EP3992561A1 - A flash dryer for drying a product and a method for drying a product in a flash dryer - Google Patents
A flash dryer for drying a product and a method for drying a product in a flash dryer Download PDFInfo
- Publication number
- EP3992561A1 EP3992561A1 EP20204151.3A EP20204151A EP3992561A1 EP 3992561 A1 EP3992561 A1 EP 3992561A1 EP 20204151 A EP20204151 A EP 20204151A EP 3992561 A1 EP3992561 A1 EP 3992561A1
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- EP
- European Patent Office
- Prior art keywords
- chamber
- product
- disc
- flash dryer
- lower section
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B17/00—Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement
- F26B17/10—Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement with movement performed by fluid currents, e.g. issuing from a nozzle, e.g. pneumatic, flash, vortex or entrainment dryers
- F26B17/101—Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement with movement performed by fluid currents, e.g. issuing from a nozzle, e.g. pneumatic, flash, vortex or entrainment dryers the drying enclosure having the shape of one or a plurality of shafts or ducts, e.g. with substantially straight and vertical axis
- F26B17/103—Machines or apparatus for drying materials in loose, plastic, or fluidised form, e.g. granules, staple fibres, with progressive movement with movement performed by fluid currents, e.g. issuing from a nozzle, e.g. pneumatic, flash, vortex or entrainment dryers the drying enclosure having the shape of one or a plurality of shafts or ducts, e.g. with substantially straight and vertical axis with specific material feeding arrangements, e.g. combined with disintegrating means
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B25/00—Details of general application not covered by group F26B21/00 or F26B23/00
- F26B25/06—Chambers, containers, or receptacles
- F26B25/08—Parts thereof
- F26B25/10—Floors, roofs, or bottoms; False bottoms
Definitions
- the invention relates to a flash dryer for drying a product and a method for drying a product in a flash dryer or an agitated fluid bed dryer.
- a flash dryer is used for continuous drying of a filter cake, fibrous materials, paste, sludge or similar materials.
- the flash dryer uses a rotary disintegrator, mill or impeller rotor for disintegration of the material and provides a change of the structure of the material from the paste or fibrous structure to a more particle shaped structure which is more suitable during the drying. Apertures are provided for supply of hot drying gas and for removal of the spent drying gas and removal of the dried material.
- EP 1 719 963 A2 discloses an apparatus for continuous drying of a product.
- the apparatus comprises a feeding device, which conveys the product into a rotating disintegrator.
- the drying gasses are being introduced and passed upwards through the slot and into the disintegrator housing.
- the drying chamber has a conical shape with the point towards the outlet for the drying gasses.
- the product because of the rotation of the disintegrator, is being pressed by the wall of the cone away from the the outlet for the drying air with a resulting accelerating force which is greater than the force of gravity.
- the dried material and the spent drying air are discharged through the product outlet in the upper part of the drying chamber.
- a problem with this type of conventional flash dryers is that the rotating disc in the bottom of the chamber may deform due to the heat from the air introduced via the air inlets. This will in turn lead to an undesired engagement between the disc and the inner wall of the chamber thereby decreasing the life time of the disc.
- a particular object is to provide an improved flash dryer which allows for a more secure and effective drying process of a product.
- a flash dryer for drying a product.
- the flash dryer comprises a chamber having a product inlet and a product outlet, the product inlet being located in a lower section of the chamber and the product outlet in a upper section of the chamber, a disc fixedly arranged in the lower section of the chamber below the product inlet, such that a gap is created between an outer edge of the disc and an inner wall of the chamber, wherein a thickness of the disc is decreasing radially from a mid-section of the disc towards the outer edge of the disc, a primary air inlet arranged below the chamber and arranged to provide air into the chamber via the gap, a drive unit arranged below the chamber having a drive shaft extending through a hole in the mid-section of the disc into the lower section of the chamber, a plurality of rotatable disintegrator elements connected to the drive shaft in the lower section of the chamber above the
- the new and inventive shape of the disc eliminates the need to rotate the disc in order to force the product towards the gap and the air flowing therefrom.
- the risk of the disc engaging with the inner wall of the chamber due to heat expansion is also eliminated, which will prolong the life time of the disc and the chamber.
- the specially designed shovel arm will help distributing the product in the lower portion of the chamber and push the same towards gap and the air flowing therefrom.
- the shovel arm is preferably shaped to correspond with the upper surface of the disc, i.e. it may have an inclined or curved shape towards the disc.
- Another advantage is that the product will no longer be able to accumulate between the disc and the bottom portion of the chamber as with the conventional flash dryers due to rotation of the disc.
