• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
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  • 优先权
    • 专利摘要:
    Device for treatment by hydrodynamic cavitation of contaminated or infected liquids. The invention relates to a device for the treatment, by hydrodynamic cavitation, of liquids contaminated with chemical compounds and/or infected with microorganisms, comprising a liquid circulation drum (1) equipped with an entry point and an exit point (6, 7), inside which a central rotor (2) is arranged; a stator (3); and a circulation channel (5) of the liquid to be treated, defined by the space comprised between the rotor (2) and the stator (3), and which communicates the entry point (6) with the exit point (7) of the drum (1). The surfaces of the rotor (2) and the stator (3) are equipped with a plurality of radial protrusions (15, 15 ') arranged so that, when the protuberances (15) of the rotor (2) are aligned with the protuberances ( 15 ') of the stator (3), narrowings (5') are formed in the circulation channel (5) of the liquid to be treated, generating a plurality of venturi throats in said channel (5). (Machine-translation by Google Translate, not legally binding)
    公开号:ES2632192A1
    申请号:ES201630269
    申请日:2016-03-07
    公开日:2017-09-11
    发明作者:César DOPAZO GARCÍA;Luis Manuel Cerecedo Figueroa
    申请人:Universidad de Zaragoza;
    IPC主号:
    专利说明:

    DEVICE FOR TREATMENT THROUGH HYDRODYNAMIC CAVITATION OF POLLUTED OR INFECTED LIQUIDS
    FIELD OF THE INVENTION
    The present invention is framed in the field corresponding to the techniques for the treatment of liquids contaminated with hazardous chemical species and / or with
    10 persistent microorganisms. More specifically, the invention relates to a cavilation device based on the Venluri effect for the treatment of urban wastewater, industrial process water, sanitary water deodorization, and, in general, all those applications in which contaminants must be removed. chemical and / or pathogenic microorganisms in liquids.
    BACKGROUND OF THE INVENTION
    Cavilation is the process of formation of bubbles in a liquid, from pre-existing gas cores, as a consequence of the local decrease in pressure, and the subsequent violent implosion of the cavities generated by increasing said pressure. There are, in general, two types of cavitation that are used for application to the treatment of liquids: hydrodynamic and ultrasonic. Hydrodynamic cavitation implies lower energy consumption than ultrasonic, and its use in treatment and purification plants is easier. In addition, the mechanical equipment required to produce this phenomenon are
    25 simpler and less expensive. It is in this area that the present invention is framed.
    At present, there are various types of hydrodynamic devices for the generation of cavitation, most of which are based on the use of a Venturi contraction in a conduit through which a liquid circulates. A venturi tube or throat is a nozzle, which comprises a convergent inlet and a divergent outlet. In the convergent part, the liquid accelerates until reaching a maximum speed and minimum pressure in the throat. For sufficiently high speeds, the local pressure in the throat decreases to values around the vapor pressure of the liquid. Around this point, the
    35 steam bubbles. On the other hand, in the divergent zone, the flow slows down, the pressure increases and the vapor bubbles tend to collapse violently in very short times.
    The use of a single Venturi contraction in traditional cavitators forces the water to be recirculated during significant times, so that, at present, the option of using several Venturi in series is being used, in order to minimize the recirculation time and Improve process efficiency. The use of several Venturi in series causes successive contractions and expansions to occur, which allow to reduce the treatment times and the energy consumed, by subjecting the liquid to cavitation processes sequentially. By repeating the phenomenon, the bubbles themselves that have not imploded before, can act as new "nuclei" of cavitation. This allows to increase the number of cavitation nuclei and, therefore, the events of oxidation of contaminants and breakage of walls of microorganisms present.
    The main advantage of cavitation as a method for the elimination of contaminants and microorganisms in liquids is that it produces oxidizing radicals without relying, in the first instance, on reagents, or chemical agents that may be harmful, or on other consumables. It is a mechanical process that has no side effects due to the action of chemical agents or reagents, where oxidizing radicals occur due to the violent implosion of bubbles within the liquid to be treated.
