KR101936925B1 - Apparatus for removing Backsheet of Photovoltaic Module and Method for removing Backsheet of Photovoltaic Module - Google Patents

Abstract

The present invention relates to an apparatus and method for removing a backsheet of a solar module, and an apparatus for removing a backsheet of a solar module according to an embodiment of the present invention includes a suction unit for absorbing one surface of a solar module; And a transfer unit for transferring the photovoltaic module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a back sheet removing device for a photovoltaic module and a back sheet removing method for a photovoltaic module,

The present invention relates to a back sheet removing device for a solar module and a method for removing the back sheet of the solar module.

A solar cell is a device that converts light energy into electric energy by using photovoltaic effect. The solar cell is divided into a silicon solar cell, a thin film solar cell, a dye-sensitized solar cell, and an organic solar cell depending on the constituent materials. Such a solar cell can be independently used as a power source for an electronic clock, a radio, an unmanned lighthouse, a satellite, and a rocket, and can be used as an auxiliary power source in connection with a system of a commercial AC power source.

Polycrystalline and single crystal cells using a silicon material are present in the solar cell, and various forms using inorganic or organic materials may exist. Such a solar cell includes a solar cell module including a sealing material, a tempered glass for protecting the surface, and a backsheet, which is a rear protective film, so that several to several tens of solar cells are connected, Is used.

The cell is positioned between a tempered glass for protection and a back sheet as a back side protective member, and at this time, an encapsulant is used to protect the cell and adhere to the glass and the rear protective film. More specifically, the reinforcing glass, the sealing material sheet, the solar cell, the sealing material sheet and the back sheet are laminated in this order, and the lamination process is carried out to modularize.

At this time, the back sheet has a multilayer structure in which a fluorine film such as a PVF (polyvinyl fluoride) film or a PVDF (polyvinylidene fluoride) film is adhered to both sides of a PET (polyethylene terephthalate) film excellent in water vapor and oxygen barrier properties. The back sheet not only protects the solar cell module, but also reflects the light transmitted through the solar cell and sends it back to the solar cell.

The following prior art documents relate to a recycling and disassembling apparatus for a solar cell module, and include a method of pyrolyzing an organic material including a back sheet. It also includes a process of manually removing the backsheet to recycle the solar module.

U.S. Published Patent Application No. US006063995A Korean Patent Publication No. 10-2012-0026646

SUMMARY OF THE INVENTION It is an object of the present invention to provide an apparatus for removing a back sheet of a solar module capable of separating a back sheet of a solar module from a solar module.

It is another object of the present invention to provide a method for removing a backsheet of a solar module in which a back sheet of the solar module is separated from the solar module.

An apparatus for removing a solar cell module back sheet according to an embodiment of the present invention includes: a suction unit for adsorbing one surface of a solar cell module; And a transfer unit for transferring the photovoltaic module.

In addition, the adsorption unit may include means for heating the solar module.

Further, the adsorption part may be heated to a temperature of 50 to 300 ° C.

In addition, the transfer unit may include means for heating the solar module.

Further, the transfer part may be heated to a temperature of 50 to 300 캜.

In addition, the transfer unit may include an adsorption structure for adsorbing the other surface of the photovoltaic module.

Also, the transfer unit can move at a rate of 0.05 to 30 cm / s.

The adsorption unit may include an adsorption pad for adsorbing the solar module and a driving unit for driving the adsorption pad.

In addition, the back sheet can be removed from the solar module through adsorption and heating of one side of the solar module by the adsorption unit and adsorption, heating and movement of the other side of the solar module by the transfer unit.

In addition, the adsorption of the other surface of the solar module by the transfer unit may precede the adsorption of one surface of the solar module by the adsorption unit.

Further, the back sheet may further include a module withdrawal portion from which the back sheet is separated.

The apparatus may further include a support for supporting the adsorption unit.

A method of removing a solar module back sheet according to another embodiment of the present invention includes heating a solar module (step 1); A step of adsorbing one surface of the solar module (step 2); A step of adsorbing and moving the other surface of the photovoltaic module (step 3); And removing the back sheet of the solar module from the solar module (step 4).

In addition, the solar module of step 1 may be heated to a temperature of 50 to 300 캜.

