RU2622886C2 - Methods of protecting against fouling and protecting fish and fish protection device of complex effect - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: device includes a water-permeable screen consisting of cassettes made of conductive material and isolated from one another, and electronic equipment. Electric current is supplied to the cassettes, alternately one cassette or a group of two or more cassettes becoming the cathode, and any remaining or some of the remaining cassettes becoming the anode. Thereinafter each successive cassette or the subsequent group of cassettes in a chain or through one cassette or group of cassettes, or in staggered order, alternately becomes the cathode. The method of protecting against biological fouling provides for the pulsed current supply between the cassettes. The method of protecting against biological fouling and protecting fish from entering the water intake structure provides for the pulsed current supply with the displacement of the maximum of the cathodic potential along the water-permeable screen.

EFFECT: improving the effectiveness of fish protection equipment.

5 cl, 5 dwg

Description

Known designs of water intake fish protection filters, a common feature of which is the presence of filtering water mesh, perforated or louvered surfaces and other means that prevent direct contact of juvenile fish with these surfaces.

The design differences between the known filters are caused by different operating conditions: by type of water source, by mode of operation, by conditions of use, etc.

A known fish-water intake filter, the filtering surfaces of which are formed by vertical, chevron-shaped shutters in the cross section, which is made in the form of a vertical trihedral prism, the ribs of which are pipes with deep pumps open inside the prism, and the prism faces are made in the form of vertical adjacent louvered cartridges a fish-flute connected to the pressure pipelines of the pumps is mounted along each pipe (see RF patent for utility model No. 36115, IPC EV 02/08, 2003).

A fish-catching water intake filter is known, the flat walls of the water intake chamber of which are formed by chevron shutters and equipped with fish drain flutes, and the receiving chamber has the shape of a rectangular box, one wall of which is the wall of the drilling platform caisson with a water intake pipe through which the deflector is mounted against the water inlet ( see RF patent for utility model No. 37997, IPC ЕВВ 8/08, 2003).

A known fish-intake water filter, the filter walls of the water intake chamber of which form a vertical prism or a vertical cylinder with louvered walls containing at least one submersible pump, the chamber cavity is divided into sections by permeable vertical partitions, each oriented from the corresponding edge of the prism to its axis of symmetry, and in each section contains an autonomous pump (see RF patent for utility model No. 43013, IPC EV 02/08, 2004).

Known water intake fish filter, containing at least one predominantly removable cartridge, the filtering surface of which is formed by the outer and inner parallel louvered surfaces, in which the constituent plates have an opposite angle of inclination, preferably the step of installing the outer plates is two times the step of the inner, and the distance between the outer and inner surfaces is equal to the pitch of the inner plates (see RF patent for the invention No. 2313634, IPC EV 02/08, 2006).

A known fish-water intake filter, the filtering element of which is a set of corrugated louvre plates along the length, the corrugations are formed by successive planes docked to each other at an angle of 60 ° (see RF patent for utility model No. 76653, IPC EB 8/08, 2007).

Known fish protection head, which is a hollow cone with a permeable filter surface, the surface of the cone is made louvered, and the louvre plate is oriented across the generatrices of the cone and unidirectionally with the angle of their inclination (see RF patent for utility model No. 74137, IPC EV 8/08, 2008) .

A fish protection device is known that contains at least one louvered water receiving surface washed by the flow stream of the flow former and mounted in the window opening of the water receiving structure, the louvered surface is curved, replacing the curved surface of the window opening, and the vector of the total flow washing it is tangent to the curve characterizing the curvature of the louvre surface (see RF patent for utility model No. 85918, IPC ЕВВ 8/08, 2009).

A comprehensive fish protection device is known, consisting of a permeable screen made of filter elements (cassettes), and jet generators, which are collectors with water-jet nozzles to create a three-dimensional hydraulic screen. The filtering elements (cartridges) are located at an angle to each other and, accordingly, to the suitable flow and close, forming the top or the tip of the device. The nozzles of the jet generators are located in such a way and at such an angle to the filtering surface of the filter elements (cartridges) that the jets emanating from the nozzles of the jet generator wash the surface of each of the filter elements (cartridges) from the base to the top and converge at the top of the device, while the mixing point of the jets emanating from the nozzles of the jet generator can be located on the axis of the water intake window or be shifted to either side of it, at the top of the device, where the filter elements (cartridges) are closed and the jets flowing out struegeneratorov of nozzles, mounted fairing.