    Therefore, in the Venturi tubes bubbles are generated, grown and imploded violently, generating hydroxyl radicals (OH), which are highly oxidizing, thus acting as micro reactors. The violent implosions of steam bubbles generate "hot spots" that reach very high pressures (from hundreds to thousands of bars) and temperatures (thousands of OC). The speed of the interface of the bubbles in the implosion process is of the order of 100 ml, which generates pressure waves that propagate in the liquid. In addition, in the presence of a wall or other bubbles, an individual bubble loses its spherical symmetry. This causes that during compression an asymmetric bubble generates micro jets of liquid of very high speed and diameters of a few microns. The shear forces induced by these jets within the liquid are very high and capable of breaking the cell wall of microorganisms that are immersed in it.
    Currently, focused on its application in liquid treatment, there are different types of hydrodynamic caviters that use or simulate multi-Venturi systems. International patent application WO 2015/021156 A 1 entitled "Novel Fluid Treatment Systems and Methods" (Mahamuni, Naresh et al.) Refers to a hydrodynamic cavitation water treatment system that has several assembled cavitation modules, so that the liquid can cavitate in the first or successive modules. A rotor drives the liquid that passes through each of the cavitation modules. The rotor allows to reach a high speed of the liquid, acts as an impeller to generate a radial flow and force the liquid to pass through the different radially arranged Venturi modules. Thus, in order to use more Venturis and improve the effect of cavitation treatment in reduced times, it is necessary to add more radial-radial rotors in series to the system.
    On the other hand, in the Scientific Article published in the journal Water Practice & Technology Vol. 5 No. 2, entitled "Optimization of the Hydrodynamic Sludge Pre-Treatment System with Venturi Tubes" (J. W. Maeng et al.), A hydrodynamic sludge pre-treatment system based on two groups of Venturi tubes, arranged in parallel with each other, is incorporated, incorporating a pressure measurement system comprising five meters for each tube: one at the inlet, one at the throat , and three at the exit of each Venturis group. Despite the advantages offered by this multi-Venturis system in series, the number of Venturi units is limited and, additionally, it is excessively laborious to modify it, since this implies disassembling and reassembling all the equipment for any built-in modification.
    Although the Venturi caviters known today allow solving some problems of traditional techniques, they find technical limitations derived from the number of Venturis used, the difficulty of adding more units to the system, as well as other problems related to high load loss , the direction of the flows, the low efficiency, or the low probability of a particle experiencing multiple cavitation events. These limitations mean that said known cavitators for the treatment of infected or contaminated liquids are not as efficient as one would like.
    The present invention proposes a solution to these limitations, through a novel device for treating liquids by means of hydrodynamic cavitation, which allows to overcome the technical problems of known cavitators.
    BRIEF DESCRIPTION OF THE INVENTION
    One of the objects of the present invention is, therefore, to provide hydrodynamic cavitation technology for the treatment of contaminated and / or infected liquids, based on a device that allows them to be subjected to a greater number of cavitation events during reduced times, with a High efficiency and low load losses. For this, a rotary device is proposed, based on a rotor and a stator, which behaves effectively as a series multi-Venturi system. The rotor, in addition to acting as an impeller of the liquid to be treated, is equipped with a series of protrusions that produce, when aligned and misaligned with other corresponding protuberances in the stator, the contractions and expansions required in the liquid to generate the cavitation events.
    Said object is preferably realized through a device for the treatment of liquids by hydrodynamic cavitation, comprising a liquid circulation drum equipped with at least one inlet area and an outlet area of said liquid, in which interior is arranged:
    - a central rotor operated by an engine;
    - a stator arranged concentrically with respect to the rotor;
    - a circulation channel of the liquid to be treated, defined by the space between the rotor and the stator, and that communicates the inlet zone with the outlet zone of the drum.