- the flash dryer may further comprise a secondary air inlet arranged in the lower section of the chamber above the plurality of disintegrator elements.
- the secondary air inlet may comprise a plurality of inner air inlets providing air into the chamber, the inner air inlets being arranged along a periphery of the chamber.
- the disc may have a domed shape.
- the disc may comprise protrusions along its outer periphery adapted to direct air from the primary air inlet to enter the chamber via the gap in a substantially vertical direction.
- the outer edge of the disc may be at least partly rounded.
- the plurality of disintegrator elements may be vertically aligned with the location of the product inlet.
- Each one of the plurality of disintegrator elements may comprise a grinding edge thereof such that the product is disintegrated and/or grinded between the grinding edge and the inner wall of the chamber.
- the shovel arm may comprise a plurality of recesses in a bottom section thereof, allowing parts of product located on the disc to escape therethrough.
- the shovel arm may comprise a wing portion attached to an outer edge thereof, the wing portion being vertically aligned with the product outlet such that the product fed into the chamber is cut into pieces when the shovel arm is rotating therein.
- the shovel arm may be arranged in the lower section of the chamber to vertically correspond with the location of the product inlet.
- the chamber may comprise protrusions arranged at a distance from each other along a periphery of the inner wall of the cylinder.
- Each one of the protrusions may comprise an exchangeable cutting edge.
- the flash dryer may further comprise a product conveyer connected to the product inlet.
- the objects are achieved in full, or at least in part, by a method for drying a product in a flash dryer.
- the method comprises introducing the product into a chamber of the flash dryer via a product inlet located in a lower section of the chamber onto a disc fixedly arranged in the lower section of the chamber below the product inlet, wherein a thickness of the disc is decreasing radially from a mid-section of the disc towards the outer edge of the disc, rotating a shovel arm in the lower section of the chamber above the disc to distribute the product in the lower section of the chamber, rotating a plurality of rotatable disintegrator elements in the lower section of the chamber above the disc and the shovel arm to disintegrate the product, providing air into the chamber from a primary air inlet arranged below the chamber via a gap between an outer edge of the disc and an inner wall of the chamber to lift and dry the product, providing air into the chamber from a secondary air inlet arranged in the lower section of the chamber above the plurality of disintegrator elements to rotate and
- Fig. 1 and 2 illustrate an exemplary embodiment of a flash dryer 1 for drying a product 2.
- the flash dryer 1 comprises a chamber 3 having a product inlet 4 and a product outlet 5.
- the product inlet 4 is located in a lower section of the chamber 3 and the product outlet 5 is located in a upper section of the chamber 3.
- a domed shaped disc 6 is fixedly arranged in a bottom 7 of the chamber 3 below the product inlet 4.
- the disc 6 has a diameter that is slightly smaller than an inner diameter of an inner wall 8 in the lower section of the chamber 3, such that a gap 9 is created between an outer edge 10 of the disc 6 and the inner wall 8 of the chamber 3.
- a thickness of the disc 6 is decreasing radially from a mid-section 11 of the disc 6 towards the outer edge 10 of the disc 6.
- the outer edge 10 of the disc 6 is preferably at least partly rounded for manufacturing purposes and structural strength. The rounded shape of the outer edge 10 of the disc 6 makes it possible to avoid welded corner joints which highly contributes to an increase structural strength of the disc 6.
- the radius of the rounded outer edge is preferably 50 mm or more.
- the disc 6 can have a domed shape or for example straight upper surfaces where the thickness of the disc 6 is decreasing radially from a mid-section 11 of the disc 6 towards the outer edge 10 of the disc 6.
- the disc 5 has a domed shape with a diameter of approximately 3200 mm, maximum height - at the mid-section 11 - of approximately 600 mm, and a minimum height - at the outer edge 10 - of approximately 300 mm.
- a primary air inlet 12 is arranged below the chamber 3 and arranged to provide air into the chamber 3 via the gap 9.
- the disc 6 comprises protrusions 25 along its outer periphery.
- the protrusions 25 are illustrated in Fig. 3 and are formed to direct air from the primary air inlet 12 to enter the chamber 3 via the gap 9 in a substantially vertical direction.
- the flash dryer 1 further comprises a drive unit 13 arranged below the chamber 3 which has a drive shaft 14 extending through a hole 15 in the mid-section 11 of the disc 6 into the lower section of the chamber 3.
- a rotatable shovel arm 16 is connected to the drive shaft 14 directly above the disc 6 in the lower section of the chamber 3.
