METHOD FOR DETERMINING THE DRYNESS OF A FIBROUS WEB, AND METHOD FOR CONTROLLING OR REGULATING A MACHINE FOR PRODUCING A PAPER WEB, AND COMPUTER PROGRAM FOR CARRYING OUT THE METHODS

Abstract

A method for determining the dryness of a fibrous web, in particular a tissue web, during the production of the fibrous web, is carried out in a machine including a drying cylinder, in particular a Yankee cylinder, to which at least one, preferably two, dryer hoods are assigned, and a reel-up for winding up the fibrous web. The determination of the dryness of the fibrous web is carried out before the drying cylinder on the basis of measured values which describe the following variables: the amount of solids in the fiber web at the reel-up, the amount of water in the fiber web at the reel-up, and the amount of water which is evaporated in the dryer hood or hoods. A method for controlling or regulating a machine for producing a fibrous web, a computer program and computer program product are also provided.

Claims

1-12. (canceled)

13. A method for determining the dryness of a fibrous web or a tissue web during the production of the fibrous web in a machine, the method comprising the following steps: providing a machine including a drying cylinder or Yankee cylinder, one or two dryer hoods associated with the drying cylinder, and a reel-up for winding up the fibrous web; and determining the dryness of the fibrous web before the drying cylinder based on measured values describing the following variables: a) an amount of solids in the fibrous web at the reel-up, b) an amount of water in the fibrous web at the reel-up, c) an amount of water evaporated in the dryer hood or hoods.

14. The method according to claim 13, which further comprises using measuring devices of the machine to acquire at least one of the variables a), b) or c) online during a running operation of the machine.

15. The method according to claim 13, which further comprises using further variables to determine the dryness of the fibrous web.

16. A method for controlling or regulating a machine for producing a fibrous web or a tissue web, the method comprising the following steps: providing a machine including a drying cylinder or Yankee cylinder, one or two dryer hoods associated with the drying cylinder, and a reel-up for winding up the fibrous web; and using a dryness of the fibrous web before the drying cylinder for controlling or regulating the machine.

17. The method according to claim 16, which further comprises determining the dryness of the fibrous web online during operation of the machine.

18. The method according to claim 16, which further comprises determining the dryness of the fibrous web before the drying cylinder based on measured values describing the following variables: a) an amount of solids in the fibrous web at the reel-up, b) an amount of water in the fibrous web at the reel-up, c) an amount of water evaporated in the dryer hood or hoods.

19. The method according to claim 16, which further comprises controlling or regulating a temperature of the dryer hood or hoods as a function of the dryness of the fibrous web before the drying cylinder.

20. The method according to claim 16, which further comprises providing at least one fabric or felt in the machine, and controlling or regulating a conditioning of the fabric as a function of the dryness of the fibrous web before the drying cylinder.

21. The method according to claim 16, which further comprises controlling or regulating a dosing of a chemical or a release agent as a function of the dryness of the fibrous web before the drying cylinder.

22. The method according to claim 16, which further comprises guiding the fibrous web through a press nip or a shoe press nip before the drying cylinder or directly on the drying cylinder.

23. A non-transitory computer-readable medium having a computer program stored thereon, that when executed on a processor carries out the method according to claim 13.

24. A non-transitory computer-readable medium having a computer program stored thereon, that when executed on a processor carries out the method according to claim 16.

25. A non-transitory computer program product having a computer program stored thereon, that when executed on a processor carries out the method according to claim 13.

26. A non-transitory computer program product having a computer program stored thereon, that when executed on a processor carries out the method according to claim 16.

Description

[0043] The invention will be explained in more detail below by using a schematic FIGURE, not to scale.

[0044] FIG. 1 shows a detail from a machine for carrying out a method according to one aspect of the invention.

[0045] FIG. 1 shows a detail from a machine 1 for producing a tissue web 2. The tissue web 2, coming from a headbox, is transported and supported on a felt 5. A press nip 7 is provided, which is formed from a press roll 6 and a Yankee cylinder 3 as a mating roll. The press roll 6 can be a shoe press roll 6. However, the press nip 7 can also be a conventional roll nip 7. In the press nip 7, the fibrous web 2 is transferred to the Yankee cylinder 3. After that, the felt 5 is guided back again without the tissue web 3. In the region of this return, further devices for felt conditioning can be provided, such as spray pipes or suction devices, which are not illustrated in FIG. 1. Likewise, measuring devices for the felt condition can be provided.

[0046] The Yankee cylinder 3 is usually steam-heated. In the machine 1 shown in FIG. 1, a dryer hood 4 is assigned to the Yankee cylinder 3. In other advantageous embodiments, two dryer hoods 4 can also be provided. These are then arranged directly one after the other as a rule and are designated by wet part and dry part. After leaving the dryer hood 4, the material web 2 is separated or creped off the Yankee cylinder at the separation point 8 and led onward in the direction of the reel-up, which is not illustrated. To facilitate the removal of the tissue web 2 from the Yankee cylinder 3, a release agent can be applied to the surface of the Yankee cylinder 3. The application can be carried out, for example, by spray application and is expediently done in the region of the Yankee cylinder 3 which is not covered by the tissue web 2, that is to say between the separation point 8 and the press nip.

[0047] The dryer hood 4 in the machine in FIG. 1 extends over a very large part of the surface of the Yankee cylinder 3. By means of said hood, hot air is led onto the fibrous web 2. In general, the air temperature in the dryer hoods 4 which are suitable for aspects of this invention can advantageously lie between 150 C. and 500 C., in particular between 250 C. and 400 C. In steam-heated dryer hoods 4, the temperature seldom exceeds 200 C. For higher temperatures, gas-heated dryer hoods are usually used. As a result of the drying of the tissue web 2, moisture escapes from the tissue web 2 and passes into the dryer hood 4 and is enriched therein. For this reason, part of this moist hood air is normally led away as exhaust air and dry air is fed to the dryer hood 4 as feed air. By means of measurements in the exhaust air streamand possibly in the feed air streamthe amount of water carried along with the exhaust air per unit time can be determined online very reliably during the running operation of the machine 1 and, to a very good approximation, corresponds to the amount of water removed from the tissue web by drying in said time. The knowledge of this variable is an important variable for the performance of the method as claimed in some aspects of the invention. Together with the knowledge of the amount of water and the amount of solids (fibers, fillers etc) of the tissue web 2 at the reel-up, or a sufficiently good approximation thereto, the dryness of the fibrous web after the press nip 7 or at the entry into the dryer hood 4 can be determined to a very good approximation. (These two points lie very close to each other in the embodiment according to FIG. 1, which means that, amongst other things, taking a sample of the tissue web 2 in this region is very difficult and dangerous.

[0048] The online available dryness before the Yankee cylinder 3 can be used for various controls and regulations.

[0049] Thus, for example, the temperature of the hood air of the at least one dryer hood 4 can be controlled or regulated as a function of the dryness of the fibrous web 2 before the drying cylinder 3. Said temperature can advantageously lie in the range between 205 C. and 360 C.

[0050] Alternatively or additionally, the dosing of a chemical, in particular a release agent, can be controlled or regulated as a function of the dryness of the fibrous web 2 before the drying cylinder 3.

[0051] Alternatively or additionally, the conditioning of a fabric 5 can be controlled or regulated as a function of the dryness of the fibrous web 2 before the drying cylinder 3.

[0052] These examples of regulations constitute advantageous embodiments. However, the invention is not restricted to the regulations described.