EP1482089A1 - Apparatus for applying air on a web - Google Patents
Apparatus for applying air on a web Download PDFInfo
- Publication number
- EP1482089A1 EP1482089A1 EP20040077484 EP04077484A EP1482089A1 EP 1482089 A1 EP1482089 A1 EP 1482089A1 EP 20040077484 EP20040077484 EP 20040077484 EP 04077484 A EP04077484 A EP 04077484A EP 1482089 A1 EP1482089 A1 EP 1482089A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- paper
- web
- moisture
- profile
- nozzle surface
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
- 238000003490 calendering Methods 0.000 claims abstract description 33
- 238000004519 manufacturing process Methods 0.000 claims abstract description 11
- 238000007664 blowing Methods 0.000 claims abstract description 4
- 238000000034 method Methods 0.000 description 37
- 238000001035 drying Methods 0.000 description 27
- 239000007787 solid Substances 0.000 description 26
- 239000000835 fiber Substances 0.000 description 18
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 description 16
- 230000000694 effects Effects 0.000 description 15
- 238000005259 measurement Methods 0.000 description 14
- 238000001816 cooling Methods 0.000 description 9
- 230000008569 process Effects 0.000 description 7
- 239000011248 coating agent Substances 0.000 description 6
- 238000000576 coating method Methods 0.000 description 6
- 238000003860 storage Methods 0.000 description 6
- 238000001704 evaporation Methods 0.000 description 5
- 238000010438 heat treatment Methods 0.000 description 5
- 238000009736 wetting Methods 0.000 description 5
- 230000015572 biosynthetic process Effects 0.000 description 4
- 230000003247 decreasing effect Effects 0.000 description 4
- 230000008020 evaporation Effects 0.000 description 4
- 239000010408 film Substances 0.000 description 4
- 238000003825 pressing Methods 0.000 description 4
- 230000007423 decrease Effects 0.000 description 3
- 230000003020 moisturizing effect Effects 0.000 description 3
- 238000007639 printing Methods 0.000 description 3
- 230000037303 wrinkles Effects 0.000 description 3
- 238000010521 absorption reaction Methods 0.000 description 2
- 238000009529 body temperature measurement Methods 0.000 description 2
- 238000012937 correction Methods 0.000 description 2
- 239000002657 fibrous material Substances 0.000 description 2
- 238000009499 grossing Methods 0.000 description 2
- 238000004513 sizing Methods 0.000 description 2
- 239000007921 spray Substances 0.000 description 2
- 238000012546 transfer Methods 0.000 description 2
- 238000004804 winding Methods 0.000 description 2
- 229910000831 Steel Inorganic materials 0.000 description 1
- 230000002411 adverse Effects 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 239000007795 chemical reaction product Substances 0.000 description 1
- 230000008878 coupling Effects 0.000 description 1
- 238000010168 coupling process Methods 0.000 description 1
- 238000005859 coupling reaction Methods 0.000 description 1
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- 238000010586 diagram Methods 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002349 favourable effect Effects 0.000 description 1
- 239000012467 final product Substances 0.000 description 1
- 239000011521 glass Substances 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 230000006698 induction Effects 0.000 description 1
- 238000007603 infrared drying Methods 0.000 description 1
- 239000000463 material Substances 0.000 description 1
- 238000000691 measurement method Methods 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 239000003595 mist Substances 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 230000000149 penetrating effect Effects 0.000 description 1
- 239000002861 polymer material Substances 0.000 description 1
- 238000012545 processing Methods 0.000 description 1
- 239000000047 product Substances 0.000 description 1
- 238000003908 quality control method Methods 0.000 description 1
- 239000010959 steel Substances 0.000 description 1
- 239000010409 thin film Substances 0.000 description 1
- 239000002023 wood Substances 0.000 description 1
Images
Classifications
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
- D21F7/00—Other details of machines for making continuous webs of paper
- D21F7/003—Indicating or regulating the moisture content of the layer
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21F—PAPER-MAKING MACHINES; METHODS OF PRODUCING PAPER THEREON
- D21F11/00—Processes for making continuous lengths of paper, or of cardboard, or of wet web for fibre board production, on paper-making machines
-
- D—TEXTILES; PAPER
- D21—PAPER-MAKING; PRODUCTION OF CELLULOSE
- D21G—CALENDERS; ACCESSORIES FOR PAPER-MAKING MACHINES
- D21G1/00—Calenders; Smoothing apparatus
- D21G1/0073—Accessories for calenders
- D21G1/0093—Web conditioning devices
Definitions
- This invention relates to manufacturing if high-gloss high quality magazine paper grades by using on-line calendering.