- the shovel arm 16 rotates above the disc 6 and is used to push the product 2 towards the gap 9 and the air flowing into the chamber 3 therefrom.
- a bottom section 17 of the shovel arm 16 is provided a plurality of recesses 18 allowing parts of product 2 located on the disc to escape therethrough. The recesses 18 is used minimize the torque of the shovel arm 16 when distributing the product 2 present on the disc 6.
- the shovel arm 16 comprises a first portion 19 which is flat and extends horizontally from the drive shaft 14 towards the inner wall 8 of the chamber 3, a second portion 20, comprising the recesses 18, which also is flat and extends perpendicular from the first portion 19 vertically in a downward direction towards the disc 6, and a wing portion 21 attached to the first portion 19 at an outer edge 22 thereof.
- the second portion is preferably shaped to correspond with the shape of the domed shaped of the disc 6 thereby nearly engaging with the disc 6.
- the wing portion 21 is vertically aligned with the product outlet 5 such that the product 2 fed into the chamber 3 can be cut into pieces by means of the wing portion 21.
- a plurality of rotatable disintegrator elements 23 is connected to the drive shaft 14 directly above the shovel arm 16 in the lower section of the chamber 3.
- the disintegrator elements 23 are vertically aligned with the location of the product inlet 4.
- Each one of the disintegrator elements 23 comprises a grinding edge 24 which is used to grind and/or disintegrate the product 2 towards the inner wall 8 of the chamber 3.
- the grinding edge 24 is replaceable and can be turn over in any suitable position.
- the shape, extent and number of disintegrator elements 23 may naturally be varied in any suitable way. They can be mounted in different angles in relation to each other, they can be displaced at a specific distance from each other, and they can be mounted in a cross or to overlap.
- the disintegrator elements 23 extends more or less from the drive shaft 14 towards the inner wall 8 of the chamber 3 in a tapering manner with the grinding edge 24 provided on the outermost edge thereof.
- a secondary air inlet 26 is arranged in the lower section of the chamber 3 above the disintegrator elements 23.
- the secondary air inlet 26 comprises an outer air inlet 27 and a plurality of inner air inlets 28 providing air into the chamber 3.
- the inner air inlets 28 are arranged along the entire periphery of the chamber 3 in a substantially tangential direction to create circular flow along the inner wall 8 of the chamber 3.
- the lower section of the chamber 3 comprises protrusions 29 arranged at a distance from each other along the entire periphery of the inner wall 8 of the chamber 3.
- Each one of the protrusions 29 comprises an exchangeable cutting edge.
- the protrusions 29 are vertically aligned with the disintegrator element 23 such that the product 2 can be grinded and/or disintegrated between the grinding edges 24 of the disintegrator elements 23 and the cutting edges of the protrusions 29.
- the exchangeable cutting edge of the protrusion 29 can be placed in different positions in order to adjust the distance between themselves and the grinding edges 24 of the disintegrator elements 23.
- a product conveyer (not shown), preferably a screw product conveyer, is connected to the product inlet 4 and used to transport the product 2 to the chamber 3 of the flash dryer 1.
- a pump (not shown) could also be used to input the product 2 to the chamber 3 of the flash dryer 1 via the product inlet 4.
- the product 2 to be disintegrated and dried is fed into the chamber 3 via the product inlet 4 by means of the product conveyer.
- the product 2 entering the chamber 3 is cut into pieces by means of the wing portion 21 of the rotating shovel arm 16 and is thereafter disintegrated by means of the rotating disintegrator elements 23 when falling towards the disc 6 in the bottom 7 of the chamber 3 by means of gravity.
- the product 2 is further grinded and/or disintegrated between the grinding edges 24 of the disintegrator elements 23 and the cutting edges of the protrusions 29.
- the disintegrated and dried product 2 will finally exit the chamber 3 via the product outlet 5 in the upper section of the chamber 3. Larger pieces of the product 2 will fall down towards the disc 6 in the bottom 7 of the chamber 3 by means of gravity, through the disintegrator elements 23 once again, and reiterate the process described above.
- the flash dryer 1 can be equipped with a CIP-system comprising pop-in-pop-out (PIPO) nozzles which are activated by means of pressure in order to clean the inner surfaces of the flash dryer 1 that are in contact with the product 2 inside the chamber 3.
- a CIP-system comprising pop-in-pop-out (PIPO) nozzles which are activated by means of pressure in order to clean the inner surfaces of the flash dryer 1 that are in contact with the product 2 inside the chamber 3.
- PIPO pop-in-pop-out
- the disc 6 can be filled with an insulating material, preferably a non-inflammable, such as vermiculite, in order to increase the isolating properties of the disc 6 and limit the heat transfer in a downward direction of the flash dyer 1..