    Advantageously, rotor and stator are equipped with numerous radial protuberances, arranged in their respective superticies so that, when the rotor protuberances are aligned with the stator protuberances, narrowings are formed in the circulation channel of the liquid to be treated, generating multiple Venturi gorges on that channel.
    It is thus possible to solve several of the limitations of the prior art systems, allowing to obtain a greater number of cavitation events in the liquid without the need to modify the device. For a given geometry of the protuberances, it is only necessary to modify the number of turns per minute that the rotor gives with respect to the stator. There is, therefore, control over the frequency of cavitation events, which allows the design and customization of the equipment according to the required application. In the case of requiring a greater number of cavitation events, the device of the invention allows to increase the number of teeth of the stator, obtaining different sequences of cavitation and, thus, of the desired treatment. As an additional advantage, the loss of load is reduced thanks to the geometry and azimuthal direction of the flow in the invention. In addition, the
    The rotor itself helps to boost the liquid and the device works at pressures close to atmospheric pressure.
    In a preferred embodiment of the invention, the rotor is arranged on a central axis on which it can rotate. More preferably, the rotor is coupled to a motor by means of said central axis, in combination with a support piece and a plurality of fixing means. Also, the articulation between the rotor and the central axis comprises one or more bearings.
    In a preferred embodiment of the invention, the inlet section of the liquid to the drum is in one of its caps, and the outlet of the liquid from the drum is on the opposite side thereof. It is possible to generate approximately helical trajectories, which increases the residence time of the liquid in the channel and, therefore, the efficiency of the treatment by producing a greater number of cavitation events, in a compact space smaller than that of the known systems
    In another preferred embodiment of the invention, the liquid outlet can be connected to the device inlet. With this, the recirculation of the liquid is achieved, so that the particles thereof are subjected to cavitation several times, allowing liquids to be treated with chemical contaminants and / or more persistent microorganisms.
    In another preferred embodiment of the invention, the protuberances of the rotor or stator are toothed elements. This achieves a simple machining of the geometry of the protuberances.
    In another preferred embodiment of the invention, the profile of the stator or rotor teeth is substantially perpendicular or substantially oblique to the direction of liquid flow. This achieves channels with successive smooth contractions / sudden expansions or, alternatively, sharp contractions / smooth expansions.
    Another object of the present invention relates to a system based on the device described above, comprising numerous identical devices arranged in series and / or in parallel, additionally one or more recirculation channels may be included therebetween. This achieves that liquids with contaminants or more persistent microorganisms can be successively subjected to a greater number of cavitation events.
    In another preferred embodiment of the invention, the liquid outlet of a cavitator system, described above, is connected to the inlet zone of another identical system. This achieves channels in series with which it is achieved that the liquid particles are subjected to a greater number of times to successive events of cavitation by several devices, allowing to treat liquids with microorganisms and / or more persistent chemical contaminants.
    DESCRIPTION OF THE FIGURES
    Figure 1 shows a schematic perspective view of the device of the invention, according to a preferred embodiment thereof, where its main elements are detailed.
    Figure 2 shows an enlarged profile view of the embodiment of the invention shown in Figure 1.
    Figure 3 shows an enlarged profile view of the central axis of the rotor according to the embodiment of the invention shown in Figures 1 and 2.
    Figure 4 shows two configurations of the protuberances implemented in the stator and in the rotor of the device, in a preferred embodiment thereof. Figure 4a shows a configuration of smooth contraction and abrupt expansion (where the oblique profiles are arranged opposite the direction of liquid circulation), and Figure 4b shows an opposite configuration of abrupt contraction and smooth expansion (where the perpendicular profiles are arranged opposite to the direction of liquid circulation).
    Figure 5 shows the results of elimination of a colony of microorganisms by the device of the invention, in a preferred embodiment thereof. The graphs presented show the elimination of concentrations of Escherichia Coli colonies on the order of 3,104 colony forming units per milliliter (ufclml), as a function of time.
