The invention concerns a flotation cell for purifying fibrous suspensions, particularly suited to be used in the processing of recycled paper.
As is known, recycled paper is produced from an aqueous mixture of fibrous suspensions that contains also impurities, mainly inks, which must be removed from the mixture.
According to a known technique, the suspension is purified in suitable flotation cells, substantially constituted by a container in which the fibrous suspension is mixed with a plurality of microbubbles of air that, moving spontaneously upwards towards the surface of the suspension, bring the impurities to the surface.
The impurities accumulate on the surface of the mixture in the form of foams that are removed from the container, while the purified fibrous suspension proceeds towards the bottom of the container and is extracted from one or more points to continue the processing cycle.
In some cases, the purified suspension is reintroduced in the container, in such a way as to carry out several purification cycles in succession.
Several construction variants of flotation cells are known, which are described in detail in several patent documents.
U.S. Pat. No. 5,571,422 describes a flotation cell, also called “reactor”, comprising a container containing the fibrous suspension to be purified, whose inside is provided with rotary blades that keep the suspension in movement and thus favour its close contact with the air microbubbles.
According to this patent, the suspension is introduced in the container through suitable feed pipes, each provided with a Venturi pipe that draws in air from the outside and disperses it in the suspension to be purified in the form of microbubbles.
According to a variant protected by patent WO 98/54403, in the name of the same applicant filing this patent, each rotary blade is provided with a disc with slots, having the function to stabilize the flows inside the container in such a way as to improve the purification process.
The above mentioned patent was successively improved by patent WO 98/54402, also held by the applicant filing this patent, in which extraction of the purified suspension and reintroduction of the same in the container take place in several points, thus obtaining a more refined purification cycle that enables better results to be achieved than those achieved in the cases described above.
Owing to the presence of a large number of pipes, this construction form is particularly complex and poses the drawback of involving high cell construction costs, as well as considerable maintenance costs, since the cleaning operations that must be performed periodically require more labour.
In order to overcome this problem, a further construction variant has been developed, described in patent application VI2004A000181 filed in the name of the applicant, which has fewer feed pipes than the construction variants previously described.
In this construction variant, each feed pipe extends inside the container, where it branches into a plurality of ejectors arranged radially.
All the construction forms described above have in common the fact that each feed pipe comprises a Venturi pipe that draws in a plurality of air microbubbles and disperses them in the suspension flow introduced in the container.
Furthermore, each feed pipe is associated with pumping means that generate the head necessary for the operation of the corresponding Venturi pipe.
A drawback posed by said pumping means associated with the Venturi pipes lies in that they absorb a large quantity of power, since they have to overcome the flow resistance caused by the Venturi pipe, with the consequence that the running costs of the flotation cell are high.
A further drawback posed by the flotation cells described above lies in the maintenance complexity and in the maintenance times required due to the presence of the Venturi pipes and of the corresponding pumping means.
The object of the present invention is to overcome all the drawbacks described above.
In particular, it is a first object of the invention to construct a perfected flotation cell that absorbs less power than the flotation cells provided with Venturi pipes for the introduction of air in the suspension and ensuring the same purifying effect.
It is a further object of the invention to reduce the complexity of the maintenance operations to be carried out compared to the flotation cells of known type.
The objects mentioned above are achieved by a perfected flotation cell carried out according to the main claim.
Other details of the invention are described in the corresponding dependent claims.
According to the preferred embodiment of the invention described herein, the flotation cell that is the subject of the invention comprises a container for the suspension to be purified, provided with feed pipes for the introduction of the suspension and comprising internal rotary blades for stirring the suspension during the purification process.
According to the invention, the flotation cell comprises air dispersers suited to generate a plurality of air microbubbles and disperse them in the suspension. In each air disperser it is possible to identify a rotor with axial flow associated with driving means suited to set it rotating and a duct for conveying external air into the suspension at the level of the rotor.
With the same suspension flow rate, the above mentioned axial flow rotors absorb less power than that required by the pumping means associated with Venturi pipes and used in the flotation cells of known type.
Consequently, to advantage, the total installed power of the cell of the invention is less than that of cells of known type with Venturi pipes and having the same purifying effect, so that the motors used are smaller and installation costs lower.
Still advantageously, less installed power means less energy consumption and therefore lower running costs.
Still advantageously, the air dispersers require less complex maintenance than the Venturi pipes and corresponding pumping means of the flotation cells of known type.
Furthermore, the air dispersers are suited to be arranged both inside and outside the container, thus ensuring more flexibility in the design of the cell.
Still advantageously, the absence of the Venturi pipes makes the whole simpler and less expensive to carry out compared to the known solutions.