In addition, the photovoltaic module of the step 3 can move at 0.05 to 30 cm / s.

Further, the method may further include partially separating the back sheet from the solar module before at least one of the steps 1, 2, 3, and 4.

The solar cell module back sheet removing device and the solar cell module back sheet removing method according to the embodiment of the present invention can easily remove the back sheet of the solar cell module from the solar cell module and the economical efficiency and easiness of the recycling of the solar cell module And the cost per module due to the recycling of the photovoltaic module can be reduced through automation.

1 shows a solar module,
FIG. 2 illustrates a solar module back sheet removing apparatus according to an embodiment of the present invention,
3 illustrates a solar module back sheet removing apparatus according to an embodiment of the present invention,
FIG. 4 illustrates a solar module back sheet removing apparatus according to an embodiment of the present invention,
5 shows a suction pad of an apparatus for removing a back sheet of a solar module according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Further, the embodiments of the present invention are provided to more fully explain the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings may be exaggerated for clarity of description, and the elements denoted by the same reference numerals in the drawings are the same elements. In the drawings, like reference numerals are used throughout the drawings. In addition, "including" an element throughout the specification does not exclude other elements unless specifically stated to the contrary.

Solar modules Back sheet  Removal device

1 shows a solar module.

1, the solar module 10 may include a back sheet 11 and a module portion 12, and the module portion 12 may include a solar cell, a sealant, and a glass substrate .

Fig. 2 shows a solar module back sheet removing apparatus according to an embodiment of the present invention.

Referring to FIG. 2, an apparatus for removing a solar module back sheet according to an embodiment of the present invention includes a suction unit 210 for absorbing one surface of a solar module; And a transfer unit 220 for transferring the solar module. The suction unit 210 may include a driving unit and a suction pad 212. One side of the photovoltaic module may be a back sheet 11 on which the adsorption pads 212 are adsorbed.

3, the suction unit 210 of the apparatus for removing the backsheet of a photovoltaic module according to an embodiment of the present invention may include a suction unit 210, And a second switching unit that is switched from the lower end of the adsorption unit to the upper end of the adsorption unit, the first switching unit being switched from the upper end of the adsorption unit to the lower end of the adsorption unit, For example, the photovoltaic module can be put in the direction of the first switching portion, and the photovoltaic module having the back sheet removed through the second switching portion can be discharged. The adsorption unit may be rotated or reciprocated clockwise or counterclockwise.

The adsorption unit may include means for heating the solar module.

The adsorption part may be in the form of a chamber, and may include means for heating, for example, heat and a heater inside the adsorption part, and the means is not limited. The adsorption unit heats the solar module, which can weaken the coupling between the back sheet, which is typically made of a polymer material, and the solar module adhesive. Through the proper heating of the adsorption section, the back sheet can be removed easily from the solar module.

The adsorption part may be heated to a temperature of 50 to 300 ° C.

The solar module including the back sheet can be heated at a temperature of 50 to 300 DEG C to weaken the bonding between the solar module and the sealing material adhered to the back sheet. If the back sheet is heated to a temperature of less than 50 캜 by the adsorption unit, the combination of the solar module and the back sheet may not be weakened and the back sheet may not be separated from the module. If the temperature is exceeded, the back sheet or the sealing material may be locally melted and not separated from the module, and the photovoltaic module back sheet removing device may be contaminated.

The transfer unit may include means for heating the solar module.

The conveying portion may be in the form of a chamber, and may include means for heating, for example, a heat ray and a heater, inside the conveying portion, and the means is not limited. The transfer part heats the solar module and can weaken the connection between the back sheet, which is generally made of a polymer material, and the solar module adhesive. Through the proper heating of the transfer part, the back sheet can be easily removed from the solar module.

The transfer part may be heated to a temperature of 50 to 300 캜.

The solar module including the back sheet can be heated at a temperature of 50 to 300 DEG C to weaken the bonding between the solar module and the sealing material adhered to the back sheet. If the back sheet is heated to a temperature of less than 50 ° C., the bonding between the solar module and the back sheet may not be weakened and the back sheet may not be separated from the module. If the solar module is heated to more than 300 ° C. , There is a problem that the back sheet is locally melted and is not separated from the module, and contamination of the solar module back sheet removing device may occur.