- on-line calendering the calender is arranged directly after a paper machine or a coater and web is also led directly to the calender.
- This kind of calendered paper grades have previously been produced by off-line calenders and normally two or three calenders have been used for handling paper produced on one production line and the paper has been rolled before calendering. The speed of prior supercalenders has limited their use as on-line calenders.
- All multi-nip calenders comprise several nips formed of soft and hard rolls.
- the outer surface of the soft rolls is made of paper or other tightly pressed fiber material or a suitable polymer material.
- the hard rolls are made of steel, and most of the hard rolls can be heated by oil, water steam or by other means, like electric induction.
- the purpose of the calendering is to increase the smoothness, gloss and other properties of the printing surface of the paper. These improved properties of the printing surface improve the final quality of the printed sheet.
- the printability of paper and the quality of the printed surface are primary quality factors that are valued by the users of paper.
- the smoothing of the paper surface is achieved by simultaneously subjecting the fiber structure to high pressure and heat by heating the hard rolls and pressing the rolls together so that a high linear nip force is created on the nips between the rolls. Under the influence of these forces the fibers forming the paper reach their glass transit temperature, and the deformation caused by the nip load is permanent. Sliding of the paper surface on the surface of the rolls may also cause deformation of the fibers and increase the smoothing effect.
- the paper When multi-nip calendering has been used, the paper has been traditionally produced in a paper machine and subsequently coated if so desired. In both cases the coated or uncoated paper has been rolled on storage rolls and calendered in separate calenders. The paper has been dried to a very low moisture, typically to 1-3% calculated from total weight of the paper. Before calendering, the paper is rewetted up to a higher moisture content required for good calendering results, typically to 6-10% calculated from the total weight of the paper. The reason for drying to very low moisture content is to level out the cross machine (CD) moisture profile. The short storage on storage rolls before calendering also evens out the moisture of the paper on the roll as well as rewetting before calendering. In present on-line calendering concepts, the paper is dried to a very low moisture content before calendering and wetted just before calendering. The process is therefore almost the same as on off-line calendering, only without moisture settling storage.
- the rewetting can be done, for example, with a water spray application units described in the U.S. Patent No. 5,286,348 which is incorporated herein by reference, which describes a rewetting apparatus for providing a good moisture profile in the CD direction.
- the problem associated with drying and subsequent rewetting of the paper is the time needed for paper to absorb the water and the moisture to even out, especially in the direction of the thickness of the paper and over the surface area of the web. If the rewetting is done just before the calendering, the uneven moisture profile will effect the final surface properties of the produced paper, and the quality grading of the paper is lowered. As stated above, the paper rolls have been reeled up after rewetting and transferred to a waiting station for moisture equalization, whereafter the rolls have been brought to off-line calenders for final calendering for producing a high gloss and to densify the surface of the paper.
- the drying and rewetting process adds to energy consumption required for paper making and to the required space compared to a process where there is no rewetting and overdrying before calendering.
- Uneven moisture profile results in uneven gloss and uneven thickness profiles because of the effect of the moisture to the fiber deformability. If the thickness profile is uneven, it results in difficulties in winding and may even cause cross-directional bumps in the customer rolls.
- the CD-bumps decrease the runnability of the paper in printing presses and converting machines and by this way decrease the quality of the material from the customer's point of view.
- the moisture profile effects many factors of the paper making process and properties of the paper.
- One very notable feature is that when moisture profile differences are present in the paper, the dryer parts of the paper start shrinking earlier and they shrink more than the wet parts, which leads to stretching of the wet parts.
- the uneven stretching leads to shrinking of the dry parts and stretching of the wet parts, which further leads to thickness variation, variation in shrinkage and variation of the properties of the paper.
- the moisture profile of the paper that is produced is controlled presently in several ways, especially at the beginning of the web formation.
- the purpose of the control of the moisture profile in present technology is to ensure good runnability of the machine and the product that is produced. This is understandable, since there is a strong relationship between the moisture profile and the tension profile.
- the moisture profile is preferably kept as even as possible in those parts of the manufacturing process where the effect of the tension profile is highest on the runnability.
- the tensions induced into the web by moisture variations and the tension profile do not effect the properties of the final product as such since the tensions have time to relaxate during the waiting or storage time before calendering. Normal waiting time in a modern paper mill producing off-line calendered paper is about 1-5 hours.
