CA2068294A1 - Methods for increasing sheet solids after wet pressing operations - Google Patents

Abstract

METHODS FOR INCREASING SHEET SOLIDS AFTER WET
PRESSING OPERATIONS

ABSTRACT OF THE DISCLOSURE

A method is provided for minimizing the rewetting of a sheet after wet pressing of the same with a water receiver, the method comprising: forming before or during the pressing together of the sheet and the water receiver, a surfactant laden or foam-filled region at an interface between the sheet and the water receiver;
and separating the water receiver from the sheet after the pressing of the two together. The method allows for the formation of sheets having higher solids after wet pressing.

Description

2~82~4 BACKGROUND OF THE INVENTION

Field of the Invention The present invention relates to paper making processes, wherein an increase in sheet solids is achieved a~ter wet pressing operations by reducing and preferably minimising sheet rewet after ~et pressing operations.

Discussion of Related ~rt In U.S. ?atent 3,542,640, there is disclosed the application or ~echanical pressure to a sheet containing roa~ to force the drainage of wa~er r^rom the sheet and increase the solids content of the sheet.
Howeve~, minimizing rewetting of the sheet by creating a region or foam or surfactant is not suggested or envisloned in the reference.
}5 In U.S. Patent 4,062,721, there is disclosed the reduction of ~ater from a wet fibrous sheet by adding a surfactant foaming agent to the flber furnish and then applying a vacuum to the sheet to create foam.
The increase in air pressure difrerential across the sheet i~proves vacu~n dralnase. There is no suggestion, however, of achieving high solids or minimizing re~etting by creating a surfactant-laden or foam-filled region at the interface between the sheet and the ~ater rece~ver t~ inhibi~ the water from returning ta the sheet.
In U.S. Patents 4,506,944 and 4,778,477, there is disclosed the application of foam to a region of a flbrous ~sheet and the application of a pressure gradient to the sheet in the region where the foam was applied. However, the processes described in both of these patents preferably e~ploy a vacuum to produce the pressure gradient. U.S. Patent 4,778,477, moreover, is directed to facilitating add-on~, such as dyes and the .

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like. Minimizing rewet in the absence of a vacuum by creating a defined surfactant- or foam-containiny region is not disclosed or envisioned in these U.S.
patents.
U.S. Patents 4,443,296 and 4,5~3,156 are illustrative of the paper making art relating to the formation of~ sheets from surfactant-foamed fibers.
E~en so, neither of these patents suggests the creation or a region of foam or surfactant to minimize rewetting.

~Y~a~Y OF T~E INV~NTION
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The ~rçser~t invention provides a method or : reducing, and preferably minimising, sheet rewet after wet pressing, : which in turn allows those skilled in the art to also increase ~ the amount of solids in sheets after wet pressing ; ~ operations.
The inventive ~ethods herein disclosed, contain the steps of (1) forming berore or during the pressing together of a wet sheet and a water receiver, a sur~actant-laden or foam~filled region at an interface between the sheet and the water receiver, and (2) separating the~water receiver from the sheet after the pressing of the two together.

B~IEF DESCRI~TION~OF THE DRAWINGS

2~ ~The present inver-tion will ~ecome more fully understood from the detailed description given here and below and the~accompanying drawing which is given by way of illustration only, and thus is not limitative of the~presen~ invention, and wherein:
30 ~Figure 1 ~:~ Illustrates one currently known method for wet pressing and drying papers, allowing for illustration of certain aspects of the present inventive discovery.
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DETAILED DESCRIPTION OF TXE EM~ODIMENT

The following detailed description is provided to aid those skilled in the art in practicing the present invention. However, the following discussions, in-cluding those relating to exemplary embodiments, shouldnot be deemed to unduly limit the present invention.
This is particuIarly important to understand since minor variations and/or changes can be made to the ~embodimerlts herein disclosed by those of ordinary skill ; 10 in the art without departing fro~ the spirit or scope of the present invention. Moreover, it is noted that the rights of the present inventor to the invention herein disclosed are only limited by the scope of claims appended hereto and the equivalents thereof.
1~ The present invention provides for ~ethods of preventing sheet rewet occurring after wet processing ~ operations. This in turn also allows the present ;~ invention to provide for sheets having increased solids after wet pressing. The methods disclosed herein are applicable to the production of an endless variety of ; paper and paper type products, including paper towel and tissue like products, among others.
Paper making processes which involve the deposition of aqueous suspensions of paper making 25~ fibers on foraminous supports are well kno~n, and moreover, paper making processes which involve the deposition of foamed aqueous suspensions of paper making fibers on foraminous supports are also well Xnown. In each type of paper making process, laxge volumes of water are utilized to deposit paper making fibers on a suitable support. Likewise, a variety of steps are usually also performed in each type of process to separate the paper making fibers (after :~

