Not Applicable
The present invention relates to vacuum drum washers and, more particularly, to a vacuum drum washer used for washing pulp in a paper making process.
The assignee of the present invention currently supplies two styles of drums—the so-called BMax (shown in
The VMax is commonly referred to as a “center-draining” drum since all of the filtrate moves to the middle (lengthwise) of the drum through annular channels located beneath the deck. In the VMax, the filtrate is then transferred to the valve area of the drum via pipes (see
The annular channels (shown in
End-draining drums are typically used for drums that are ≦20′ in length (sometimes longer, depending on the application). Center-draining drums are typically used for drums >20′ in length. The length criteria is based on limiting the distance filtrate has to travel when the volume is high, thereby reducing the pressure drop. Up until the early 1990's, most drums were of the center-draining design. The end-draining type drum was designed to lower the cost, and to simplify the drum construction for better maintainability.
An example of an existing drum is described in U.S. Pat. No. 5,021,126, the contents of which are hereby incorporated by reference.
A problem with the existing designs, however, is that the center-draining drum is costly, which has been amplified by the rising cost of steel.
It would thus be desirable to design a drum washer that encompasses the simplified construction of an end-draining drum while being able to function properly for use with drums that are greater than 20 feet in length. The drum design according to the present invention incorporates a second filtrate channel at least partially along the length of the drum. Filtrate from the tail end of the drum travels about half the length of the drum, then passes beneath the filtrate channel through the opposite end of the drum. Thus, for about half or more of the drum closest to the end-draining area, there are two filtrate channels disposed one on top of the other.
In an exemplary embodiment of the invention, a vacuum drum washer includes a cylindrical drum including a mesh screen defining an exterior wall. A plurality of outer filtrate channels are disposed radially inward from the mesh screen and extend along a longitudinal axis of the drum and substantially an entire length of the drum. A plurality of inner filtrate channels are disposed radially inward from the outer filtrate channels and extend along the longitudinal axis of the drum and less than an entire length of the drum. A transfer channel connects the outer filtrate channels and the inner filtrate channels. A plurality of radial drainage chutes are disposed adjacent a head end of the outer and inner filtrate channels, which radial drainage chutes direct filtrate to a drain valve.
A downstream end of the transfer channel is preferably disposed in fluid communication with a start of the inner filtrate channels. An upstream end of the transfer channel is preferably disposed between a start and an end of the outer filtrate channels. In particular, an upstream end of the transfer channel may be disposed substantially half way between a start and an end of the outer filtrate channels.
In another exemplary embodiment of the invention, a vacuum drum washer includes a cylindrical drum including a mesh screen defining an exterior wall, a first plurality of filtrate channels disposed radially inward from the mesh screen, a second plurality of filtrate channels disposed radially inward from the first plurality of filtrate channels, where a transfer channel connects the first plurality of filtrate channels and the second plurality of filtrate channels, and a plurality of radial drainage chutes disposed adjacent a head end of the first and second pluralities of filtrate channels, which direct filtrate to a drain valve.
In yet another exemplary embodiment of the invention, a method of washing pulp for the manufacture of paper includes the steps of rotating a cylindrical drum having a mesh screen defining an exterior wall in a vat of pulp; applying a vacuum within the cylindrical drum until a pulp mat is deposited on the exterior wall; applying a washing liquid to the pulp mat on the exterior wall, the washing liquid flowing as filtrate through the pulp mat and through the mesh screen into a plurality of outer filtrate channels disposed radially inward from the mesh screen; diverting at least a portion of the filtrate into a plurality of inner filtrate channels disposed radially inward from the outer filtrate channels via a transfer channel connecting the outer filtrate channels and the inner filtrate channels; and directing the filtrate to a drain valve via a plurality of radial drainage chutes disposed adjacent a head end of the outer and inner filtrate channels. A downstream end of the transfer channel is disposed in fluid communication with a start of the inner filtrate channels, where the diverting step is practiced by diverting the portion of the filtrate from the outer filtrate channels to the start of the inner filtrate channels.
These and other aspects and advantages of the present invention will be described in detail with reference to the accompanying drawings, in which:
In a paper manufacturing process, a pulp material is typically washed to remove pulping liquors and the like. Depending on a length of the drum washer in use, either of the conventional drum washers discussed above is typically used. The drum washer 10 is generally formed of a cylindrical drum 12 including a fine mesh screen 14 defining an exterior wall. See
As discussed above, it is desirable to utilize an end-draining drum as such drums are less expensive to manufacture and maintain. In a configuration where the washer drum exceeds about 20 feet in length, however, conventional end-draining drums have difficulty draining the filtrate due to the pressure drop associated with the large volume of filtrate flowing in the filtrate channels. The structure of the present invention is designed to reduce the pressure drop particularly toward the drain end of the drum so that an end-draining drum can be used for drums exceeding 20 feet in length.
With continued reference to
In a preferred arrangement, a downstream end of the transfer channel 24 is disposed in fluid communication with a start of the inner filtrate channels 18″. Also, an upstream end of the transfer channel 24 is disposed at a midpoint, preferably substantially halfway, between a start and an end of the outer filtrate channels 18′. As shown, the inner filtrate channels 18″ extend along about half the length of the drum.
The drum may be assembled in any suitable manner as would be apparent to those of ordinary skill in the art. With continued reference to
With the drum construction of the present invention, the volume of filtrate in the outer filtrate channels 18′ in the front end of the drum 10 is deflected via the transfer channel 24 to the inner filtrate channels 18″ toward the second half of the drum 10. As a consequence, the filtrate in the inner channels 18″ is not subjected to the pressure drop associated with filtrate entering the outer channels 18′ toward the second half of the drum 10. As a consequence, a pressure drop through the outer filtrate channels 18′ is reduced.
While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not to be limited to the disclosed embodiments, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 60/612,522, filed Sep. 24, 2004, the entire content of which is herein incorporated by reference.
Number | Name | Date | Kind |
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3225935 | Porteous | Dec 1965 | A |
3363774 | Luthi | Jan 1968 | A |
3947361 | Jackson | Mar 1976 | A |
5021126 | Gwin et al. | Jun 1991 | A |
5308488 | Nelson | May 1994 | A |
5480545 | Lewis | Jan 1996 | A |
Number | Date | Country | |
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20060065378 A1 | Mar 2006 | US |
Number | Date | Country | |
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60612522 | Sep 2004 | US |