- Present moisture control methods do not take into account the requirements of multinip on-line calendering, and therefore the quality of the calendered paper may even be adversely affected by present moisture control procedures.
- US 4 378 639 describes a method for controlling the drying process of a paper or board web wherein the moisture content of the web is measured and the web is wetted if necessary in order to avoid dry streaks.
- EP 0 643 165 also describes a drying process wherein the moisture profile of the web is measured and controlled. The web is finally caelered.
- US 4 823 688 describes a calander wherein a calander roll can be heated inductively. A blow box provides for control of heat profile of the roll.
- the present invention concerns an apparatus comprising: a housing, a nozzle surface forming one side of the housing and being designed to contour a roll, a connection for blowing air into the housing and through the nozzle surface.
- a plurality of bands (5) extend parallel over the nozzle surface and being guided by guiding means and means for moving the bands individually in their longitudinal direction over the nozzle surface so that the area that a band covers can be varied.
- the invention provides, among others, the following benefits.
- the apparatus can be used for compensation of small scale variations of the moisture profile. By other apparatuses it may be difficult to obtain as finely graduated profile control as with this apparatus.
- twin-wire machines the shrinking starts earlier than on single wire machines. On twin-wire machines the starting point is about 55% solids, and on single wire machines, about 65%. On both machine types the cross-directional shrinking continues from the beginning of the shrinking to the end of the drying. The increase of the shrinkage is approximately linear as a fuction of the solids content.
- the presented values are average values, and the wood/fiber material, manufacturing method of the bulk mass and its handling effect the solids content values on which the changes in the morphology happen.
- Levelling the moisture profile before the strong shrinkage of the paper begins means that the measurement and the adjustment of the moisture profile has to be done on the wet pressing zone of the paper machine, and the solids content is about 60% at the highest, depending on the grade that is manufactured. This method is favorable for several reasons. If significant changes in the moisture of the paper are present when it starts to shrink, the dryer parts start to shrink earlier than the wetter parts (see Figure 1). The wet parts stretch in the cross-direction, and the dryer parts shrink and become more dense. This can lead to thickness variation, drying shrinkage variation and variation in the properties of the produced paper. The shrinkage of the paper is situated on the same physical phase as the so-called phase of decreasing evaporation rate.
- Typical for this phase is that the surfaces of the web are almost dry, and the middle part is considerably wetter. In that phase, the surfaces carry most of the forces imposed to the web in the machine direction. If water is added on the web at this stage, the water breaks bonds between the fibers, and that part of the web weakens considerably in relation to its surroundings. Therefore a big shrinkage and stretching area is induced surrounding this area.
- the evenness of the cross-directional properties of the paper formed in the drying stage of the paper are an essential requirement so that the paper can be pressed enough in the calendering stage in the manufacture of, for example on-line calendered SC-paper. If that can not be achieved, and there is essential variation in the thickness, the modulus of elasticity, the drying shrinkage or the density before calendering, that will make the production of large machine rolls difficult. Even more important is that in worst cases the quality of the paper delivered to the customers is decreased.
- adjustment of the moisture profile may be done on bases of following mechanisms: by moisturizing with water or steam, by treating the web with hot or cold air, by infrared dryers, by microwaves or by differentially heatable or coolable cylinders.
- the water and steam handling methods may be called wetting methods and the other methods are based on either increasing the evaporation rate of the water from the web or decreasing it by cooling the web. Examples of suitable apparatuses are presented below.
- the moisture profile control for an area with about 60-85% solids content should be done by methods based on temperature control, like by treating the web with hot or cold air, by infrared dryers, by microwaves or by heatable or coolable cylinders. Wetting methods should not be used on this area because of reasons relating to powerful shrinkage on this area.
- solids content is above about 85%, all methods suitable for use on method A can be used since no significant shrinkage happens.
- This solids content area presents also the solids content of a web that is coated, wherefore for coating machines the same profiling methods may be used. If coated paper is manufactured, it is important that the adjustment of the moisture profile is done at least after the last coating station since the wet coating mixture may change the moisture profile because of varying absorption properties of the base paper, for example.
- FIG. 2 On method for controlling moisture is presented schematically in Figure 2.
- Figure 2 describes a press section of a paper machine and subsequent dryer groups. Dryer groups may consist of drying cylinders, infra red dryers, air dryers or other dryers, or they may be any combination of commonly used dryer types. Dry matter contents (DMC, solids content) in different stages of web formation are presented in the bottom of Figure 2.