- an insulating material preferably a non-inflammable, such as vermiculite
- the disc 6 can be placed in the bottom 7 of the chamber 8 or in fact constitute the bottom 7 of the chamber 3.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Drying Of Solid Materials (AREA)
Abstract
Description
- The invention relates to a flash dryer for drying a product and a method for drying a product in a flash dryer or an agitated fluid bed dryer.
- A flash dryer is used for continuous drying of a filter cake, fibrous materials, paste, sludge or similar materials. The flash dryer uses a rotary disintegrator, mill or impeller rotor for disintegration of the material and provides a change of the structure of the material from the paste or fibrous structure to a more particle shaped structure which is more suitable during the drying. Apertures are provided for supply of hot drying gas and for removal of the spent drying gas and removal of the dried material.
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EP 1 719 963 A2 - A problem with this type of conventional flash dryers is that the rotating disc in the bottom of the chamber may deform due to the heat from the air introduced via the air inlets. This will in turn lead to an undesired engagement between the disc and the inner wall of the chamber thereby decreasing the life time of the disc.
- Another problem is that the product tends to accumulate between the rotating disc and the bottom portion of the chamber. In general, accumulation of material, in particular of waste materials build-up, at the bottom of a flash dryer is cumbersome to handle as removal of this material generally requires the processing line to be shut down during maintenance, which may entail disassembling the flash dryer and long waiting times in order for the dryer to cool to temperatures which permit operator access to the drying chamber.
- It is an object of the present invention to provide an improvement of the flash dryers according to prior art. A particular object is to provide an improved flash dryer which allows for a more secure and effective drying process of a product.
- According to a first aspect, these and other objects, and/or advantages that will be apparent from the following description of embodiments, are achieved, in full or at least in part, by a flash dryer for drying a product. The flash dryer comprises a chamber having a product inlet and a product outlet, the product inlet being located in a lower section of the chamber and the product outlet in a upper section of the chamber, a disc fixedly arranged in the lower section of the chamber below the product inlet, such that a gap is created between an outer edge of the disc and an inner wall of the chamber, wherein a thickness of the disc is decreasing radially from a mid-section of the disc towards the outer edge of the disc, a primary air inlet arranged below the chamber and arranged to provide air into the chamber via the gap, a drive unit arranged below the chamber having a drive shaft extending through a hole in the mid-section of the disc into the lower section of the chamber, a plurality of rotatable disintegrator elements connected to the drive shaft in the lower section of the chamber above the disc, and a rotatable shovel arm connected to the drive shaft in the lower section of the chamber above the disc and below the plurality of disintegrator elements. The shovel arm is adapted to distribute the product in the lower section of the chamber.
- This is advantageous in that the new and inventive shape of the disc eliminates the need to rotate the disc in order to force the product towards the gap and the air flowing therefrom. In turn, the risk of the disc engaging with the inner wall of the chamber due to heat expansion is also eliminated, which will prolong the life time of the disc and the chamber.
- The specially designed shovel arm will help distributing the product in the lower portion of the chamber and push the same towards gap and the air flowing therefrom. The shovel arm is preferably shaped to correspond with the upper surface of the disc, i.e. it may have an inclined or curved shape towards the disc.
- Another advantage is that the product will no longer be able to accumulate between the disc and the bottom portion of the chamber as with the conventional flash dryers due to rotation of the disc.
- The flash dryer may further comprise a secondary air inlet arranged in the lower section of the chamber above the plurality of disintegrator elements.
- The secondary air inlet may comprise a plurality of inner air inlets providing air into the chamber, the inner air inlets being arranged along a periphery of the chamber.
- The disc may have a domed shape.
- The disc may comprise protrusions along its outer periphery adapted to direct air from the primary air inlet to enter the chamber via the gap in a substantially vertical direction.
- The outer edge of the disc may be at least partly rounded.
- The plurality of disintegrator elements may be vertically aligned with the location of the product inlet.
- Each one of the plurality of disintegrator elements may comprise a grinding edge thereof such that the product is disintegrated and/or grinded between the grinding edge and the inner wall of the chamber.
- The shovel arm may comprise a plurality of recesses in a bottom section thereof, allowing parts of product located on the disc to escape therethrough.
- The shovel arm may comprise a wing portion attached to an outer edge thereof, the wing portion being vertically aligned with the product outlet such that the product fed into the chamber is cut into pieces when the shovel arm is rotating therein.