The device may additionally contain a fish outlet installed in such a way that a local stream directed towards the water intake stream, with the fish involved in it, enters the fish collector and then into the fish outlet, providing further movement of fish from the water intake zone to a safe area of the water source.

The device may additionally contain a jet generator installed inside the fairing, while the nozzle of the jet generator is installed in such a way that the outgoing jets are directed towards the approaching stream with speeds exceeding the speed of the approaching stream, form the central part of the local stream directed towards the intake stream, increasing the flow energy and contributing to the further removal of fish from the water intake to a safe area of the water source (see RF patent for the invention No. 2569836, IPC EB 8/08, 2 014).

A combined double-circuit fish protection device is known, consisting of a double-circuit screen and equipped with a stream former. The filtering water intake screen consists of two circuits. The first screen contour is a set of at least two flow-forming plates located at an angle from 1 to 179 ° to the filter surface of the second screen contour. Between each two adjacent plates of the first screen contour and the filtering surface formed by the plates of the second screen contour, a fish trough is formed (see RF patent for the invention No. 2515682, IPC ЕВВ 8 / 08,2012).

A known fish-water intake filter containing a filter surface made of electrically conductive shutters installed in front of the water intake window and containing an electric fish trap having a pulse current source, a control unit and a pulse shaper with alternatively louvered cathode plates and sections connected to it and a common anode (see RF patent for Utility Model No. 90804, IPC Е02В 8/08, 2009).

A known fish-water intake filter, which is a cone with a permeable filtering surface made of a louvre, the louvre plates are angled to the edge of the cone, the conical filter is formed by three groups of louvre plates with different widths, a group with a smaller plate width h ₂ is located on the intake side, then the width plates increases to a maximum width of ₁ h, after which it decreases to the calculated width h, wherein the width of each louver plate decreases following relative before uschey by an amount h ₁ -h, wherein the louver plates are made of electrically conductive material, are grouped in sections, and are fixed on the edge of the conical filter via insulators ,. The filter is additionally equipped with a closed-ring unipolar electric fish trap, which includes an electronic pulse-signal generating unit, the electrodes of which are the sections of the louvre plates, each section of the louvre plates alternately becomes the cathode, and the anodes become one or several of the remaining sections of the louvered plates (see . RF patent for utility model No. 107181, IPC ЕВВ 8/08, 2011).

A comprehensive fish protection device of the protective-filtering action (KRUOF) containing a permeable screen is known. The screen consists of filter mesh and / or louvre elements. Elements are combined horizontally in rows and vertically in modules. Moreover, the device may contain sections of the electrodes. Each individual filter element is isolated from the others by means of a dielectric material and is made of an electrically conductive material or a material that does not conduct electric current. An impulse current is supplied to all or individual filtering elements, creating an electric field around the permeable screen (see RF patent for invention No. 2488658, IPC EV 02/08, 2012).

The disadvantage of the above devices is that the device cannot reduce the degree of fouling of the water intake structure in river and especially in marine conditions by biological organisms, as a result of which it is necessary to shorten the intervals between removal of the device and cleaning the water intake from fouling or underwater cleaning by divers, which leads to expensive maintenance of the water intake, as well as an increased risk of failure of its equipment and components.

At the same time, technical solutions based on the principle of protecting seawater intake structures from biological fouling are known. Such devices consist of copper and aluminum anodes placed in a steel frame, which are supplied with direct electric current from the transformer.

The disadvantage of such devices is that such devices not only do not perform the functions of fish protection and fish diversion, but are also dangerous for fish and other aquatic organisms. Based on the operation of direct electric current, such devices lead to the death of not only small bioorganisms causing underwater structures to foule, but also fish, animals and other hydrobionts that live in this water area, which will lead to their ingress into the water intake and may cause failure of the water intake equipment . Moreover, the anode field created by such devices attracts fish. With a constant increase in field strength, the anode dependence of fish is observed - the fish moves to the anode, where it is in the immobolization zone near it, disorientation and immobilization of the fish occurs, which leads to its death as a result of getting into the water intake.