Finally, the dispersers can advantageously replace the Venturi pipes and the corresponding pumping means in the flotation cells of known type.
This advantageously makes it possible to convert existing systems obtaining the same benefits described above for the flotation cell of the invention, at a lower cost than that required for the construction of a completely new flotation cell.
The above-mentioned objects and advantages will be highlighted in greater detail in the description that follows, which is provided as an example without limitation, with reference to the attached drawings, wherein:
The flotation cell that is the subject of the invention is shown in
The introduction of the suspension 3 in the container 2 takes place through feed pipes 4 that, in different embodiments of the invention, can vary in number and outlet position, according to the flow to be created inside the container 2.
For the sake of simplicity,
The flotation cell 1 of the invention also comprises means 5 for intercepting the purified suspension that due to gravity goes down towards the bottom of the container 2, associated with means 6 for extracting the suspension from the container 2.
According to the invention, in each feed pipe 4 there is an air disperser 10 that generates and disperses a plurality of air microbubbles 22 in the suspension to be purified that flows therein.
In other embodiments of the invention, there may be more than one air disperser 10 in each feed pipe 4.
In further embodiments of the invention and as described below, the air dispersers 10 may be arranged inside the container, in addition to or instead of those arranged in the feed pipe 4.
There are also discharge means 7 for eliminating the foams that accumulate on the surface 3a of the suspension, said foams containing the impurities caught and brought along by the air microbubbles 22 while they spontaneously move upwards through the suspension.
As shown in
In construction variants of the invention, each air disperser 10 may be provided with more than one rotor 11 with axial flow, according to the flow rate that must be obtained through the feed pipe 4.
Each air disperser 10 also comprises a duct 13 for conveying external air into the suspension, provided with an intake mouth, not represented herein, that communicates with the outside of the feed pipe 4 and with a delivery mouth 13a arranged inside the feed pipe 4, in proximity to the rotor 11.
Preferably, the delivery mouth 13a of the air conveying duct 13 will be arranged at the level of the central part of the corresponding rotor 11.
The air dispersers 10 with axial rotors make it possible to obtain a cell 1 that absorbs less power than the cells with Venturi pipes having the same purifying effect.
In fact, in the flotation cell 1 of the invention, the air coming from the outside is mixed with the flow of the suspension to be purified due to the swirling motion created by the rotor 11 during rotation.
Vice versa, in the cells with Venturi pipes, the air is drawn in due to the pressure decrease produced in the suspension when it passes through the Venturi pipes themselves, through which it must be pushed by high head pumps that absorb much more power than the above mentioned air dispersers. Preferably, the rotors 11 of the air dispersers 10 are of the propeller type, even if any type of rotor can be employed, provided that it is suitable for generating a substantially axial motion of the fibrous suspension inside the corresponding feed pipe 4, absorbing limited power.
The intercepting means 5 comprise two intercepting tanks, a first tank 14 arranged on the bottom of the container 2 and a second tank 15 arranged in an intermediate position in the same container.
Other embodiments of the invention not represented herein may comprise only one intercepting tank 14 arranged on the bottom of the container 2, to which if necessary two or more intercepting tanks can be added, in intermediate positions in the container.
Each intercepting tank 14, 15 comprises a hood-shaped element 16, 17 tapering upwards, which prevents the flow taken from the intercepting tanks 14, 15 from interfering with the purification process in the container 2.
The extraction means 6 comprise an outlet pipe 23 associated with each tank 14, 15, which here is represented by way of example only for the second tank 15.
The outlet pipes 23 are provided with pumping means, not represented herein, which draw in the purified suspension and convey it outside the container 2.
In other embodiments of the invention, not represented herein, one or more outlet pipes 23 can be placed in communication with at least one of the above mentioned feed pipes 4, so that it is possible to recirculate the suspension and make it undergo several successive purification cycles.
The discharge means 7 comprise a rotary skimming blade 8 arranged in the container 2 just above the surface 3a of the suspension, as shown also in
The discharge means 7 also comprise a collection tank 9 arranged inside the container 2 below the surface 3a of the suspension, associated with collection ducts 18 that communicate with the outside of the container 2.
Obviously, other embodiments of the invention may comprise more than one rotary skimming blade 8 and/or more than one collection tank 9.
The flotation cell 1 that is the subject of the invention also comprises a series of rotary vanes 19 arranged inside the container 2 along a shaft 20 that is set rotating by driving means 21 and is preferably oriented vertically, said vanes stirring the fibrous suspension 3 to be purified.