- The shovel arm may be arranged in the lower section of the chamber to vertically correspond with the location of the product inlet.
- The chamber may comprise protrusions arranged at a distance from each other along a periphery of the inner wall of the cylinder.
- Each one of the protrusions may comprise an exchangeable cutting edge.
- The flash dryer may further comprise a product conveyer connected to the product inlet.
- According to a second aspect, the objects are achieved in full, or at least in part, by a method for drying a product in a flash dryer. The method comprises introducing the product into a chamber of the flash dryer via a product inlet located in a lower section of the chamber onto a disc fixedly arranged in the lower section of the chamber below the product inlet, wherein a thickness of the disc is decreasing radially from a mid-section of the disc towards the outer edge of the disc, rotating a shovel arm in the lower section of the chamber above the disc to distribute the product in the lower section of the chamber, rotating a plurality of rotatable disintegrator elements in the lower section of the chamber above the disc and the shovel arm to disintegrate the product, providing air into the chamber from a primary air inlet arranged below the chamber via a gap between an outer edge of the disc and an inner wall of the chamber to lift and dry the product, providing air into the chamber from a secondary air inlet arranged in the lower section of the chamber above the plurality of disintegrator elements to rotate and dry the product, and exiting the product via a product outlet in a upper section of the chamber.
- It should be noted that the different embodiments of the flash dryer that is described above are exemplifying only. The embodiments may be combined with each other in any suitable way depending on the requirements established for the flash dryer.
- It should be further noted that the different steps of the method described above may be conducted in any suitable order.
- Effects and features of the second aspect of the present invention are largely analogous to those described above in connection with the first aspect the inventive concept. Embodiments mentioned in relation to the first aspect of the present invention are largely compatible with the further aspects of the invention.
- Other objectives, features and advantages of the present invention will appear from the following detailed disclosure, from the attached claims, as well as from the drawings. It is noted that the invention relates to all possible combinations of features.
- Generally, all terms used in the claims are to be interpreted according to their ordinary meaning in the technical field, unless explicitly defined otherwise herein. All references to "a/an/the [element, device, component, means, step, etc.]" are to be interpreted openly as referring to at least one instance of said element, device, component, means, step, etc., unless explicitly stated otherwise.
- As used herein, the term "comprising" and variations of that term are not intended to exclude other additives, components, integers or steps.
- The above objects, as well as additional objects, features and advantages of the present invention, will be more fully appreciated by reference to the following illustrative and non-limiting detailed description of preferred embodiments of the present invention, when taken in conjunction with the accompanying drawings, wherein:
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Fig. 1 illustrates a perspective view of an exemplary embodiment of a flash dryer according to a first aspect of the invention. -
Fig. 2 illustrates a cross-section of the flash dryer inFig. 1 . -
Fig. 3 illustrates a perspective view of an exemplary embodiment of a disc located in a chamber of the flash dryer. -
Fig. 1 and2 illustrate an exemplary embodiment of aflash dryer 1 for drying aproduct 2. Theflash dryer 1 comprises achamber 3 having a product inlet 4 and aproduct outlet 5. The product inlet 4 is located in a lower section of thechamber 3 and theproduct outlet 5 is located in a upper section of thechamber 3. - A domed shaped
disc 6 is fixedly arranged in abottom 7 of thechamber 3 below the product inlet 4. Thedisc 6 has a diameter that is slightly smaller than an inner diameter of aninner wall 8 in the lower section of thechamber 3, such that agap 9 is created between anouter edge 10 of thedisc 6 and theinner wall 8 of thechamber 3. As thedisc 6 is has a domed shape, a thickness of thedisc 6 is decreasing radially from a mid-section 11 of thedisc 6 towards theouter edge 10 of thedisc 6. Theouter edge 10 of thedisc 6 is preferably at least partly rounded for manufacturing purposes and structural strength. The rounded shape of theouter edge 10 of thedisc 6 makes it possible to avoid welded corner joints which highly contributes to an increase structural strength of thedisc 6. The radius of the rounded outer edge is preferably 50 mm or more. Naturally, the exact size and shape of thedisc 6 may be varied. Thedisc 6 can have a domed shape or for example straight upper surfaces where the thickness of thedisc 6 is decreasing radially from a mid-section 11 of thedisc 6 towards theouter edge 10 of thedisc 6. In this specific embodiment, thedisc 5 has a domed shape with a diameter of approximately 3200 mm, maximum height - at the mid-section 11 - of approximately 600 mm, and a minimum height - at the outer edge 10 - of approximately 300 mm. - A
primary air inlet 12 is arranged below thechamber 3 and arranged to provide air into thechamber 3 via thegap 9. Thedisc 6 comprisesprotrusions 25 along its outer periphery. Theprotrusions 25 are illustrated inFig. 3 and are formed to direct air from theprimary air inlet 12 to enter thechamber 3 via thegap 9 in a substantially vertical direction. - The
