SE516618C2 - White water channel arrangement for handling white water from paper machine, has additional outlets that divide the channel's bottom into portions whose angle of inclination exceed critical angle of inclination - Google Patents

Abstract

A white water channel arrangement comprises a channel; an outlet end which runs to a white water silo; walls; a channel bottom arranged at an angle of inclination that exceeds a critical angle of inclination; and additional outlet(s) that divides the channel's bottom into first and second portions each having an angle of inclination that exceeds the critical angle of inclination. A white water channel arrangement comprises (a) a channel with an inlet (1) arranged in connection to an outlet (2) for white water from a paper machine (3); (b) an outlet end (4), provided with a main outlet (6), which runs to a container device (5), preferably a white water silo; (c) walls (5A) between the channel ends; (d) a channel bottom (8) arranged at an angle of inclination that must exceed a critical angle of inclination to avoid sedimentation on the bottom of the channel; and (e) additional outlet(s) (9) between the main outlet (7) and the inlet end. The additional outlets are provided in such a way that the channel's bottom is divided into first (8A) and second (8B) portions. These portions are arranged in relation to each other so that the angle of inclination (alpha1, alpha2) for each of the portions exceeds the critical angle of inclination.

Description

20 25 30 35 516 618 due to the fact that the mounting height of the bottom of the outlet from the paper machine is low in combination with a rear water silo located far from the paper machine. Hitherto known solutions to the above-mentioned problems are that special recesses / recesses have been created in the factory floor on which the paper machine stands, so that a sufficient slope can be obtained on the channel bottom leading to the silo, which is located on the bottom floor, i.e. a floor below the machine floor. In some cases, essential parts of the machine floor must be felled to obtain a sufficient slope. It is realized that such a solution is not desirable, either from a cost point of view or for safety reasons. desired level.

BRIEF DESCRIPTION OF THE INVENTION It is an object of the present invention to eliminate or at least minimize the above-mentioned problems, which are achieved by means of an arrangement at the backwater channel, for handling backwater from a paper machine, comprising an inlet end arranged in connection with an outlet for rear water from a paper machine, an outlet end provided with an outlet, which outlet communicates with a container device, preferably a rear water silo, wall portions arranged between and at said channel ends and a channel bottom, said channel bottom being arranged at a certain angle of inclination in relation to the horizontal plane, which angle must not be less than a certain critical angle of inclination in order to avoid sedimentation on the channel bottom, characterized in that at least one further outlet is arranged between said main outlets and said inlet in such a way that the channel bottom is divided into a first and a second bottom portion. , which are arranged they in such a way in relation to each other that the angle of inclination of both said bottom portions exceeds the said critical angle of inclination.

Thanks to this arrangement, the need to make some changes to the existing floor surface on which the paper machine stands is avoided, while saving money by the construction itself being very cost-effective.

According to further aspects of the invention: - that said critical inclination angle is 2 °, preferably 2.5 ° and more preferably 3 °, - that the starting level H3 for said second bottom portion is higher than the final level H2 for said first bottom portion, That the starting level H3 of said second bottom portion substantially corresponds to the starting level H1 of said first bottom portion, rectilinear portion which is arranged with an inclination angle (13), wherein (13> (11 and (12, is preferably) 13 is substantially larger than (11 and (12, - that 2.5-3.5 °, - that (11 is substantially equal to (12, preferably completely equal, - that (13 is between 5-60 °, preferably 10-45 °, more preferably below 30 °, - that the additional outlet connects to a pipe.

BRIEF DESCRIPTION OF THE DRAWINGS In the following, the invention will be described in more detail with reference to the accompanying figures in which: Figure 1 shows the principles of an arrangement according to a preferred embodiment of the invention, Figure 2 shows an alternative embodiment according to the invention, and Figure 3 shows a cross-section through a backwater channel according to the invention.

DETAILED DESCRIPTION Figure 1 shows a preferred embodiment of a rear water channel according to the invention, and associated arrangements. An inlet end 1 of the duct is shown, which is connected to an outlet 2 belonging to a paper machine 3. The paper machine 3 is arranged on a so-called machine floor 1 1, which constitutes a kind of first floor in the factory building. Under the machine floor ll fi n is arranged a bottom floor 12 on which a rear water silo 5 is arranged. This silo 5 is arranged at the outlet end 4 of the rear water channel and receives rear water via a main outlet 6. Substantially vertical side walls 5A, SB are arranged between the inlet end 1 and the outlet end 4. Furthermore, the channel comprises a first 8A and a second 8B in the flow direction inclined bottom portion. The second bottom portion 8B connects at its downstream end to said main outlet 6 at a level H0 which substantially corresponds to the level of the machine floor 1 1. The starting point of the second bottom portion H3 is located at a level which causes the bottom portion 8B to be inclined at a certain angle relative to the horizontal plane. . In the preferred case, this angle (12 approx. 3 °.) A further outlet 9 is arranged between the two bottom portions 8A and the SB, to which a downcomer 10 is connected. Suitably, said pump 14 is included in the reject circulation. according to this preferred embodiment is located at approximately the same level as the starting point H3 for the second bottom portion, but as shown in the kan guen, these levels can be varied slightly with retained functionality according to the invention. wall portion 2A which slopes at a sharp angle, about 45 °, down to the starting point H1 of the first bottom portion 8A. egg part 2A is to reduce the flow rate in the backwater channel as quickly as possible. The reason is that you want a low enough speed to avoid turbulence. Normally it is prescribed that the flow velocity in the backwater channel shall not exceed 0.5 m / s. The sloping bottom portions 8A, 8B have the same purpose, i.e. they slope to avoid or eliminate the occurrence of turbulence in the backwater channel. By using a certain slope a1, (12 in the direction of flow, it is possible to prevent sediment from being deposited and built on the bottom portions 8A, 8B. With an angle a1, (12 = approx. 3 °, one can normally ensure that sediment is not deposited without follows the backwater flow towards the outlet 6, 9, 13.