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'~ '.~ ' ' 2~6~294 deposition) from the aqueous based solutions and foams used to deposit the same.
Methods used by those skilled in the art to separate deposited paper making fibers from aqueous based solutions and foams include gravitional means as well as forced means such as phase change, vacuuming, wet pressing, etc. Phase change involves changing water which is present into a vapor, and vacuuming invoIves the creation of a pressure differential across layers of paper ma~ing fibers so that water is quickly drained therefrom. ~et pressing operations, on the other hand, generally entail pressing a sheet of wet paper making fibers against a water receiver so that water in the sheet is transferred from the sheet to the water receiver. Wet pressing operations are most often carried out by using felts as water receivers.
Parts of Figure 1 show what may be considered as a typical paper making wet pressing and drying operation, which uses felts as water receivers. Figure 1 at the same time, however, also illustrates many aspects of the present invention.
In a typical paper making process, wet pressing ~; and drying operations are used to convert wet sheets of paper making fibers into dry sheets of a paper product.
In Figure 1, these operations are shown in the following manner. A wet sheet of paper making fibers (1) is~carried on a forming fabric belt (3) to a couch roller (9), which may have a vacuum zone (8). The vacuum zone of the couch roller operates at about a few inches Hg, and serves to remove water which is present in the fabric belt (3) as well as in the layer of wet fibers thereon, so that the layer of paper making fibers only~ contains about 75 to 90% water, prior to ~ , reaching the pick up zone (7). At the pick up zone (7), the wet sheet of fibers is transferred to a felt water receiver (10), and thereafter, the wet fiber sheet can be carried on the felt to an optional first .' ::

20~8294 wet pressing station (4), which contains two press rollers. The first wet pressing station may often contain as a press roller a suction roller, such as (12) with a vacuum zone (14), which operates at about 5 to 10 inches Hg. The use of such a suction roller at wet pressing station (4), helps to ensure that the felt water receiver (ll) which the roller contacts, remains relatively dry during wet pressing.
After the sheet of paper fibers passes through the optional wet pressing station (4), it continues to be carried on the felt water receiver (lo) over quide or turn rollers such as (24) and (33) to a second wet pressing station (5). Wet pressing station (5) contains as one of its pressing rollers a YanXee dryer (27), and as its other pressing roller, a suction roller (13) with a vacuum zone (15). The suction roller (13) operates in similar fashion to the suction roller (12) at wet pressing station (4).
After exiting wet pressing station (5), the paper sheet adheres to the surface of the dryer (27) and is dried (by phase change of water in the paper sheet to a vapor), and after drying, the paper sheet is removed from the dryer. The paper may be removed from the dryer using a creping blade (34), if desired. In any event, there is obtained a dry paper product (2).
A typical wet pressing and drying operation as shown in Figure 1 is continuous and as such, the felt water receivers (10) and (11) used therein must be continually conditioned with respect to moisture content so as to properly work throughout a paper production~run. In this regard, once a felt has been wet pressed as shown in Figure 1, it is usually showered with water such as shown by (18) and (19), and vacuumed as shown by (20) and (21). The felts can also be press-rolled to condition their moisture content (6), or wiped to condition their moisture content (26).
In order to perform such continuous conditioning, the ::
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felts run around a variety of guide and turn rolls such as (23) and (25), among others. Further, stretch rollers such as (16) and (17) are used to ensure that the felts are continually maintained under proper tension for performing a wet pressing of the paper making fibers used to prepare the dry papers (2).
Having provided how Figure 1 shows what is typical of known wet pressing and drying operations, it is now discussed how Figure 1 additionally illustrates certain aspects of the present invention.
The present invention provides for a method of preventing the rewetting or a sheet after a wet pressing of the sheet with a water receiver (such as a felt) by creating a surfactant-laden or foam-filled region at an interface between the sheet and the water receiver, and thereafter, separating the water receiver from the sheet after the wet pressing of the two together. In Figure 1, spray nozzles (29), (30), (31), (32), and (35) are provided as means for applying surfactants or solutions thereof to the wet paper making fibers (1) and/or the felt water receivers (10) and (11). ~oreover, a li~uid container reservoir (28) is provided as a means of saturating the felt water receiver (11) with a concentrated solution of a surfactant. Any of these means shown in Fi~ure 1 are sufficient for providing a surfactant-laden region at the interface of the paper making fiber sheet (1) and surfaces of felts (10) and (11) that come into contact with (1). It is noted that the means shown in Figure 1 for providing a surfactant-laden region are only exemplary of s~everal which may be utilized, and therefore should not be deemed to unduly limit the present invention.
In order to provide for surfactant-laden regions as herein disclosed, it is considered that -any surfactant which can si5nificantly reduce the surface tension of water, and/or will allow water to be foamed, 20~%9~