flash dryer 1 further comprises adrive unit 13 arranged below thechamber 3 which has adrive shaft 14 extending through ahole 15 in the mid-section 11 of thedisc 6 into the lower section of thechamber 3. - A
rotatable shovel arm 16 is connected to thedrive shaft 14 directly above thedisc 6 in the lower section of thechamber 3. Theshovel arm 16 rotates above thedisc 6 and is used to push theproduct 2 towards thegap 9 and the air flowing into thechamber 3 therefrom. In abottom section 17 of theshovel arm 16 is provided a plurality ofrecesses 18 allowing parts ofproduct 2 located on the disc to escape therethrough. Therecesses 18 is used minimize the torque of theshovel arm 16 when distributing theproduct 2 present on thedisc 6. More specifically, theshovel arm 16 comprises afirst portion 19 which is flat and extends horizontally from thedrive shaft 14 towards theinner wall 8 of thechamber 3, asecond portion 20, comprising therecesses 18, which also is flat and extends perpendicular from thefirst portion 19 vertically in a downward direction towards thedisc 6, and awing portion 21 attached to thefirst portion 19 at anouter edge 22 thereof. The second portion is preferably shaped to correspond with the shape of the domed shaped of thedisc 6 thereby nearly engaging with thedisc 6. Thewing portion 21 is vertically aligned with theproduct outlet 5 such that theproduct 2 fed into thechamber 3 can be cut into pieces by means of thewing portion 21. - A plurality of
rotatable disintegrator elements 23 is connected to thedrive shaft 14 directly above theshovel arm 16 in the lower section of thechamber 3. Thedisintegrator elements 23 are vertically aligned with the location of the product inlet 4. Each one of thedisintegrator elements 23 comprises a grindingedge 24 which is used to grind and/or disintegrate theproduct 2 towards theinner wall 8 of thechamber 3. The grindingedge 24 is replaceable and can be turn over in any suitable position. The shape, extent and number ofdisintegrator elements 23 may naturally be varied in any suitable way. They can be mounted in different angles in relation to each other, they can be displaced at a specific distance from each other, and they can be mounted in a cross or to overlap. By the different mounting possibilities of thedisintegrator elements 23 to thedrive shaft 14 any desired type of disintegration and/or grinding results can be achieved. In this specific embodiment, thedisintegrator elements 23 extends more or less from thedrive shaft 14 towards theinner wall 8 of thechamber 3 in a tapering manner with the grindingedge 24 provided on the outermost edge thereof. - A
secondary air inlet 26 is arranged in the lower section of thechamber 3 above thedisintegrator elements 23. Thesecondary air inlet 26 comprises anouter air inlet 27 and a plurality ofinner air inlets 28 providing air into thechamber 3. Theinner air inlets 28 are arranged along the entire periphery of thechamber 3 in a substantially tangential direction to create circular flow along theinner wall 8 of thechamber 3. - The lower section of the
chamber 3 comprisesprotrusions 29 arranged at a distance from each other along the entire periphery of theinner wall 8 of thechamber 3. Each one of theprotrusions 29 comprises an exchangeable cutting edge. Theprotrusions 29 are vertically aligned with thedisintegrator element 23 such that theproduct 2 can be grinded and/or disintegrated between the grindingedges 24 of thedisintegrator elements 23 and the cutting edges of theprotrusions 29. The exchangeable cutting edge of theprotrusion 29 can be placed in different positions in order to adjust the distance between themselves and the grinding edges 24 of thedisintegrator elements 23. - A product conveyer (not shown), preferably a screw product conveyer, is connected to the product inlet 4 and used to transport the
product 2 to thechamber 3 of theflash dryer 1. A pump (not shown) could also be used to input theproduct 2 to thechamber 3 of theflash dryer 1 via the product inlet 4. - An exemplary method for drying the
product 2 in theflash dryer 1 will now be described in greater detail. - When the
flash dryer 1 is used, theproduct 2 to be disintegrated and dried is fed into thechamber 3 via the product inlet 4 by means of the product conveyer. Theproduct 2 entering thechamber 3 is cut into pieces by means of thewing portion 21 of therotating shovel arm 16 and is thereafter disintegrated by means of therotating disintegrator elements 23 when falling towards thedisc 6 in thebottom 7 of thechamber 3 by means of gravity. Theproduct 2 is further grinded and/or disintegrated between the grindingedges 24 of thedisintegrator elements 23 and the cutting edges of theprotrusions 29. - When the
product 2 reaches the domed shapeddisc 6, it will, in cooperation with thesecond portion 20 of theshovel arm 23, force theproduct 2 towards thegap 9 between theouter edge 10 of thedisc 6 and theinner wall 8 of thechamber 3. Air from theprimary air inlet 12 flowing into thechamber 3 via thegap 9 will thereafter lift theproduct 2 up from the lower section of thechamber 3 towards the upper section thereof. Simultaneously, air from thesecondary air inlet 26 is flowing into thechamber 3 to rotate theproduct 2 therein. - The disintegrated and dried
product 2 will finally exit thechamber 3 via theproduct outlet 5 in the upper section of thechamber 3. Larger pieces of theproduct 2 will fall down towards thedisc 6 in thebottom 7 of thechamber 3 by means of gravity, through thedisintegrator elements 23 once again, and reiterate the process described above. - As stated above, it is important to understand that the different method steps may be conducted in any suitable order and that the detailed description of the method presented above is of exemplary nature only.
