equal reference numbers and/or equal component designations. Moreover, the specifications of location, such as at the top, at the bottom, at the side, chosen in the description refer to the directly described and depicted figure and in case of a change of position, these specifications of location are to be analogously transferred to the new position.

[0058] The term “in particular” shall henceforth be understood to mean that it may refer to a possible more specific formation or more detailed specification of an object or a process step, but need not necessarily depict a mandatory, preferred embodiment of same or a mandatory practice. A further term used is “optional”. This is understood to mean that this method step or this system component is principally present but depending on the operating conditions may be used although that does not necessarily have to be the case.

[0059] In the following, the term “liquid mixing system” is also used. This is understood to mean that by means of this system, at least one additive can be admixed to an extinguishing fluid, preferably water. For example a foaming agent or also other additives or media can be admixed or added as an additive. The so-called expansion ratio indicates the ratio between the volume of the water-foaming agent mixture and the foaming agent volume. It indicates by what factor the quantity of the liquid has increased upon foaming. The discharged liquid-foam mixture can be divided into low-expansion foams, medium-expansion foams, and high-expansion foams, depending on the expansion ratio.

[0060] An engine is generally understood to be a machine transforming a form of energy, namely chemical, thermal, or electric energy, into mechanical work by performing movement directed against a force. Engines are above all used for driving work machines such as pumps, blowers, compressors, and tools as well as for vehicles. Often, the engines are also referred to as motors.

[0061] FIG. 1 shows an exemplary embodiment of a liquid mixing system 1 in the form of a simplified flow scheme and/or diagram. It is provided that, the use of engines for driving system components of the liquid mixing system 1 is to be dispensed with so far as it is possible, but preferably completely. As already preliminarily mentioned, at least one additive can be added to the water commonly used as the extinguishing agent before discharge, in order to increase the extinguishing effect and/or to impede or prevent the admission of ambient air (oxygen) to the fire to be extinguished.

[0062] For the liquid mixing system 1, a component generally referred to as water pressure source 2 is necessary, which provides the water and is configured to discharge the water. It is also possible that multiple water pressure sources 2 cooperate for providing and discharging the water. The water pressure source 2 may be selected from or formed of the group of water reservoir having a water pump, open body of water and water pump, hydrant, a water reservoir applied with a pressure medium. For the sake of simplicity, the water pressure source 2 is schematically shown as a circle containing a triangle. Depending on the type of water pressure source 2, the water can be discharged therefrom with a pressure value selected from a pressure value range with a lower limit of 6 bar, preferably 9 bar, and an upper limit of 20 bar, in particular 12 bar. Moreover, the volume flow of the discharged water can be selected from a volume flow value range with a lower limit of 400 l/min, preferably 500 l/min, and an upper limit of 2,000 l/min, preferably 1,000 l/min. The higher the selected value of the volume flow, the “wetter” the discharged liquid-foam mixture becomes.

[0063] Moreover, the liquid mixing system 1 comprises a first additive reservoir unit 3 with a first additive 4 accommodated therein and provided for discharge and mixing and/or admixing. An air compressor unit 5 is also provided, which is configured to and/or serves to provide compressed air. The air compressor unit 5 itself comprises a compressor 6 and a drive device 7 driving the same, which drive device 7 is drive-connected to the compressor.

[0064] In order to mix the first additive 4 into or admix it with the water stream discharged from the water pressure source 2, a first mixing device 8 having a first mixing chamber 9 is furthermore provided. The first mixing device 8 may be formed, for example, by a Venturi nozzle arrangement.

[0065] Preferably yet not necessarily, a second mixing device 10 having a second mixing chamber 11 may be provided. By means of the second mixing device 10, it is optionally also possible to additionally admix or add compressed air with/to the liquid-foam mixture discharged from the first mixing device 8. If the second mixing device 10 is provided, a connecting line 12 connecting the two mixing devices 8, 10 is to be provided. In this regard, it may further be advantageous if the volume flow of the liquid-foam mixture fed to the second mixing chamber 11 of the second mixing device 10 is adjusted manually and/or pneumatically. For this purpose, the second mixing device 10 may comprise at least one actuating means or at least one actuator member 39, which is configured to adjust the volume flow of the liquid-foam mixture fed to the second mixing chamber 11 of the second mixing device 10, The actuating means or the actuator member 39 is adumbrated in a schematically simplified manner and may also be arranged inside the second mixing device 10.

[0066] In order to discharge the liquid-foam mixture and possibly connect hoses or lines to the liquid mixing system 1, it also comprises a discharging unit 13, which in turn comprises a connection device 14 and a discharge line 15. The discharging unit 13 is line connected to the second mixing device 10, if provided, and in further consequence with the first mixing device 8 via the discharge line 15. This may be the case possibly via the connecting line 12.