- DMC Dry matter contents
- the solids content of a web leaving the press section of a paper machine is about 40-55% and after first dryer group the solids content rises to about 60% and increases gradually as the drying process proceeds.
- the web At positions D and/or E the web may be dried to a solids content so that the moisture content is below that at which the paper is actually used.
- Moisture profiling can be performed at the press section by profiling rolls or by steam.
- the profiling means are controlled with measurement instruments located at position A.
- the measuring method may be a moisture measurement, temperature measurement, tension measurement or other method that indicates the moisture profile of web in the cross-machine direction.
- a very well suited method for measurement and control of different variables in paper making process is disclosed in U.S. Patent No. 5,649,448, which is incorporated herein by reference.
- At positions A and/or B may be a moisture adjusting apparatus used in Method A.
- the adjusting apparatus is controlled by a feed-forward or by a feedback control method or both according to whether the measurement of the moisture profile is done before or after the adjusting apparatus.
- a moisture adjusting apparatus used in Method B may be used.
- the adjusting apparatus is controlled by measurement results as described above.
- the apparatus may be a wetting apparatus like a water or steam application apparatus only if the structure of the paper withstands the operation of the apparatus and the dry matter content is at least about 85%. It is considered that the structure of the paper withstands the use of moisturizing if the amount of water used and the solids content permits the use of the apparatus without consequences described in description of Method A.
- the web may be forwarded to an on-line multi-nip calender or to an on-line coating machine depending on the paper grade that is manufactured.
- the moisture profile must be controlled also during coating, and all adjusting apparatuses may be used, since the solids content of the web is normally higher than about 85% during coating since the web has already been dried to a solids content below that during the formation and drying phases.
- different methods usable for moisture profiling are described. These methods and apparatuses are suitable for moisture adjustment both on paper machine and on coater if the limitations discussed above are taken into account. The methods and apparatuses described below may be used alternatively or simultaneously.
- a profiling steam box controlled by CD profile measurements located after or downstream of, the profiling steam box may be used in the press section of a paper machine.
- the steam box is preferably after the first drying cylinder group and the measurements are preferably moisture profile, tension profile or temperature profile measurements or any combination of these measurements. Since in paper machines quality control and control systems are already monitored by several measurement instruments, all of these measurement methods are easily adaptable to new designs.
- the CD temperature may be controlled either by cooling the web or by heating it.
- the temperature adjustment may be done at at least one of the drying cylinder groups and preferably the last group, to achieve uniform temperature profile in the cross-direction of the web.
- the temperature measurement unit may be located at or after the CD temperature adjustment unit in or between drying cylinder groups or after the last drying cylinder group.
- Moisture profile adjustment may be profiled before the last drying cylinder group by profiling the drying cylinder surface temperatures and/or using profilable infra red drying units to adjust the moisture of the web and/or by using rewetting equipment for profile corrections.
- the temperature and/or moisture profile measurement may be done by instruments located in or after the last drying cylinder group. Since the wetting and heating methods that may be used for moisture profile control may effect the dimension, stability and water absorption properties of the web, cooling of the web provides benefits over those methods since the effects of cooling on the mentioned properties of the web are smaller that those of wetting or heating methods. When cooling is used for profiling, the temperature of the dryer sections of web is decreased, whereby the evaporation decreases. This method minimally effects the properties of the fibers.
- the temperature adjustment may be done in several ways, for example by cooling a drying cylinder sectionally with air or very fine water mist that evaporates from the cylinder without moisturizing the web significantly.
- the effect of water cooling is based on the fact that energy is needed for evaporating the water.
- Profiling by cooling may also be done by blowing cold air from a penetrating discharge air dryer. If profiling is done in several locations successively, the moisture profile can be controlled with minor changes without detrimentally effecting other important properties of the web.
- the web may also be cooled down to the machine temperature or the temperature of the machine housing before a calendering unit to prevent the continuation of drying of the paper between the calender and the last drying equipment. This prevents uneven moisture evaporation from the web before calendering. When the web enters the calender, the preferable moisture content is about 7 to about 20% calculated from the total weight of the web.
- Final moisture profile adjustment may be done also by applying water in the form of a steam spray or a thin film transferred on the paper in calender nip or by a surface sizing unit inside a drying cylinder group or between the last drying cylinder and the calender.
- the CD moisture profile measurement may be located immediately before the calender, or after the calender before the winding unit.
- a film transfer unit or a surface sizing unit may be used for moisture profiling by controlling the thickness of the water film or size of the film applied to the film transfer roll.