Preferably, and as shown in
Preferably, each vane 19 comprises a disc 19a with a series of slots, which advantageously makes it possible to stabilize the motion of the suspension and to obtain better contact of the same with the air microbubbles 22.
According to a construction variant of the invention, schematically illustrated in
Each air disperser 32 is associated with a duct 40 for conveying external air, provided with an intake mouth that communicates with the outside of the container 31 and with a delivery mouth arranged in proximity to the rotor 11 of the disperser 32 itself, preferably at the level of the central part.
Clearly, the air dispersers 32 can be present in any number and any arrangement as established by the manufacturer according to the flow of air microbbubbles 22 to be obtained.
It is also evident that, in construction variants of the invention, the air dispersers 32 can be sustained by the inner wall of the container 31 instead of by supporting structures 33.
According to the example shown in
Also in this case, a duct 46 for conveying air is provided, with a delivery mouth 46a arranged at the level of the central part of the rotor 45.
Advantageously, the arrangement just described is particularly suitable for use in the reconditioning of existing systems, since it requires no major changes to the ducts or the inside of the container.
Still advantageously, maintenance of the motor 47 is particularly simple, since it is arranged outside the container.
For the same reason, to advantage, the motor 47 is subjected to less severe operating conditions.
However, it is evident that, in further construction variants of the invention not illustrated herein, the air dispersers 42 can be fixed to the inner wall of the container instead of to its outer wall.
The positions of the air dispersers 10, 32 indicated up to now for the embodiments of the cells 1, 30 can also be combined with each other, for example by arranging some air dispersers 10, 32 in the feed pipes 4, 34 and other air dispersers inside the container 2, 31.
Obviously, the above description is valid independently of the arrangement of the air dispersers 10, 32.
In practice, with particular reference to the flotation cell 1 shown in
The air conveying duct 13 connected to each air disperser 10 introduces in the suspension an air flow coming from the outside that, owing to the turbulence of the suspension in proximity to the rotor 11, is dispersed therein in the form of microbubbles 22.
The microbubbles 22, transported inside the container 2 together with the suspension, move spontaneously upwards towards the surface 3a catching, in their upward flow Fa, the impurities contained therein and transporting them to the surface in the form of foam.
The catching of the impurities is facilitated using chemical substances properly dissolved in the suspension 3, while the rotary vanes 19 favour the close contact between the microbubbles 22 and the suspension 3.
The suspension 3 proceeds in a downward flow Fd towards the bottom of the container 2 and is collected at the level of each intercepting tank 14, 15, where the extraction means 6 convey it outside the container 2.
The purified suspension may be completely or partially, continuously or intermittently, be reintroduced in the container 2 to undergo further purification cycles.
It is clear that the presence of the air dispersers 10 instead of the Venturi pipes and of the relative pumps makes it possible to achieve the aim to limit the complexity of the flotation cell 1.
Consequently, the invention also achieves the aim to make maintenance and cleaning of the flotation cell 1 easier compared to the cells of known type having the same purifying effect.
Furthermore, the dispersers 10 are external and therefore very easy to reach, to the benefit of maintenance simplicity.
The description provided above substantially applies also to the flotation cell 30 shown in
In this case, pumping means 39 are provided for conveying the suspension 3 into the container 31 which, since they don't have to feed the Venturi pipes, advantageously absorb less power than the flotation cells of known type with Venturi pipes.
In the light of the above considerations, the invention achieves all the previously-stated objects.
In particular, the invention achieves the object to produce a perfected flotation cell whose installed power is less than that of the known systems.
Advantageously, said less installed power also means more efficiency, that is, reduced specific energy consumption.
This is confirmed by experimental tests carried out by the inventor, which in relation to the flotation cell of the invention showed a specific consumption of approximately 20 kW/ton of treated product, compared to the approximately 50 kW/ton of treated product consumed by flotation cells with Venturi pipes having the same purifying effect.
The invention also achieves the aim to produce a flotation cell that, given the absence of Venturi pipes and their replacement with air dispersers, requires less complex maintenance than the flotation cells of known type.
On implementation, the flotation cell that is the subject of the invention may undergo changes that, though not illustrated or described herein, shall nonetheless be covered by the present patent, provided that they come within the scope of the claims that follow.
Where technical features mentioned in any claim are followed by reference signs, those reference sings have been included for the sole purpose of increasing the intelligibility of the claims and accordingly such reference signs do not have any limiting effect on the interpretation of each element identified by way of example by such reference signs.
Number | Date | Country | Kind |
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VI2007A000133 | May 2007 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/IB2008/001085 | 4/30/2008 | WO | 00 | 3/12/2010 |