    Figure 6 shows the results of elimination of different concentrations of microorganism colonies by the device of the invention, in a preferred embodiment thereof. The graphs show three elimination results of, respectively, Escherichia Coli (EC) and Enterococcus Faecalis (EF) starting from initial concentrations of the order of 106 cfu / ml, and of the elimination of Escherichia Coli starting from an initial concentration of the order of 3,104 cfu / ml.
    Figure 7 shows the results of elimination of 4-Chlorophenol, cyanides and 4-Nitrophenol by the device of the invention, in a preferred embodiment thereof.
    Detailed description of the invention
    A detailed description of the invention, referring to a preferred embodiment thereof based on Figures 1-7 of this document, is set forth below. Said embodiment is provided for illustrative, but not limiting, purposes of the claimed invention.
    As described in the preceding sections, the device of the invention essentially comprises a drum (1) inside which a concentric rotor (2) and a stator (3) are arranged, wherein said stator (3) is located preferably arranged on the inner surface of the cylindrical wall (4) of the drum (1). Thus, the rotor (2) preferably occupies the central space of the internal drum housing (1), being surrounded by the stator (3).
    Advantageously, the device of the invention comprises a circulation channel (5) of the liquid to be treated, defined by the space between the rotor (2) and the stator (3). This channel (5) communicates an inlet zone (6) with an outlet zone (7) between which said liquid circulates in the drum (1).
    As shown in Figure 2, the drum (1) also comprises an upper cover
    (8) and a lower cover (9) as closures of the cylindrical wall (4) thereof, inside which the stator (3) is arranged. Said closing is carried out by means of the corresponding fixing means (10) (for example, closing screws). Preferably, in said covers (8,9), respectively, the inlet (6) and outlet (7) points of the liquid to be treated are arranged, so that, with the movement of the rotor (2), approximately paths are generated helical circulation inside the circulation channel (5). This ensures that a liquid particle is subjected to multiple cavitation events before leaving the device. In different embodiments of the invention, the entry point (6) can be arranged in the upper cover (8) and the exit point (7) in the lower cover (9), or vice versa.
    The rotor (2) is preferably arranged on a central axis (11) (Figure 3) on which it rotates during the operation of the device. In the embodiment represented by Figure 3, said rotor (1) is coupled to a motor (not shown in the figure) by means of said shaft (11), in combination with a support piece (12) and a plurality of fixing means (13, 13 ', 13 "). Additionally, to facilitate the smooth rotation of the rotor (2) inside the drum (1), a series of one or more bearings (14) are arranged in the joint between said rotor (2) and the central axis (11).
    In order to generate cavitation in the liquid introduced in the drum (1), the facing surfaces of the rotor (1) and of the stator (2) are equipped with numerous radial protuberances (15, 15 '), so that when the protuberances (15 ) of the rotor (2) are aligned with the protuberances (15 ') of the stator (3), narrowings (5') are formed in the circulation channel (5) of the liquid to be treated, thus generating a plurality of Venturi throats in said channel (5). The lack of alignment between rotor and stator protrusions is equivalent to widening of the circulation channel.
    In this way, the liquid to be treated is introduced through the inlet zone (6) to the circulation channel (5), and is subjected to numerous cavitation events due to the relative movement of the rotor (2) and the stator (3), during its trajectory until reaching the exit zone
    (7) of the device.
    Since the protuberances (15) rotate with the rotor (2), aligning and misaligning with respect to the protuberances (15 ') of the stator (3) successively, the Venturi effect produced in the narrowings (5') of the circulation channel ( 5) will occur in chains, as in a series Venturis circuit. When the protuberance (15) of the rotor (2) meets a protuberance (15 ') of the stator (3) the contraction occurs, as occurs in the throat of the Venturi. and when the protuberances (15, 15 ') do not match, the expansion in the circulation channel will be generated.
    It is also possible, in further embodiments of the invention, to equip the stator (3) with means of relative rotation with respect to the rotor (2), so that both elements rotate in opposite directions, thus producing a higher frequency of generating Venturi throats in the circulation channel (5).