Thanks to the division of the bottom part 8 into two sub-portions 8A, 8B, the problem has been effectively solved if the level difference between the outlet edge Hm of the machine and the lowest possible level H0 for the main outlet 6 is too small in relation to the distance L between them. The greater the distance, the smaller the angle that can be created on the bottom slope.

Normally, the angle must exceed at least 2 °, in order to eliminate sediment depositing on the bottom. If the difference in height and distance between said points do not allow the creation of an inclination angle of at least 2 ° with a ground plane, a well-functioning and cost-effective solution can nevertheless be achieved thanks to the invention.

Normally, in such cases, an existing machine floor is felled in order to be able to create a sufficient slope down to the silo. It turns out that this is an undesirable solution, not least for cost reasons.

Figure 3 shows a cross-section of a backwater channel according to the invention. It can be seen that the walls 5A, SB are arranged vertically and that the bottom is arranged transversely in a V-shape. Thanks to the V-shape, the sediment will not only move towards the outlets in the flow direction, but also towards the center line of the canal, which means that you can use a fairly limited size of the outlet and still manage to remove sediment. Thanks to this invention, it is thus excellent to use an ordinary standard pipe 10 at the further outlet 9 (the same principle also applies at the outlet 13). 10 15 20 516 618 Figure 2 shows an alternative embodiment according to the invention. Here it is shown that the bottom part 8 is divided into three different bottom portions 8A, SB, SC. The reason is that the height difference between the edge of the outlet Hm in the machine 3 is at insufficient height in relation to the machine floor 11 and the distance L to the silo 5. Thus, one can only get a sufficient slope ot when the bottom portions use a division into än er than two sub-portions. Otherwise, the solution is basically the same as described above. An additional modification shown in fi g. 2 is that the two further outlets 9, 13 are connected to each other pipe 10, 16 which pipes are connected to each other with a connecting pipe 15 which is suitably also arranged at a certain angle of inclination. In this way, one and the same pump 14 can be used to pump this partial current further, for example to a special reject pump.

The invention is not limited to what is described above but can be varied within the scope of the appended claims. Thus, for example, it is understood that in principle an infinite number of bottom portions can be used to achieve the seam according to the invention. Furthermore, it is understood that containers other than a silo 5 can be used to collect the backwater. It is also understood that the partial currents taken from the further outlets can advantageously be led directly to devices other than a pump, such as for instance directly to a vessel. It is understood that a pump does not always have to be used without self-flow being used to advantage in certain contexts. Furthermore, it is understood that the backwater channel itself can be designed in many different kinds of materials and combinations of different materials such as concrete, plastic, metal, etc.

Claims (11)

10 15 20 25 30 35 516 618 6 PATENT REQUIREMENTS Arrangement at a rear water channel, for handling rear water from a paper machine, which arrangement comprises a channel with an inlet end (1) which is arranged in connection with an outlet (2) for rear water from a paper machine (3), an outlet end (4 ) which is arranged with a main outlet (6), which outlet (6) leads to a container device (5), preferably a rear water silo, wall portions (SA, SB) arranged between and at said channel ends (1, 4) and a channel bottom (8 ), said channel bottom (8) is arranged with a certain angle of inclination ((11) in relation to the horizontal plane, which angle ((11) must not be less than a certain critical angle of inclination in order to avoid sedimentation on the channel bottom (8), k characterized in that at least one further outlet (9) is arranged between said main outlets (6) and said inlet end (1) in such a way that the channel bottom (8) is divided into a first (8A) and a second (8B) bottom portion, which are arranged in this way in relation to each other at The angle of inclination ((11, (12)) of each of said bottom portions (8A, 8B) exceeds said critical angle of inclination. Arrangement according to claim 1, characterized in that said critical angle of inclination is 2 °, preferably 2.5 ° and more preferably 3 °. Arrangement according to claim 1, characterized in that the start level (H3) of said second bottom portion (8B) is higher than the final level (H3) of said first bottom portion (8A). Arrangement according to claim 3, characterized in that the starting level (H3) of said second bottom portion (8B) substantially corresponds to the starting level (H1) of said first bottom portion (8A). Arrangement according to claim 4, characterized in that a bottom part (8D) sloping towards the flow direction is arranged between the starting level (H3) for said second bottom portion (8B) and the rear edge of the further outlet (9). Arrangement according to claim 5, characterized in that said bottom part (8D) comprises a substantially rectilinear portion which is arranged with an angle of inclination ((13), wherein the angle ((13)> ((11)) and the angle ((12) , preferably the angle ((13) is substantially greater than the angle ((11) and the angle ((12)). Arrangement according to one of the preceding claims, characterized in that the angle ((11) and the angle ((12), respectively) are between 1-5 °, preferably 2.5-3.5 °. 516 618 Arrangement according to claim 7, characterized in that the angle (α1) is substantially equal to the angle ((12), preferably the angles are completely equal. Arrangement according to claim 6, characterized in that the angle ((13) is between 5-60 °, preferably 10-45 °, more preferably below 30 °. Arrangement according to claim 1, characterized in that said further outlet (9) connects to a pipe (10), preferably of standard dimension. Arrangement according to claim 1, characterized in that said channel bottom is divided into at least three bottom portions (SA, 8B, 8C) and that at least two further outlets (9, 13) are arranged between said main outlet (6) and said inlet end. (1) -