A PE (polyethylene) film or an EVA (Ethylene Vinyl Acetate) film is adhered to one side of the PET film, and a PVF film Or PVDF film; a structure in which a PE film or an EVA film is adhered to one side of a PET film; and a structure in which an UV-resistant film or an anti-hydrolysis PET film is adhered to the other side of the PET film; An aluminum foil or a transparent vapor deposited PET film is adhered to one side of the PET film and a fluorine film such as a PVF film or a PVDF film is bonded to one side of the aluminum foil or the transparent vapor deposited PET film, Such as a structure in which a PE film or an EVA film is adhered to a solar cell module.

The reason why the above-described problems may occur is as follows. In the case of a solar cell module in which an EVA film is bonded to one side of a PET film, since the softening of the crosslinked EVA adjacent to the back sheet of the solar cell module is performed at 50 DEG C or higher, And it may be difficult to separate the back sheet because the temperature is higher than the melting point of the back sheet or EVA at a temperature of 300 DEG C or higher.

The adsorption force of the adsorption part may be 0.25 to 250 kgf, but is not limited thereto.

If the adsorption force of the adsorption portion of the solar cell module back sheet removing device according to the embodiment of the present invention is less than 0.25 kgf, the adsorption portion can not provide a sufficient adsorption force, and the adsorption portion and the sunlight The module may be detached to cause a problem of the removal of the photovoltaic module and a problem may arise that the back sheet is not separated and removed from the photovoltaic module in the second switching portion. If the adsorption force of the adsorption part exceeds 250 kgf, the back sheet is separated from the solar cell module or lifted due to excessive attraction force during the movement of the solar cell module by absorbing one side of the solar cell module, There is a problem that the back sheet is removed before passing through the removal device.

The transfer unit may include an adsorption structure for adsorbing the other surface of the solar module.

The conveying unit 220 may include a circular column, a rectangular column, or a similar structure perpendicular to a surface of the conveying unit contacting the other surface of the solar module, for example, to attract and fix the other surface of the solar module. The other side of the solar module can be attracted and fixed by suction, and the other side of the solar module can be fixed electrostatically. The method of fixing the other side of the solar module is not limited. The other surface of the photovoltaic module may be a module part 12 directly contacting with the transfer part 220.

The suction force of the transfer part may be 0.25 to 250 kgf, but is not limited thereto.

If the attracting force of the conveying portion of the solar module back sheet removing device according to the embodiment of the present invention is less than 0.25 kgf, the conveying portion can not provide a sufficient attraction force to sufficiently fix the solar module and the solar module may not come in close contact with the conveying portion, A phenomenon may occur. If the suction force of the conveying portion exceeds 250 kgf, the solar module is broken and broken due to excessive attraction force during the suction and fixing of the other side of the solar module and the transfer, There is a problem that the back sheet is removed before passing through the apparatus.

The transfer part can move at 0.05 to 30 cm / s.

The throughput of the solar cell module back sheet removing device is determined according to the moving speed of the conveying part of the solar cell module back sheet removing device according to the embodiment of the present invention. If the speed of the conveying unit is less than 0.05 cm / s, there is a problem that the throughput of the photovoltaic module from which the back sheet is removed is low and the economical efficiency due to introduction of the apparatus is low. If the moving speed of the conveying unit of the removing apparatus is more than 30 cm / The entire back sheet of the structure may not be peeled off, and only some of the layers may peel off and may not be effectively removed.

The adsorption unit may include an adsorption pad for adsorbing the solar module and a driving unit for driving the adsorption pad.

The adsorption unit 210 may adsorb one side of the solar module to the adsorption unit itself without the adsorption pad 212 to remove the back sheet 11 from the module unit 12 of the solar module, The modular adsorption pad 212 can be introduced for an easy back sheet removing device. The back sheet 11 can be separated from the module unit 12 of the solar module while rotating in the clockwise and counterclockwise direction by the driving unit 211 driving the adsorption pad 212 or moving the adsorption pad .

The shape of the cross section of the adsorption pad in contact with the surface of the solar module may include at least one of rectangular, polygonal, circular, and irregular shapes, but is not limited thereto.