    One of the main advantages of the device of the invention is that it allows obtaining a high number of cavitation events in the liquid without modifying the configuration of its essential elements, simply by choosing the number of revolutions per minute the rotor gives (2) with respect to the stator (3), that is, regulating the speed of rotation of the central axis (11). Therefore, the frequency of cavitation events can be controlled, allowing the device to be designed and customized according to the required application. In the case of specifying a greater number of cavitation events, it is also possible to use the same drum (1), modifying only the number of protrusions (15, 15 ') of the stator
    (2) or roll (2).
    The protuberances (15, 15 ') of the rotor (2) and the stator (3) can take different shapes and profiles, with the aim of generating cavitation events with different properties. In this sense, the protuberances (15, 15 ') can take the form of palettes, teeth, varied geometric shapes, or soft sinusoidal profiles. Likewise, the distribution of the protuberances (15, 15 ') can be regular or irregular along the surface of the rotor (2) and / or the length (3).
    In a preferred embodiment of the invention, the profile of the protuberances (15, 15 ') of the stator (3) or of the rotor (2) is substantially perpendicular or substantially oblique to the direction of circulation of the liquid to be treated (Figure 4), so that the abruptness or smoothness of contractions and expansions that induce cavitation events can be controlled. In this way, it is possible to propose, for example, the configurations described below:
    a) Smooth contraction and sudden expansion (Figure 4.a): applicable to cases in which the concentrations of chemical or microbiological agents are not very high. This alternative requires less device drive power than the configuration described below.
    b) Sudden contraction and smooth expansion (Figure 4.b): the number of bubbles generated increases considerably with respect to the previous alternative. Energy consumption is also higher, but higher cavitation intensities are achieved, so this configuration is indicated to treat liquids with high concentrations of persistent chemical compounds or microorganisms.
    In another embodiment of the invention, the outlet point (7) of the liquid to be treated by a device may be connected to the entry point (6) thereof, through a recirculation conduit; with this it is achieved that the liquid particles are subjected several times to the events of cavitation in the same device, thus allowing the liquids to be treated with more persistent chemical compounds or microorganisms. This can be achieved, in the same way, by arranging several devices according to the invention in series, to form a system of greater efficacy against contaminants of high persistence. A recirculation duct can even be included in said series system, so that the exit point (7) of the last device of the system is connected to the entry point (6) of the first device.
    Preferably, and as an advantage of the invention, the device will work at pressures close to atmospheric pressure, with reduced head losses and using the rotor itself
    (2) of the device to boost the liquid.
    Examples of application of the invention:
    Example 1: A device is configured with a rotor (2) of 58 teeth, connected to a 650 W power motor and rotating at 3,000 rpm in a vacuum. The stator (3) has 8 rectangular vanes 11 mm deep and 10 mm wide. Figure 5 of this document shows how, under these conditions, the device is capable of eliminating concentrations of Escherichia Coli colonies on the order of 3,104 colony forming units per milliliter, over a period of 6 minutes.
    Example 2: A device is configured with a stator (3) of 16 rectangular vanes 11 mm deep and 10 mm wide, and a rotor (2) of 80 teeth driven by a 650 W power motor. Figure 6 of this document shows how, as the vanes of the stator (2) and the rotor (1) increase, the device is capable of eliminating higher concentrations of colonies of E. Coli (EC) of the order of 106, in a period of time less than 10 minutes. The device is able to eliminate more resistant bacteria such as the Enterococcus Faecalis (EF), which has a double cell wall, which makes it more resistant to classic treatments such as chlorination.
    Example 3: A device is configured with a stator (3) of 16 rectangular vanes 11 mm deep and 10 mm wide, and a rotor (2) of 80 teeth driven by a 650 W power motor. Figure 7 of this document shows that it is possible to reduce up to 35% 4-Chlorophenol, when the initial concentration of this in water is 800 mg / l; up to 16% cyanides when the initial concentration in water is 8.2 mg / l, and mineralize up to 30% 4-Nitrophenol.