- FIGS 3 - 5 show diagramatically a profiling blow box according to the invention.
- This profiling box can be used either for cooling or heating of a web.
- the box comprises a housing 1 that forms a nozzle surface 2 that is designed to contour a roll over which a web is running. Air or steam can be blown into the housing 1 through coupling 3 and the same is blown from the housing 1 through the nozzle surface 2 against the web.
- the nozzle surface 2 comprises an arrangement of movable bands 5 arranged to move between guides or rails 6. One end of the bands is wound around an actuating shaft 7 that is divided into sections so that each band has its own actuating section.
- the actuating section By turning the actuating section it is possible to move the bands between the rails 6 so that they cover different lengths of the area of the nozzle surface. If the bands are narrow, for example about 10 to about 100 mm wide, the apparatus can be used for compensation of small scale variations of the moisture profile. By other apparatuses it may be difficult to obtain as finely graduated profile control as with this apparatus.
- the moisture profile control and adjustment is preferably done by more than one of the above described ways. If several correction steps are used, the need for major adjustments in one step is prevented and the effects on the process and the paper are smaller. Also the control of the apparatus becomes easier.
- the invention may be used for several types of multi-nip calenders that are characterized by multiple calendering nips and relatively high nip loads. Examples of these kind of calenders are supercalenders, Janus concept calenders (see Paper Asia, Oct. 1997, enquiry card No.: 10/007), a calender shown in the U.S. Patent No. 5,438,920 or other types of multinip calenders used for manufacturing high gloss paper grades. Examples of the paper grades suitable for manufacturing according to the invention and their properties are shown in Figure 6, which is self explanotary.
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Abstract
Description
- This invention relates to manufacturing if high-gloss high quality magazine paper grades by using on-line calendering. In on-line calendering, the calender is arranged directly after a paper machine or a coater and web is also led directly to the calender. This kind of calendered paper grades have previously been produced by off-line calenders and normally two or three calenders have been used for handling paper produced on one production line and the paper has been rolled before calendering. The speed of prior supercalenders has limited their use as on-line calenders. However, today's development of modern supercalenders and new multi-nip calenders has made it possible to increase the operational speed of these calenders to the level of the production speed of paper machines and coaters, which has made it possible to use these calenders also in on-line configurations. All multi-nip calenders comprise several nips formed of soft and hard rolls. The outer surface of the soft rolls is made of paper or other tightly pressed fiber material or a suitable polymer material. The hard rolls are made of steel, and most of the hard rolls can be heated by oil, water steam or by other means, like electric induction.
- The purpose of the calendering is to increase the smoothness, gloss and other properties of the printing surface of the paper. These improved properties of the printing surface improve the final quality of the printed sheet. The printability of paper and the quality of the printed surface are primary quality factors that are valued by the users of paper.
- The smoothing of the paper surface is achieved by simultaneously subjecting the fiber structure to high pressure and heat by heating the hard rolls and pressing the rolls together so that a high linear nip force is created on the nips between the rolls. Under the influence of these forces the fibers forming the paper reach their glass transit temperature, and the deformation caused by the nip load is permanent. Sliding of the paper surface on the surface of the rolls may also cause deformation of the fibers and increase the smoothing effect.
- When multi-nip calendering has been used, the paper has been traditionally produced in a paper machine and subsequently coated if so desired. In both cases the coated or uncoated paper has been rolled on storage rolls and calendered in separate calenders. The paper has been dried to a very low moisture, typically to 1-3% calculated from total weight of the paper. Before calendering, the paper is rewetted up to a higher moisture content required for good calendering results, typically to 6-10% calculated from the total weight of the paper. The reason for drying to very low moisture content is to level out the cross machine (CD) moisture profile. The short storage on storage rolls before calendering also evens out the moisture of the paper on the roll as well as rewetting before calendering. In present on-line calendering concepts, the paper is dried to a very low moisture content before calendering and wetted just before calendering. The process is therefore almost the same as on off-line calendering, only without moisture settling storage.
- The rewetting can be done, for example, with a water spray application units described in the U.S. Patent No. 5,286,348 which is incorporated herein by reference, which describes a rewetting apparatus for providing a good moisture profile in the CD direction.