The adsorption force and adsorption efficiency of the adsorption pad may be changed according to the shape of the end surface of the adsorption pad where the adsorption pad of the apparatus for removing the solar cell module according to the embodiment of the present invention is in contact with the surface of the solar module. As shown in FIG. 5, the adsorption pad 500 of the apparatus for removing the solar cell module back sheet according to the embodiment of the present invention may have a square pad cross-section. Generally, the adsorption pad used in the industrial field has a circular cross-section and it is designed and manufactured according to the target material to be adsorbed. Since the adsorption pad of the solar cell module back sheet removing device according to the embodiment of the present invention is adsorbed on the back sheet of one side of the flat solar module back sheet, the shape of the cross section of the adsorption pad, , Polygonal, circular, and indefinite shapes.

The material of the adsorption pad may be at least one selected from rubber, metal, polymer, and carbon fiber, but is not limited thereto.

As shown in FIG. 4, when the adsorption pad 212 passes the second switch portion while adsorbing the back sheet 11 of the solar module, the back sheet may be curved to a curved surface. As a result, But is not limited thereto.

The cross-sectional area of the adsorption pad contacting the one side of the solar cell module may be 1 to 100 cm ² , but is not limited thereto.

If the adsorption pad of the solar cell module back sheet removing device according to the embodiment of the present invention is less than 1 cm ^{2 in} area of the adsorption pad contacting one surface of the solar cell module, movement of the solar cell module and removal of the back sheet from the solar cell module The adsorption force applied to the single adsorption pad may be decreased or the number of the adsorption pads included in the adsorption portion may increase to increase the cost of device processing and equipment preparation. If the cross-sectional area of the adsorption pad contacting one surface of the optical module exceeds 100 cm ² , it may be difficult to remove the back sheet of the solar module having a small area or the entire process may not be effective due to some pads.

The back sheet can be removed from the solar module through adsorption and heating of one side of the solar module by the adsorption unit and adsorption, heating and movement of the other side of the solar module by the transfer unit.

4, when the suction pad 212 of the suction unit 210 moves from the lower end to the upper end of the belt, the back sheet 11 is attracted to the suction pad, The vertical position is moved away from the base 12. The adsorption pad 212 rotates along the belt while adsorbing the back sheet 11 and the module unit 12 is fixed to the transfer unit 204 of the photovoltaic back sheet removing apparatus by vacuum suction. The adsorption pad adsorbs one side of the solar module, the back sheet, and moves in the moving direction of the module in the solar module removal device, and the module part is closely attached and fixed to the transfer part, The back sheet 11 and the module section 12 can be separated from each other. The module portion may include materials that are not softened or bent even when the temperature is raised by the heating portion.

The adsorption unit may include a driving unit for driving and rotating the adsorption unit inside the adsorption unit, a driving motor connected to the driving unit, and a module device for adjusting the rotational speed of the driving motor. The adsorption unit may adjust the speed of the adsorption unit, But is not limited to the configuration and shape of the drive part if it can be rotated.

The driving unit 211 serves to provide a driving force to an adsorption pad that can be included in the adsorption unit by driving the driving unit. The suction unit and the suction pad included in the suction unit are driven by the power generated by the driving unit, and the transfer unit heats the other side of the photovoltaic module while heating the photovoltaic module through the transfer unit 220 and the module unit 12, Can be brought into close contact with each other. The driving unit may move the solar module adsorbed on the adsorption pad and provide power for separating the back sheet, which is one surface of the solar module adsorbed on the adsorption pad, from the solar module.

The distance between the adsorption unit 210 and the transfer unit 220 can be adjusted according to the thickness of the solar module.

Specifically, when the thickness of the solar module is large, the solar module needs to be inserted between the absorption section and the transfer section, so that the distance between the absorption section and the transfer section can be adjusted to be long. On the contrary, when the thickness of the solar module is thin, the distance between the adsorbing part and the conveying part can be narrowed.

The adsorption of the other surface of the solar module by the transfer unit may precede the adsorption of the surface of the solar module by the adsorption unit.

The back sheet may further include a module withdrawal portion from which the back sheet is separated.

The driving of the solar module back sheet device can continuously remove and separate the back sheet from the solar module. Accordingly, it is possible to further include a collection unit for collecting the separated back sheets, and a collection unit for collecting the separated photovoltaic module units.