The objective of the proposed technical solution is to ensure the integrated operation of the device, which allows to protect the design of the fish protection device and water intakes (pipelines, cables, etc.) from biological fouling and increase the efficiency of protection of fish and other aquatic organisms living in the water area of the water intake structure and to prevent their death due to getting into the water intake, to prevent the entry of debris, ice, sludge into the water intake, which can cause failure of the pumping equipment.

The task is achieved by the fact that the proposed:

1. A method of protecting water intake structures and a fish protection device from biological fouling.

2. A method for comprehensive protection of water intake structures and a fish protection device from biological fouling and protection of fish from getting into the water intake structure.

3. Fish protection device of complex effects.

Consider the proposed fish protection device with a complex effect (see Fig. 1-5), the main working elements of which are a permeable screen and electronic equipment 1.

The water-permeable screen can be made single-circuit or double-circuit (Fig. 1a-d), single-row (Fig. 1a, c-e), double-row (Fig. 2b) or multi-row, with each row or contour of the permeable screen is isolated from another by dielectric material.

The waterproof screen consists of cassettes 2 made of electrically conductive material and isolated from each other.

Cassette 2 consists of elements 4. Cassette 2 can be made single-row, double-row or multi-row (Fig. 2), i.e. contain one or more rows of elements 4 horizontally and vertically.

The number of elements 4 in one cartridge 2 can be any of 1 or more. The installation angle of each individual element 4 to the flow can be any from 0 to 180 ° and vary within the same cartridge 2. The distance between each two separately taken elements 4 within the same cartridge 2 can be different and vary within the same device. Element 4 can be made in the form of a plate of blinds or in the form of a rod, the overall dimensions, diameter, geometric shape of the element can be any, in cross-section the element can have a circle, rectangle, triangle, square, polyhedron, i.e. we are talking about a generalized, and not about its strict geometric form. Element 4 can be made circular, rectilinear, curved, zigzag, etc. (Fig. 1, 2).

A comprehensive fish protection device can be voluminous and have any configuration, having in cross section a circle, a triangle, a square, and a polyhedron, or it can be a flat structure, i.e. it is not a concrete, but a generalized geometric form.

Materials for the manufacture of the device and its individual elements can be used in any combination (stainless steel, copper-nickel alloy, aluminum alloys, titanium, rubber, fluoroplastic, etc.).

The device may further comprise a flow generator 3 (Fig. 3-5) for the formation of a transit stream washing the cassettes 2 of the permeable screen. The number of streaming agents 3 in the device may be from 1 or more. The installation location of the flow generator 3, the number of nozzles 5 in each flow generator 3, the angle of inclination of the nozzles 5 of the flow generator 3 to the stream can be any and are selected depending on the hydraulic conditions in the place of operation of the water intake and the configuration of the water intake in such a way as to ensure the most optimal operation of the device by creating a transit the stream washing the cassettes 2 of the water-permeable screen and ensuring the removal of juvenile fish, debris, ice, sludge and bioorganisms from the water intake to a safe water zone Source.

The fluid supplied to the nozzles 5 of the flow former 3 may have a different chemical composition and temperature depending on the technical characteristics of the water intake and the offshore platform as a whole.

The device may further comprise flow forming elements installed behind or in front of the water intake screen.

The distance between the water-permeable screen and the flow-forming elements can be any. The configuration, shape, size, installation step, angle of inclination to the flow of flow-forming elements can be any. These parameters are selected depending on the hydraulic conditions and ichthyological situation at the place of operation of the water intake, technical characteristics and configuration of the water intake.

Electronic equipment 1 is designed to create the necessary electric field and control its parameters in the zone of operation of the device.

From electronic equipment 1, the pulse current is supplied to the cassettes 2 of the permeable screen. In this case, the options for creating and the parameters of the electric field can be different. Based on the ichthyological situation in the zone of operation of the water intake and the alignment location and operation of the device, the operating mode of the claimed technical solution is determined.

The cathode can simultaneously be either one cassette 2, or a group of two or more cassettes 2, while all the remaining or some of the remaining cassettes 2 become the anode. Further, each subsequent cartridge 2 or the subsequent group of cartridges 2 in a chain becomes a cathode, or through one cartridge 2 or a group of cartridges 2, or in a checkerboard pattern, etc.