- The skilled person realizes that a number of modifications of the embodiments described herein are possible without departing from the scope of the invention, which is defined in the appended claims.
- For instance, the
flash dryer 1 can be equipped with a CIP-system comprising pop-in-pop-out (PIPO) nozzles which are activated by means of pressure in order to clean the inner surfaces of theflash dryer 1 that are in contact with theproduct 2 inside thechamber 3. - The
disc 6 can be filled with an insulating material, preferably a non-inflammable, such as vermiculite, in order to increase the isolating properties of thedisc 6 and limit the heat transfer in a downward direction of theflash dyer 1.. - The
disc 6 can be placed in thebottom 7 of thechamber 8 or in fact constitute thebottom 7 of thechamber 3.
Claims (15)
- A flash dryer (1) for drying a product (2), comprising:a chamber (3) having a product inlet (4) and a product outlet (5), the product inlet (4) being located in a lower section of the chamber (3) and the product outlet (5) in a upper section of the chamber (3),a disc (6) fixedly arranged in the lower section of the chamber (3) below the product inlet (4), such that a gap (9) is created between an outer edge (10) of the disc (6) and an inner wall (8) of the chamber (3), wherein a thickness of the disc (6) is decreasing radially from a mid-section (11) of the disc (6) towards the outer edge (10) of the disc (6),a primary air inlet (12) arranged below the chamber (3) and arranged to provide air into the chamber (3) via the gap (9),a drive unit (13) arranged below the chamber (3) having a drive shaft (14) extending through a hole (15) in the mid-section (11) of the disc (6) into the lower section of the chamber (3),a plurality of rotatable disintegrator elements (23) connected to the drive shaft (14) in the lower section of the chamber (3) above the disc (6), anda rotatable shovel arm (16) connected to the drive shaft (14) in the lower section of the chamber (3) above the disc (6) and below the plurality of disintegrator elements (23), the shovel arm (16) being adapted to distribute the product (2) in the lower section of the chamber (3).
- The flash dryer (1) according to claim 1, further comprising a secondary air inlet (26) arranged in the lower section of the chamber (3) above the plurality of disintegrator elements (23).
- The flash dryer (1) according to claim 2, wherein the secondary air inlet (26) comprises a plurality of inner air inlets (28) providing air into the chamber (3), the inner air inlets (28) being arranged along a periphery of the chamber (3).
- The flash dryer (1) according any one of the preceding claims, wherein the disc (6) has a domed shape.
- The flash dryer (1) according any one of the preceding claims, wherein the disc (6) comprises protrusions (25) along its outer periphery adapted to direct air from the primary air inlet (12) to enter the chamber (3) via the gap (9) in a substantially vertical direction.
- The flash dryer (1) according to any one of the preceding claims, wherein the outer edge (10) of the disc (6) is at least partly rounded.
- The flash dryer (1) according to any one of the preceding claims, wherein the plurality of disintegrator elements (23) are vertically aligned with the location of the product inlet (4).
- The flash dryer (1) according to any one of the preceding claims, wherein each one of the plurality of disintegrator elements (23) comprises a grinding edge (24) thereof such that the product (3) is grinded and/or disintegrated between the grinding edge (24) and the inner wall (8) of the chamber (3).
- The flash dryer (1) according to any one of the preceding claims, wherein the shovel arm (16) comprises a plurality of recesses (18) in a bottom section (17) thereof, allowing parts of product (2) located on the disc (6) to escape therethrough.