    权利要求:
    Claims (15)
    [1]
    1. Device for the treatment, by hydrodynamic cavilation, of contaminated and / or infected liquids, comprising a liquid circulation drum (1) equipped with at least one entry point (6) and one exit point ( 7) of said liquid, inside which is arranged:
    - a rotor (2) operated by motor;
    - a stator (3) arranged concentrically with respect to the rotor;
    - a circulation channel (5) of the liquid to be treated, defined by the space comprised
    between the rotor (2) and the stator (3), and that communicates the entry point (6) with the
    outlet point (7) of the drum (1);
    said device being characterized in that:
    the facing surfaces of the rotor (2) and the stator (3) are equipped with a plurality of radial protuberances (15, 15 '), where said protuberances (15, 15') are arranged on their respective surfaces so that, when the protrusions (15) of the rotor (2) are aligned with the protuberances (15 ') of the stator (3), narrowings (5') are formed in the circulation channel (5) of the liquid to be treated, generating a plurality of throats Venturi on said channel (5).
    [2]
    2. Device according to the preceding claim, wherein the stator (3) is disposed on the inner surface of the cylindrical wall (4) of the drum (1).
    [3]
    3. Device according to any of the preceding claims, wherein the rotor
    (2) is arranged on a central axis (11) on which it can rotate.
    [4]
    4. Device according to the preceding claim, wherein the rotor (1) is coupled to a motor by means of the central shaft (11), in combination with a support piece (12) and a plurality of fixing means (13, 13 ', 13 ").
    [5]
    5. Device according to the preceding claim, wherein one or more bearings (14) are arranged in the joint between the rotor (2) and the central axis (11).
    [6]
    6. Device according to any of the preceding claims, wherein the point of entry (6) of the liquid into the drum (1) is disposed on one of the flat faces of said drum (1), and the exit point (7) It is arranged on the opposite flat face of it.
    [7]
    7. Device according to any of the preceding claims, wherein the stator (3) is equipped with means of relative rotation with respect to the rotor (2), so that both elements can simultaneously rotate in opposite directions.
    [8]
    8. Device according to any of the preceding claims, wherein the liquid outlet point (7) is connected to the entry point (6), by means of a recirculation channel.
    [9]
    9. Device according to any of the preceding claims, wherein the protuberances (15, 15 ') have the shape of vanes, teeth, a geometric shape with several vertices, or a soft profile of sinusoidal type.
    [10]
    10. Device according to any of the preceding claims, wherein the distribution of the protuberances (15, 15 ') is regular or irregular along the surface of the rotor (2) and / or the stator (3).
    [11]
    11. Device according to any of the preceding claims, wherein the protuberances of the rotor (2) or the stator (3) have a toothed shape.
    [12]
    12. Device according to the preceding claim, wherein the profile of the teeth of the stator (3) or the rotor (2) is substantially perpendicular or substantially oblique to the direction of circulation of the liquid in the circulation channel (5).
    [13]
    13.-System for the treatment, by hydrodynamic cavitation, of contaminated and / or infected liquids, comprising a plurality of devices according to the preceding claims, said devices being connected in series and / or in parallel.
    [14]
    14. System according to the preceding claim, wherein the liquid outlet point (7) of at least one device of said system is connected to the entry point (6) of at least one other device thereof, by means of a channel of recirculation.
    [15]
    15. Procedure for the treatment of liquids by hydrodynamic cavitation comprising the use of a device according to any of the claims 1-12, wherein the liquid to be treated is circulated through the circulation channel
    (5) of said device at atmospheric pressure.
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    同族专利:
    公开号 | 公开日
    ES2632192B1|2018-06-21|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    CH663551A5|1984-03-23|1987-12-31|Kinematica Gmbh|Device for continuous kinematic high-frequency treatment of a material or mixture of materials|
    RU94024601A|1994-06-30|1996-04-20|В.И. Тумченок|Disintegrating device|
    WO2014189479A1|2013-05-20|2014-11-27|Akimenko Yurij Vladimirovich|Hydropercussion cavitation reactor|
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