[0067] In order to be able to establish or form line connections between the separate system components, separate line networks are further provided depending on the medium to be fed through. Suitable lines for each of the media, namely the water, the compressed air, and the additive are described in the following.

[0068] A water line network 16 comprises at least one first water feed line 17, which flow-connects the water pressure source 2 to the first mixing device 8, wherein they are line-connected to one another.

[0069] An additive line network 18 comprising a first additive line 19 is also provided. The first additive line 19 forms a line connection between the first additive reservoir unit 3 and the first mixing device 8. In order to be able to guide the compressed air provided by the compressor 6 to the system component intended therefor or to the intended system components, a compressed air line network 20 comprising a first compressed air lien 21 is also provided. In the present exemplary embodiment, the first compressed air line 21 connects the compressor 6 to the second mixing device. By means of an actuator or control member 22, the quantity of compressed air and/or the compressed air volume flow fed to the second mixing device 10 can be controlled or adjusted. This may optionally take place such that no compressed air at all is fed to the second mixing device 10 or the volume flow is increased depending on the desired air admixture. Most times, this takes place by means of manual adjustment.

[0070] In order to drive the compressor 6, the previously described drive device 7 is provided, which, in the present exemplary embodiment, is formed by a water engine or a water turbine. The water engine or the water turbine has, in each case, at least one water inlet 23 and at least one water outlet 24. For supplying the water engine or the water turbine, a second water feed line 25 is provided, which in turn connects the water inlet 23 to the water pressure source 2 in terms of flow. For adjusting the volume flow, a further actuator or control member 26 may be provided, which is formed as a ball valve, for example. With this, the water supply both to the first mixing device 8 and to the water inlet 23 of the water engine or the water turbine can be released or prevented.

[0071] If the pressurized water is fed or supplied to the water engine or the water turbine, the water engine or the water turbine consequently drives the compressor 6 providing the compressed air. In this case, the water mostly available in a pressurized state may also be serve as a drive medium for the water engine or the water turbine, and the compressed air may be used at least for optionally operating the second mixing device 10.

[0072] If the pressurized water is then fed from the water pressure source 2 to the first mixing device 8 via the first water feed line 17, at least the first additive 4 may optionally also be fed to the first mixing device 8 starting from the first additive reservoir unit 3, where it is mixed with the water or added to the water. The liquid-foam mixture is then forwarded to the discharging unit 13 from where it is forwarded to a jet pipe 27, which may also be referred to as extinguishing pistol or piercing nozzle and is subsequently connected thereto e.g. by means of an extinguishing line for the fire-fighting operation.

[0073] Furthermore, it may be advantageous if, for conveying the first additive 4 from the first additive reservoir unit 3 towards the first mixing device 8, the compressed air provided by the compressor 6 is also used. For this purpose, the first additive reservoir unit 3 comprises a first additive conveying device 28 and a first additive reservoir 29 for accommodating and storing the first additive 4. The first additive conveying device 28 may be formed by a conveyor pump driven by the compressed air, for example. For supplying the compressed air, the compressed air line network 20 comprises a second compressed air line 30, which flow-connects the compressor 6 to the first additive compressed air 28. The first additive reservoir 29 is line-connected to the first mixing device 8 via the first additive conveying device 28 and the first additive line 19. When the first additive reservoir unit 3 is in operation, the first additive conveying device 28 is driven by the compressed air fed in through the second compressed air line 30, and in this process, the first additive 4 is taken from the first additive reservoir 29 and fed into the first mixing device 8 via the first additive line 19. The removal may take place, for example, during a suction process.

[0074] At least one differential pressure regulating member 31 may also be provided, which in the exemplary embodiment shown, is arranged in the second compressed air line 30. The differential pressure regulating member 31 itself further has a line connection and/or communication connection to the first water feed line 17 via a measuring line 45. The measuring line 45 may also be referred to as reference pressure line, by means of which the current internal pressure (water pressure) inside the first water feed line 17 is transmitted to the differential pressure regulating member 31. If the pressure regulating member 40, described below in more detail, in the water feed line 17 for adjusting and controlling the water from the water pressure source 2 supplied or fed to the first mixing device 8 is provided, the pressure downstream of the pressure regulating member 40 is determined and used for controlling the air pressure forwarded to the first additive conveying device 28 in the second compressed air line 30.