would be useful in the present invention. Exemplary of suitable surfactants to include in the present in~
vention are sodium lauryl sulfate and alpha olefin sulfates and sulfonates preferably having a carbon chain length from 12 to 15, as well as many non-ionic surfactants. Such surfactants are commercially available from a variety of ~anufacturers.
Whether a surfactant laden region is created by applying a surfactant to the surface of a sheet of paper fibers or to the surface of a water receiver, it -is thought that appropriate amounts of the surfactants to apply would be preferably 0.01 to 0.1 g/m'.
It is also envisioned herein that an appropriate surf2ctant-laden region as provided for herein, can be 15 created by the addition cf a surfactant to a furnish of paper ma~ing fibers. In such an instance, a layer of wet paper-maXing fibers suc~ as shown by (1) in Figure 1 would contain a sufficient amount of surractant so that upon wet pressing of the same with a water recelver like felts (10~ and/or (11) there would be created ~he desired surfactant-laden region at an interface between the paper sheet and at least one of the water receivers. In such an embodiment of the present inventlon, it is thought that from about 30 to 2S 300 ppm of surfactant in an appropriate liquid-dispersion of paper-ma~ing fibers would be sufficient for producing a suitable surfactant-laden region, and ~; thus for minimizing sheet rewet after wet processing.
While not specifically shown in Fi~ure l, the present invention also provides for the use of foam-filled regions which are formed before or during wet pressing at the interface of sheets and water receivers. In this regard,- much as in the way surfactants are applied to the ~et paper maXing fibers (1) or felts (lo) and (11), foam filled regions can also be applied. For example, headboxes can be used to apply surfactant containing foams to either felt (10) :
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, .. ~ g or (11) or to the wet paper fibers (1), shown in Figure 1, if desired. In this regard, it is only necessary that the foam, once applied, create a foamed region at the interface between the wet paper sheet and a water receiver pressed there against during wet pressing.
It is additionally noted that those skilled in the art may find it desirable to employ a paper making foamed furnish in order to create a suitable foam-filled region between the wet layer of paper-making fibers and a water receiver pressed there against during wet pressing. The use of such a foamed furnish for such a purpose is encompassed hereby.
It is additionally provided herein that foam or surfactant-laden regions may be created, for example, lS at the inter'ace between the paper sheet (1) in Figure 1 and the felts (10) and tll) during wet pressing of the same. One suitable way to achieve such a foamed filled region during the wet pressing step is as follows. At the wet pressing station (5), one of the pressing rollers is a Yankee dryer (27). ~f the sur~
face temperature of this dryer is sufficiently high (e.g., at least about 180F), and the wet papers which are being pressed at station (5) contain or have sprayed thereon compounds which create gases above room temperature te.g., sodium carbonate, sodium bicarbo-natej ammonium carbonate, ammonium bicarbonate, etc.), there can easlly be created an appropriate foam-filled region during wet pressing at the interface between the paper sheet tll) and the felt water receiver tl0).
Even so, at least some surfactant should also be present at the interface so as to assure a proper foam-filled region is produced as gas is evolved from a chosen compound. The use of compounds such as sodium carbonate, etc. to produce~a foam by evolution of a gas during wet pressing operations is encompassed hereby.
By creating a surfactant or foam-filled region such as provided for in the present invention, those ~:: : :
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skilled in the art now have available to themselves means for minimizing rewetting of paper layers after wet pressing steps, and thus they also possess means for increasing the solid contents of paper sheets a~ter wet pressing since less water is present in the layers after wet presslng. This minimization of sheet rewet is thought to be brought about by the surfactant and foam-filled regions' ability to control wicking of water from the water receivers (to the paper sheet) following their wet pressing against surfaces of the paper sheets. Control of such wicking is also aided in the present invention by providing that after wet pressing, the water recei~ers are separated from the paper sheets. In this regard, in Figure 1 it is noted that felt (11) is immediately separated from the paper following wet pressing, and felt (10) separates from the paper sheet after the wet paper's journey to wet pressing station (5). It is further noted that in - commercial paper making machines, paper making speeds of S,000 fpm are easily achieved, and therefore the amount of time the wet paper (1) would be expected to be in contact with felt (10), between wet pressing stations (4) and (5), is minuscule at best.
In order to show the effectiveness of the present inventive methods in minimizing sheet rewet and increasing sheet solids after wet pressing, several experiments were performed and are described below.
High speed experiments were carried out which in~olved adding an alpha olêfin sulfonate surfactant by :~ :~ : :
spraying a water solution of the surfactant onto the water recovery~felts of an apparatus similar to that shown in Figuxe 1. Addition rates were from 0 grams of surfactant/meter~ of felt surface (i.e., no surfactant, just water sprayed) up to 0.076 grams of surfactant/
35~ meter~ of felt surface. Papers werP produced at machine speeds of 4000 and 5000 fpm. It was found that by increasing the surfactant addition rate in such ::
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experiments, there was also always an increase in the amount of pressing solids in the paper sheets produced.
In other experiments, paper sheets were produced at speeds up to 4000 fpm from a slurry of fibers having an alpha olefin sulfonate surfactant added to create a foamed furnish. Surfactant concentration was about 250 ppm. Wet pressing solids were always higher than those from non-foamed slurries at equivalent machine conditions.
The above results clearly evidence that with the present inventive discovery, those skilled in the art may now minimize sheet rewet occurring after wet pressing operations, and in turn increase sheet solids after such wet pressing.
The invention being thus described, it will be obvious that the same may be varied in many ways. Such variations are not to be regarded as a departure from the spirit and scope of the invention, and all such modirications as would be obvious to one skilled in the art are intended to be included within the scope of the following claims.