The operation of electronic equipment is based on the effect of creating a weak anode field and a strong cathode field with the movement of the maximum cathode potential along the permeable screen several times per second. Thus, all the space on the outer border of the water-permeable intake screen is blocked by the frightening effect of the “running” field with a pronounced strong cathodic, that is, frightening effect, orienting the fish and other hydrobionts from the protected intake.

The waterproof screen creates a visual effect of the barrier, insurmountable for fish. At the same time, the permeable screen acts as a coarse grating, preventing large debris, ice, and sludge from entering the water intake.

The stream former 3 creates an artificial stream of water directed along the cassettes 2 of the water-permeable screen, with speeds significantly exceeding the suitable speeds of the intake flow to the fish protection device. Most of the protected fish in contact with the external boundary of the jet exhibits a gradient reaction and moves into a safe zone. Due to the ejection properties of the jet, the remaining young fish, particles of debris and suspended matter are moved by the jet beyond its active part and the zone of influence of the water intake. In addition, turbulent disturbances are formed on the permeable screen, which cause a defensive reaction in fish.

The principle of protecting fish with a fish protection device of complex effect consists in combining the behavioral and physical principles of fish protection and is based on the response of fish to turbulent disturbances generated by stream former 3 and a permeable screen to a “running” field with a pronounced strong cathode effect formed by electronic equipment 1 on the external the border of the permeable screen, and have a complex effect on the organs of vision, the side line and the hearing organs of fish, which help to prevent getting young fish in the water intake and its independent departure from the intake structure. As a result, the efficiency of protecting the fish with the device increases significantly.

At the same time, between the cassettes 2 (elements 4 of the cassettes 2) of the permeable screen, an electric field is created that causes the complete death of protozoa, algae, larvae and other organisms that make up a significant part of the fouling in the water intake and placed equipment of the RPD, disinfecting water and preventing biological fouling of water intake and fish protection structures.

The effect of suppressing the vital activity of organisms forming the fouling layers and preventing biological fouling of the design of the fish protection device and water intakes (pipelines, cables, etc.) is ensured by creating electric field strength and electrolysis of sea water with the formation of toxic compounds on cassettes (elements) of the structure of the relay protection device .

As a result of the complex action of the device, the complex effect of protecting the structures of the fish protection device and water intake from biofouling and the protection of juvenile fish, animals and other aquatic organisms living in this water area is ensured by scaring them away from the water intake zone.

The claimed technical solution is new, as it is characterized by the presence of a new set of features that are absent in all objects of technology of a similar purpose known to us, namely, the device combines two functions: protecting fish from getting into and falling into the water intake structure and protecting the fish protection device and water intake structures from biological fouling. The waterproof screen can be made single-circuit or double-circuit, single-row, double-row or multi-row. The number of elements in one cartridge can be any of 1 or more. The installation angle of each individual element to the flow can be any from 0 ° to 180 ° and vary within the same cartridge. The element can be made in the form of a plate of blinds or in the form of a rod, overall dimensions, diameter, geometric shape of the element can be any. The distance between each two separately taken elements within the same cartridge can be different and vary within the same device. The element can be made circular, rectilinear, curved, zigzag, etc.

The cassette can be made single-row, double-row or multi-row, i.e. contain one or more rows of elements horizontally and vertically.

The device may further comprise a flow former. The device may further comprise flow-forming elements mounted behind or in front of the permeable screen. The device contains electronic equipment designed to create the necessary electric field and control its parameters in the area of the device.

The technical result of the proposed device is manifested in the fact that the fish protection device has a complex effect, namely it combines two functions: the function of protecting and diverting fish from the water intake area, prevents their death as a result of getting into the water intake, and the function of protecting the structures of the fish protection device and water intake from biological fouling, as a result, the service life of the water intake equipment increases, maintenance costs are reduced, the device prevents pop danie a water intake structure of debris, ice, slush, by the use of a pulsed current is lower energy costs, there is a cheaper construction as a whole, because there is no need for two separate devices for the protection of fish and fish protection system protection structures and water intake of biofouling, respectively.