[0075] The differential pressure regulating member 31 is configured to determine the water pressure in the first water feed line 17, wherein, based on the determined water pressure, the pressure level of the compressed air fed to the additive conveying device 28 is adjusted by the differential pressure regulating member 31 in the following second compressed air line 30 leading to the first additive conveying device 28. Thus, the pressure of the compressed air in the second compressed air line 30, which is forwarded to the first additive conveying device 28, can be adjusted by the differential pressure regulating member 31 depending on the pressure of the water in the first water feed line 17.

[0076] Additionally, a second additive reservoir unit 32 may also be provided, which comprises a second additive conveying device 33 and a second additive reservoir 34. In the second additive reservoir 34, a second additive 35 is accommodated or stored. The second additive conveying device 33 can be line-connected to the compressor 6 by means of a third compressed air line 36. For controlling and adjusting the pressure of the compressed air, a further differential pressure regulating member, which is not shown or described in detail, may be provided, which further differential pressure regulating member may be designed analogously to the previously described differential pressure regulating member 31 in the second compressed air line 30. This possible additional differential pressure regulating member may be arranged between the two “I” in the circle, representing a line connection, in the third compressed air line 36, which is shown only in sections for the sake of clarity.

[0077] The second additive reservoir 34 is line-connected to the first mixing device 8 via the second additive conveying device 33 and a second additive line 37. The second additive conveying device 33 is driven by the compressed air provided by the compressor 6, wherein the second additive 35 is taken from the second additive reservoir 34 and fed to the first mixing device 8 by means of the second additive conveying device 33 via the second additive line 37. The previously described additive conveying devices 28, 33 may be formed e.g. of compressed air membrane pumps or the like.

[0078] However, it would also be possible to provide the second additive reservoir unit 32 while provided a drive type deviating therefrom. However, the same also applies to the previously described first additive reservoir unit 3.

[0079] The additive or the additives may also be referred to as admixtures. Depending on requirements and operating conditions, the additive or the admixture may be selected from the group consisting of solid granulate material, abrasive agent, extinguishing powder, extinguishing additive, foaming agent, dry ice, decontamination agent, or the like.

[0080] The water required for the drive by and fed to the water engine or the water turbine may be conducted into the open after drive and escaping from the water outlet 24. Independently thereof, it would, however, also be possible to provide at least one water return line 38 in the water line network 16. The water return line 38 forms a flow connection between the water outlet 24 of the water engine or the water turbine and the water pressure source 2. Thus, the water escaping from the at least one water outlet 24 can be conducted back to the water pressure source 2, in particular in its unpressurized section, via the water return line 38 and subsequently be discharged again to the water engine or the water turbine. That water pressure of the water, which is present at the first mixing device 8 which is flown through by the water, can be adjusted and controlled by means of a pressure regulating member 40. Most times, this takes place with a manual adjusting action by operating personnel intended or trained therefor.

[0081] As described above, at least one additive 4, 35 may be admixed into or added to the water or extinguishing water. In order to be able to preset, in each case, the admixture ratio for the respective additive 4, 35, a separate adjusting member 41 may be arranged or provided in each of the first additive line 19 and/or also in the second additive line 37, as is adumbrated. The two previously described additive conveying devices 28, 33 are preferably operated by the compressed air provided by the compressor 6, although this does not have to take place necessarily.

[0082] Admixing and transporting the at least one additive 4, 35 form its respective additive reservoir unit 3, 32 does not have to take place necessarily with one of the previously described additive conveying devices 28, 33, but may also be carried out using other devices or system components. For this purpose, an engine or the like may also be used, although this is to be avoided due to environmental reasons.

[0083] In order to be able to also adapt the pressure, at which the air compressed by the compressor 6 is fed to the second mixing device 10 in the first compressed air line 21, to the respective current water pressure in the first water feed line 17, a separate or additional further differential pressure regulating member 46 may be arranged or provided in the first compressed air line 21 between the control member 22 and the second mixing device 10. The measuring line 45 required for this can be branched off from the first measuring line 45 described above. Thus, the further differential pressure regulating member 46 is also communication-connected or flow-connected to the first water feed line 17 via the measuring line 45.

[0084] FIG. 2 also shows, in a stylized manner, the liquid mixing system 1 in the form of a box-shaped structure, which is mounted on and affixed to a base frame 42 as a compact assembly unit. For connecting the water pressure source 2, a coupling device 43 is provided, wherein the water return line 38 ends at a further coupling device 44. Furthermore, the control member 26, which may also be referred to as actuator member, can be seen, which adjusts or controls the water intake to the previously described system components located downstream. This compact-design liquid mixing system 1 may preferably also be formed or referred to as a mobile and thus easy-to-transport emergency aggregate.