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Claims (15)

1. A method of reducing the rewetting of a sheet after a wet pressing of the same with a water receiver, characterised in that the method comprises:
forming before or during the pressing together of the sheet and the water receiver, a surfactant-laden or foam filled region at an interface between the sheet and the water receiver: and separating the water receiver from the sheet after the pressing of the two together.

2. A method as claimed in claim 1, characterised in that the water receiver is a felt.

3. A method as claimed in claim 1 or claim 2, characterised in that a surfactant-laden region is created at the interface between the sheet and the water receiver and said surfactant-laden region contains a surfactant which can lower the surface tension of water.

4. A method as claimed in any one of claims 1 to 3, characterised in that the surfactant-laden region contains an alpha olefin sulfate or sulfonate surfactant.

5. A method as claimed in claim 4, characterised in that the surfactant is an alpha olefin sulfonate having a carbon chain length from 12 to 16.

6. A method as claimed in any one of claims 1 to 3, characterised in that the surfactant is sodium lauryl sulfate.

7. A method as claimed in any one of claims 1 to 6, characterised in that the surfactant in the surfactant-laden region is applied to a surface of at least one of said water receiver and said sheet before wet pressing the water receiver with the sheet.

8. A method as claimed in claim 7, characterised in that the surfactant in the surfactant-laden region is applied to the water receiver by placing the water receiver in a solution of the surfactant.

9. A method as claimed in claim 1 or claim 2, characterised in that a foam-filled region is created at the interface between the sheet and the water receiver and said foam-filled region contains a surfactant.

10, A method as claimed in claim 9, characterised in that the foam-filled region contains a surfactant which can lower the surface tension of water.

11. A method as claimed in any one of claims 1, 2, 9 and 10, characterised in that the foam-filled region contains a foamed furnish of paper making fibers.

12. A method as claimed in claim 11, characterised in that the foam furnish is deposited on the water receiver.

13. A method as claimed in any one of claims 1, 2 and 9 to 12, characterised in that said foam-filled region is created when a compound that is in the sheet or water receiver, or on the sheet's surface or water receiver's surface, gives off a gas.

14. A method as claimed in claim 13, characterised in that said compound is sodium carbonate, sodium bicarbonate, ammonium carbonate or ammonium bicarbonate.

15. A method as claimed in any one of claims 1 to 14 wherein said sheet comprises paper making fibers.