The essence of the proposed technical solution is illustrated by drawings:

in FIG. 1 schematically shows particular cases of the performance of a water-permeable double-circuit screen when the cassette 2 is single-row, double-row, and element 4 is circular, rectilinear, curved, zigzag;

in FIG. 2 schematically shows particular cases of the execution of the cartridge 2 of a single-circuit permeable screen when the cartridge is made single-row, double-row, and element 4 is made circular, rectilinear, curved, zigzag;

in FIG. Figure 3 schematically shows a particular case of the implementation of a fish protection device with a complex effect, when the device is made three-dimensional, hexagonal in cross section, contains a single-circuit hexagonal permeable screen, each cartridge 2 is single-row and consists of several elements, the device further comprises a flow former 3 with nozzles 5;

in FIG. Figure 4 schematically shows a particular case of a fish protection device with a complex effect (electronic equipment not shown), when the device is made three-dimensional, hexagonal in cross section, contains a single-circuit hexagonal permeable screen, each cassette 2 is hexagonal and consists of one element, the device additionally contains a flow former 3 with nozzles 5;

in FIG. 5 schematically shows a special case of the execution of a fish protection device with a complex effect (electronic equipment not shown), when the device is made voluminous, cylindrical, circular in cross-section, contains a single-circuit cylindrical permeable screen, each cartridge 2 is single-row and consists of one ring element, the device additionally contains a flow generator 3 with nozzles 5.

The way to protect the structures of the water intake and fish protection device from biological fouling is that by supplying pulsed current from electronic equipment, an electric field is created that causes the complete death of protozoa, algae, larvae and other organisms, i.e. a significant part of the components of fouling in the water intake zone and the installed equipment of the distribution unit, disinfecting water and preventing biological fouling of the structures of the water intake and fish protection device.

Variants of creation and parameters of the electric field can be different and are determined based on the concentration and type of bioorganisms that form the fouling layers in the zone of operation of the water intake and the alignment site of the device.

The cathode can simultaneously be either one cassette 2, or a group of two or more cassettes 2, while all the remaining or some of the remaining cassettes 2 become the anode. Next, either each subsequent cartridge 2 or the subsequent group of cartridges 2 in a chain becomes a cathode, or through one cartridge 2 or a group of cartridges 2 or in a checkerboard pattern, etc.

A distinguishing feature that distinguishes this method from previously known methods for preventing the fouling of underwater structures with bioorganisms is the use of a pulsed rather than constant current to create an electric field that suppresses the activity of bioorganisms that form fouling layers, and one cassette or a group of two and more cassettes, and all the remaining or some of the remaining cassettes become the anode, then each subsequent cassette or the next becomes the cathode in turn a group of cassettes in a chain, or through one cassette or a group of cassettes or in a checkerboard pattern.

A way to comprehensively protect the structures of the water intake and the fish protection device from biological fouling and to protect the fish from getting into the water intake structure is that by supplying pulsed current from the electronic equipment, a weak anode field and a strong cathode field are created, with the maximum cathode potential moving along the permeable screen somewhat once a second, blocking all the space on the outer border of the permeable water intake screen by the frightening effect of a “running” field with a pronounced strong With an atomic, deterrent effect, orienting fish and other hydrobionts from the protected water intake, an electric field is created between the cassettes (elements) of the water-permeable screen, which causes the complete death of bioorganisms that form the fouling layers in the water intake and placed equipment of the RPE, disinfecting water and preventing biological fouling of structures water intake and fish protection device.

Variants of creation and parameters of the electric field can be different and are determined based on the ichthyological situation, the concentration and type of bioorganisms that form the fouling layers in the zone of operation of the water intake and the alignment site of the device.

The cathode can simultaneously be either one cassette 2, or a group of two or more cassettes 2, while all the remaining or some of the remaining cassettes 2 become the anode. Next, either each subsequent cartridge 2 or the subsequent group of cartridges 2 in a chain becomes a cathode, or through one cartridge 2 or a group of cartridges 2 or in a checkerboard pattern, etc.

A distinctive feature is that this method provides comprehensive protection of the structures of the water intake and fish protection device from biological fouling and protects the fish from getting into the water intake structure, a pulsed current is used, a weak anode field and a strong cathode are created, with the cathode potential maximum moving along the permeable screen somewhat once a second, blocking all the space on the outer border of the permeable water intake screen by the frightening effect of a “running” field with a pronounced force With the cathodic, deterrent effect, orienting fish and other hydrobionts from the protected intake, an electric field is created between the cassettes (elements) of the design of the permeable screen, which causes the complete death of the bioorganisms that form the fouling layers in the water intake and placed equipment of the RZU, disinfecting the water and preventing biological fouling of the structures of the water intake and fish protection device, moreover, one cassette or a group of two or more cassettes alternately becomes the cathode, and all the remaining and and some of the remaining cassettes become anode, hereinafter alternately becomes a cathode each subsequent tape cassettes or subsequent group in the chain, or via one or a group of tape cassettes or staggered.