And a support for supporting the adsorption unit.

The apparatus for removing a solar cell module back sheet according to an embodiment of the present invention may further include a support for supporting the adsorbing part, wherein the supporting part fixes the adsorbing part so that the driving part and the adsorption pad, which can be included in the adsorbing part and the adsorbing part, And the distance between the adsorbing part and the conveying part can be adjusted by adjusting the support part to adjust the device for removing the back sheet of the solar module according to the thickness of the solar module.

Solar modules Back sheet  How to uninstall

A method of removing a solar module back sheet according to another embodiment of the present invention includes heating a solar module (step 1); A step of adsorbing one surface of the solar module (step 2); A step of adsorbing and moving the other surface of the photovoltaic module (step 3); And removing the back sheet of the solar module from the solar module (step 4).

The method of removing the solar cell module back sheet may be independent of the order of the solar cell module back sheet removing method described above. For example, the photovoltaic module back sheet removing method may be carried out in any order of the photovoltaic module back sheet removing method described above, except that the order of step 1, step 2, step 3, and step 4 or step 3, 2 and step 4, or in the order not illustrated above.

Hereinafter, a method for removing a back sheet of a solar module according to an embodiment of the present invention will be described in detail for each step.

In a method of removing a solar module back sheet according to another embodiment of the present invention, step 1 is a step of heating a solar module, in which the heat transmitted through the solar module is heated by the solar module, Which weakens the coupling of the modules.

The heating of the solar module can heat the solar module including the back sheet at a temperature of 50 to 300 DEG C to weaken the bonding between the solar module and the back sheet. If the solar module is heated to a temperature lower than 50 캜 in step 1, the combination of the solar module 10 and the back sheet 11 is not weakened, and the back sheet 11 is separated from the module section 12 If the solar module is heated to a temperature higher than 300 ° C., the back sheet 11 containing the organic material may not be separated from the module section 12 due to local melting, .

A PE (polyethylene) film or an EVA (Ethylene Vinyl Acetate) film is adhered to one side of the PET film, and a PVF film Or PVDF film; a structure in which a PE film or an EVA film is adhered to one side of a PET film; and a structure in which an UV-resistant film or an anti-hydrolysis PET film is adhered to the other side of the PET film; An aluminum foil or a transparent vapor deposited PET film is adhered to one side of the PET film and a fluorine film such as a PVF film or a PVDF film is bonded to one side of the aluminum foil or the transparent vapor deposited PET film, Such as a structure in which a PE film or an EVA film is adhered to a solar cell module.

The reason why such a problem may occur is that since the softening of the cross-linked EVA adjacent to the back sheet of the solar cell module is performed at 50 DEG C or higher, the back sheet is hardly peeled from the EVA at a temperature of 50 DEG C or lower, Lt; RTI ID = 0.0 > C < / RTI > above the melting point of the backsheet, it may be difficult to separate the backsheet.

In the method of removing the back sheet of solar module according to another embodiment of the present invention, step 2 is a step of adsorbing one side of the solar module, and adsorbing the back sheet as one side of the solar module with the absorption pad.

The adsorption force for adsorbing one surface of the solar cell module in step 2 may be 0.25 to 250 kgf.

In the method for removing the solar cell module back sheet according to the embodiment of the present invention, if the adsorption force for adsorbing the back sheet, which is one surface of the solar cell module, is less than 0.25 kgf, The optical module may be detached to cause a problem of movement of the solar module, and if the attraction force exceeds 250 kgf, the back sheet may be separated from the solar module or may be lifted due to excessive attraction force.

In the method for removing the back sheet of solar module according to another embodiment of the present invention, step 3 is a step of removing the back sheet of the solar module from the solar module by absorbing and moving the other surface of the solar module, A step of adsorbing, fixing and moving the module, and removing the back sheet from the sun and the module by interaction with one side (back sheet) of the solar module adsorbed by step 2 above.

The photovoltaic module of step 3 can move at 0.05 to 30 cm / s.