- The flash dryer (1) according to any one of the preceding claims, wherein the shovel arm (16) comprises a wing portion (21) attached to an outer edge (22) thereof, the wing portion (21) being vertically aligned with the product outlet (5) such that the product (2) fed into the chamber (3) is cut into pieces.
- The flash dryer (1) according to any one of the preceding claims, wherein the shovel arm (16) is arranged in the lower section of the chamber (3) to vertically correspond with the location of the product inlet (4).
- The flash dryer (1) according to any one of the preceding claims, wherein the chamber (3) comprises protrusions (29) arranged at a distance from each other along a periphery of the inner wall (8) of the chamber (3).
- The flash dryer (1) according to claim 12, wherein each one of the protrusions (29) comprises an exchangeable cutting edge.
- The flash dryer (1) according to any one of the preceding claims, further comprising a product conveyer connected to the product inlet (4).
- A method for drying a product (2) in a flash dryer (1), comprising:introducing the product (2) into a chamber (3) of the flash dryer (1) via a product inlet (4) located in a lower section of the chamber (3) onto a disc (6) fixedly arranged in the lower section of the chamber (3) below the product inlet (4), wherein a thickness of the disc (6) is decreasing radially from a mid-section (11) of the disc (6) towards the outer edge (10) of the disc (6),rotating a shovel arm (16) in the lower section of the chamber (3) above the disc (6) to distribute the product (2) in the lower section of the chamber (3),rotating a plurality of rotatable disintegrator elements (23) in the lower section of the chamber (3) above the disc (6) and the shovel arm (16) to disintegrate the product (2),providing air into the chamber from a primary air inlet arranged below the chamber via a gap between an outer edge of the disc and an inner wall of the chamber to lift and dry the product,providing air into the chamber (3) from a secondary air inlet (26) arranged in the lower section of the chamber (3) above the plurality of disintegrator elements (23) to rotate and dry the product (2), andexiting the product (2) via a product outlet (5) in a upper section of the chamber (3).
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20204151.3A EP3992561A1 (en) | 2020-10-27 | 2020-10-27 | A flash dryer for drying a product and a method for drying a product in a flash dryer |
PCT/EP2021/079664 WO2022090216A1 (en) | 2020-10-27 | 2021-10-26 | A flash dryer for drying a product and a method for drying a product in a flash dryer |
CA3196433A CA3196433A1 (en) | 2020-10-27 | 2021-10-26 | A flash dryer for drying a product and a method for drying a product in a flash dryer |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP20204151.3A EP3992561A1 (en) | 2020-10-27 | 2020-10-27 | A flash dryer for drying a product and a method for drying a product in a flash dryer |
Publications (1)
Publication Number | Publication Date |
---|---|
EP3992561A1 true EP3992561A1 (en) | 2022-05-04 |
Family
ID=73029947
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20204151.3A Pending EP3992561A1 (en) | 2020-10-27 | 2020-10-27 | A flash dryer for drying a product and a method for drying a product in a flash dryer |
Country Status (3)
Country | Link |
---|---|
EP (1) | EP3992561A1 (en) |
CA (1) | CA3196433A1 (en) |
WO (1) | WO2022090216A1 (en) |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN115127322B (en) * | 2022-08-31 | 2022-11-18 | 山东德利科工业装备有限公司 | Circulation heat accumulation formula spin flash dryer convenient to clearance |
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CN205308516U (en) * | 2016-01-23 | 2016-06-15 | 响水县智诚知识产权信息服务有限公司 | Array dryer type grain grinder |
CN206875880U (en) * | 2017-04-28 | 2018-01-12 | 江苏健达干燥工程有限公司 | A kind of flash dryer that can prevent buildup |
CN207907629U (en) * | 2018-02-28 | 2018-09-25 | 江西雷亚特导电碳黑有限公司 | A kind of by-product conductive black processing flash dryer |
CN208349691U (en) * | 2018-06-01 | 2019-01-08 | 河北云瑞化工设备有限公司 | Rotatingandflashstreamingdrier |
CN109201271A (en) * | 2018-08-15 | 2019-01-15 | 芜湖卓越纳米新材料股份有限公司 | A kind of drying and crushing device of nanometer calcium carbonate |
CN210180012U (en) * | 2019-07-19 | 2020-03-24 | 山东荣创催化新材料有限公司 | High-efficiency catalyst flash dryer |
Also Published As
Publication number | Publication date |
---|---|
WO2022090216A1 (en) | 2022-05-05 |
CA3196433A1 (en) | 2022-05-05 |
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