The task, which is to ensure the integrated operation of the device, combining the functions of protecting fish from getting into the water intake and protecting the structures of the fish protection device and water intake from biofouling, preventing the entry of debris, ice, sludge into the water intake, has been completed.

The application of the claimed methods and technical solutions allows the use of elements known in the industry.

Claims (5)

1. Fish protection device of complex effects, the main working elements of which are a water-permeable screen, consisting of cassettes made of electrically conductive material and isolated from each other, and electronic equipment, characterized in that the water-permeable screen can be made single-circuit or double-circuit, single-row, double-row or multi-row, the cartridge can be made single-row, double-row or multi-row, each cartridge consists of elements, the number of elements in one cartridge is t from one or more, the installation angle of each individual element to the flow can be any from 0 to 180 ° and vary within one cartridge, the distance between each two separately taken elements within one cartridge can be any and vary within one device, element made in the form of a plate of blinds or in the form of a rod, the overall dimensions, diameter, geometric shape of the element can be any, the element can be made circular, rectilinear, curved, zigzag, while from electronic equipment An electric field is applied to the cassettes of the water-permeable screen, whereby one cassette or a group of two or more cassettes alternately becomes the cathode, and all the remaining or some of the remaining cassettes become the anode, then each subsequent cassette or subsequent group of cassettes alternately becomes the cathode, or through one cassette or group of cassettes, or staggered, as a result, a weak anode field and a strong cathode field are created with the maximum cathode potential moving along the permeable screen, covering all the space on the outer border of the water-permeable intake screen, scaring away and orienting fish and other hydrobionts from the protected water intake, an electric field is created between the cassettes (elements) of the water-permeable screen, causing the death of bioorganisms forming fouling layers in the water intake and placed equipment of the fish protection device, disinfecting water and preventing biological fouling of the structures of the water intake and fish protection device. 2. The fish protection device of the complex effect according to claim 1, characterized in that the device further comprises a stream former, the number of stream former in the device being one or more, the number of nozzles in each stream former, the angle of inclination of the nozzle of the stream former to the stream can be any, liquid supplied to the nozzles of the flow former may have a different chemical composition and temperature. 3. The fish protection device of the complex effect according to claim 1, characterized in that the device further comprises flow-forming elements installed behind or in front of the water intake screen, while the distance between the water-permeable screen and flow-forming elements can be any, configuration, shape, size, installation step , the angle of inclination to the flow of flow-forming elements can be any. 4. A method of protecting the structures of the water intake and fish protection device from biological fouling, characterized in that due to the supply of pulsed current from the electronic equipment between the cassettes (elements) of the permeable screen, an electric field is created that causes the death of the bioorganisms that form the fouling layers in the water intake and placed equipment a fish protection device, disinfecting water and preventing biological fouling of the structures of the water intake and fish protection device, the cathode alternately novitsya one cassette or a group of two or more tapes, and all or some of the remaining of the remaining anode cassettes are further alternately becomes a cathode each subsequent tape cassettes or subsequent group in the chain, or via one or a group of a cassette tape, or in a staggered manner. 5. A method for comprehensively protecting the structures of the water intake and fish protection device from biological fouling and protecting the fish from getting into the water intake structure, characterized in that due to the supply of pulsed current from the electronic equipment, a weak anode field and a strong cathode field are created with the maximum cathode potential moving along the permeable screen, blocking all the space on the outer border of the permeable screen of the intake, scaring away and orienting the fish and other hydrobionts from the protected intake, between by the networks (elements) of the water-permeable screen, an electric field is created that causes the death of the bioorganisms that form the fouling layers in the water intake and placed equipment of the fish protection device, disinfecting the water and preventing biological fouling of the water intake and fish protection device structures, with one cassette or a group of two and more cassettes, and all the remaining or some of the remaining cassettes become the anode, then each subsequent checkout becomes the cathode in turn or a subsequent group of tapes in the chain, or via a cassette tape or a group, or in a staggered manner.

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