The throughput of the solar cell module back sheet removing device is determined according to the moving speed of the solar cell module in the method of removing the solar cell module back sheet according to the embodiment of the present invention. If the moving speed of the solar module is less than 0.05 cm / s, there is a problem that the throughput of the solar module removed from the back sheet is low, resulting in low economical efficiency due to the introduction of the solar module. If the moving speed of the solar module exceeds 30 cm / , The entire back sheet of the multi-layer structure may not be peeled off, and only a part of the back layer may be peeled off effectively.

The method may further include, before at least one of the steps 1, 2, 3, and 4, partially separating the backsheet from the solar module.

In the method of removing the back sheet of the solar module according to another embodiment of the present invention, it may be necessary to partially separate the back sheet from the solar module in order to easily remove the back sheet. Separating the backsheet from the solar module without such a step may require a higher attraction force and increase the difficulty of the method of removing the backsheet of the solar module. Accordingly, the method may further include a step of partially separating the backsheet from the solar module, thereby making it possible to easily separate the backsheet from the solar module.

The present invention is not limited to the above-described embodiment and the accompanying drawings, but is intended to be limited by the appended claims. It will be apparent to those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. something to do.

10: Photovoltaic module
11: back sheet 12: module part
200: Solar module back sheet removal device
210:
211: driving part 212: adsorption pad
220:
300: Solar module back sheet removal device
400: Solar module back sheet removal device
500: adsorption pad

Claims (16)

A transfer unit that sucks one surface of the solar module and transfers the solar module;
A suction unit disposed on the conveyance unit, for sucking a back sheet disposed on the other surface of the solar module and removing the back sheet from the solar module;
A recovery unit for recovering the solar modules separated from the back sheet; And
And a support for supporting the adsorption unit and maintaining a predetermined distance from the transfer unit,
Wherein the conveying section includes means for heating the solar module,
Wherein the adsorption unit includes means for heating the solar module,
Wherein the adsorption portion includes a rotating belt and a plurality of adsorption pads disposed on the belt,
The adsorption unit includes a lower portion of the adsorption unit located close to the transfer unit, a top portion of the adsorption unit located far away from the transfer unit, a first switching unit which is switched from the upper end of the adsorption unit to a lower end of the adsorption unit, and a second switching unit which is switched from the lower end of the adsorption unit to the upper end of the adsorption unit A solar cell module back sheet removal device.
delete ◈ Claim 3 is abandoned due to the registration fee. The method according to claim 1,
Wherein the adsorption unit is heated to a temperature of 50 to 300 < 0 > C.
delete ◈ Claim 5 is abandoned due to the registration fee. The method according to claim 1,
Wherein the transfer unit is heated to a temperature of 50 to 300 캜.
The method according to claim 1,
Wherein the conveying unit includes suction means for absorbing one surface of the solar module.
◈ Claim 7 is abandoned due to registration fee. The method according to claim 1,
Wherein the transfer unit moves at a rate of 0.05 to 30 cm / s.
The method of claim 1, wherein
Wherein the adsorption unit includes a driving unit for driving the adsorption unit inside the adsorption unit.
The method according to claim 1,
Wherein the back sheet is removed from the solar module through adsorption, heating and absorption of the other surface of the solar module by the adsorption unit and adsorption, heating, and movement of one surface of the solar module by the transfer unit. Device.

The method according to claim 1,
Wherein the suction of the one side of the solar module by the transfer unit precedes the suction of the other side of the solar module by the suction unit.

delete delete A method for removing a back sheet of a solar module using the apparatus according to claim 1,
Disposing a solar module on the transfer unit, adsorbing one surface of the solar module, and transferring the same; And
A step of sucking a back sheet disposed on the other surface of the solar module with a sucking portion and rotating the sucking portion to remove the back sheet,
Wherein the adsorption unit is configured to adsorb the backsheet and drive the bottom of the adsorption unit to the second switch unit and the top unit, thereby separating the backsheet from the solar modules.
◈ Claim 14 is abandoned due to registration fee. 14. The method of claim 13,
Wherein the transfer unit is heated to a temperature of 50 to 300 캜.
◈ Claim 15 is abandoned due to registration fee. 14. The method of claim 13,
Wherein the transfer unit moves at a rate of 0.05 to 30 cm / s.
14. The method of claim 13,
Further comprising the step of partially separating the backsheet from the solar module prior to performing at least one of the steps.

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