[0085] The method serves to provide a liquid-foam mixture by mixing water with at least one additive 4, 35 by means of the liquid mixing system 1, in which the following steps are carried out: [0086] providing the water pressure source 2 for discharging the water, [0087] providing at least one first additive reservoir unit 3 with the first additive 4 accommodated therein, [0088] providing the air compressor unit 5 for providing compressed air, comprising the compressor 6 and the drive device 7, wherein the drive device 7 is drive-connected to the compressor 6, [0089] providing the first mixing device 8 with the first mixing chamber 9 for admixing at least the first additive 4 to the water discharged from the water pressure source 2, [0090] providing the second mixing device 10 with a second mixing chamber 11 for optionally admixing compressed air to the liquid-foam mixture discharged from the first mixing device 8, and a connecting line 12 connecting the two mixing devices 8, 10 to one another, [0091] providing the discharging unit 13 for discharging the liquid-foam mixture with the connection device 14 and the discharge line 15, by means of which discharge line 15 the connection device 14 is line-connected to the mixing devices 8, 10, [0092] providing the water line network 16 with at least one first water feed line 17, by means of which first water feed line 17 the first mixing device 8 is line-connected to the water pressure source 2, [0093] providing the additive line network 18 with at least one first additive line 19, by means of which first additive line 19 the first additive reservoir unit 3 is line-connected to the first mixing device 8, [0094] providing the compressed air line network 20 with the first compressed air line 21, by means of which compressed air line 21 the second mixing device 10 is optionally line-connected to the compressor 6, [0095] feeding the water from the water pressure source 2 to the first mixing device 8 via the first water feed line 17, [0096] feeding at least the first additive 4 from the first additive reservoir unit 3 to the first mixing device 8 via the first additive line 19, [0097] mixing the water with the at least one additive 4 by means of the first mixing device 8 and forwarding the liquid-foam mixture to the discharging unit 13 and discharging the liquid-foam mixture from the connection device 14, wherein it is further provided [0098] that the drive device 7 of the air compressor unit 5 is formed by a water engine or a water turbine comprising at least the water inlet 23 and at least the water outlet 24, [0099] that the second water feed line 25 is provided, and the at least one water inlet 23 of the water engine or the water turbine is line-connected to the water pressure source 2 via the second water feed line 25, and [0100] that the water from the water pressure source 2 is fed to the water engine or the water turbine via the second water feed line 25, and the water engine or the water turbine is driven by pressurized water.

[0101] The exemplary embodiments show possible embodiment variants, and it should be noted in this respect that the invention is not restricted to these particular illustrated embodiment variants of it, but that rather also various combinations of the individual embodiment variants are possible and that this possibility of variation owing to the technical teaching provided by the present invention lies within the ability of the person skilled in the art in this technical field.

[0102] The scope of protection is determined by the claims. Nevertheless, the description and drawings are to be used for construing the claims. Individual features or feature combinations from the different exemplary embodiments shown and described may represent independent inventive solutions. The object underlying the independent inventive solutions may be gathered from the description.

[0103] All indications regarding ranges of values in the present description are to be understood such that these also comprise random and all partial ranges from it, for example, the indication 1 to 10 is to be understood such that it comprises all partial ranges based on the lower limit 1 and the upper limit 10, i.e. all partial ranges start with a lower limit of 1 or larger and end with an upper limit of 10 or less, for example 1 through 1.7, or 3.2 through 8.1, or 5.5 through 10.

[0104] Finally, as a matter of form, it should be noted that for ease of understanding of the structure, elements are partially not depicted to scale and/or are enlarged and/or are reduced in size.

TABLE-US-00001 List of reference numbers 1 Liquid mixing system 2 Water pressure source 3 First additive reservoir unit 4 First additive 5 Air compressor unit 6 Compressor 7 Drive device 8 First mixing device 9 First mixing chamber 10 Second mixing device 11 Second mixing chamber 12 Connecting line 13 Discharging unit 14 Connection device 15 Discharge line 16 Water line network 17 First water feed line 18 Additive line network 19 First additive line 20 Compressed air line network 21 First compressed air line 22 Control member 23 Water inlet 24 Water outlet 25 Water feed line 26 Control member 27 Jet pipe 28 First additive conveying device 29 First additive reservoir 30 Second compressed air line 31 Differential pressure regulating member 32 Second additive reservoir unit 33 Second additive conveying device 34 Second additive reservoir 35 Second additive 36 Third compressed air line 37 Second additive line 38 Water return line 39 Actuator member 40 Pressure regulating member 41 Adjusting member 42 Base frame 43 Coupling device 44 Coupling device 45 Measuring line 46 Differential pressure control member