- The problem associated with drying and subsequent rewetting of the paper is the time needed for paper to absorb the water and the moisture to even out, especially in the direction of the thickness of the paper and over the surface area of the web. If the rewetting is done just before the calendering, the uneven moisture profile will effect the final surface properties of the produced paper, and the quality grading of the paper is lowered. As stated above, the paper rolls have been reeled up after rewetting and transferred to a waiting station for moisture equalization, whereafter the rolls have been brought to off-line calenders for final calendering for producing a high gloss and to densify the surface of the paper. In these off-line systems, no need for improvement in moisture control was needed, because traditionally supercalendered paper grades like SCA and LWC were calendered in off-line calenders at lower speeds than the speed of the paper machine and there was enough time for settling of the moisture on the storage rolls.
- The drying and rewetting process adds to energy consumption required for paper making and to the required space compared to a process where there is no rewetting and overdrying before calendering. Uneven moisture profile results in uneven gloss and uneven thickness profiles because of the effect of the moisture to the fiber deformability. If the thickness profile is uneven, it results in difficulties in winding and may even cause cross-directional bumps in the customer rolls. The CD-bumps decrease the runnability of the paper in printing presses and converting machines and by this way decrease the quality of the material from the customer's point of view.
- The moisture profile effects many factors of the paper making process and properties of the paper. One very notable feature is that when moisture profile differences are present in the paper, the dryer parts of the paper start shrinking earlier and they shrink more than the wet parts, which leads to stretching of the wet parts. The uneven stretching leads to shrinking of the dry parts and stretching of the wet parts, which further leads to thickness variation, variation in shrinkage and variation of the properties of the paper. A more detailed description of the effect of the moisture and moisture variations is presented with the detailed description of the invention.
- The moisture profile of the paper that is produced is controlled presently in several ways, especially at the beginning of the web formation. The purpose of the control of the moisture profile in present technology is to ensure good runnability of the machine and the product that is produced. This is understandable, since there is a strong relationship between the moisture profile and the tension profile. In off-line calendering, the moisture profile is preferably kept as even as possible in those parts of the manufacturing process where the effect of the tension profile is highest on the runnability. The tensions induced into the web by moisture variations and the tension profile do not effect the properties of the final product as such since the tensions have time to relaxate during the waiting or storage time before calendering. Normal waiting time in a modern paper mill producing off-line calendered paper is about 1-5 hours. Present moisture control methods do not take into account the requirements of multinip on-line calendering, and therefore the quality of the calendered paper may even be adversely affected by present moisture control procedures.
- US 4 378 639 describes a method for controlling the drying process of a paper or board web wherein the moisture content of the web is measured and the web is wetted if necessary in order to avoid dry streaks. EP 0 643 165 also describes a drying process wherein the moisture profile of the web is measured and controlled. The web is finally calandered. US 4 823 688 describes a calander wherein a calander roll can be heated inductively. A blow box provides for control of heat profile of the roll.
- The present invention concerns an apparatus comprising: a housing, a nozzle surface forming one side of the housing and being designed to contour a roll, a connection for blowing air into the housing and through the nozzle surface. A plurality of bands (5) extend parallel over the nozzle surface and being guided by guiding means and means for moving the bands individually in their longitudinal direction over the nozzle surface so that the area that a band covers can be varied.
- The invention provides, among others, the following benefits. The apparatus can be used for compensation of small scale variations of the moisture profile. By other apparatuses it may be difficult to obtain as finely graduated profile control as with this apparatus.
- Other objects and features of the invention will become apparent from the following detailed description considered in conjunction with the accompanying drawings. It is to be understood, however, that the drawings are intended solely for purposes of illustration and not as a definition of the limits of the invention, for which reference should be made to the appended claims.
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- Figure 1 is a diagram of the effect of the cross machine moisture variation on a web to be produced;
- Figure 2 is a schematic view of the implementation of a moisture control method;
- Figure 3 shows schematically in side view an apparatus according to the invention;
- Figure 4 shows schematically in top view an apparatus according to the invention;
- Figure 5 shows schematically a detail of the apparatus shown in figures 3 and 4; and
- Figure 6 is a chart showing typical paper grades that can be manufactured using the apparatus according to the invention.
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- Present moisture profiling strategies do not take into account the effect of the profiling into the structure of the end product and the further processing potential. The significance of the stresses left in the paper and its possible structural faults is enhanced in an on-line calendering process wherein the stresses do not have time to relax before drying since the calandering is done a few milliseconds after the web leaves the last drying apparatus. In view of the morphology of the fibers, the behavior of the fiber web under drying can be dealt into stages according to the solids content of the web. When the solids content is about 50-55%, the solids content increases without changes in the fiber morphology. As the solids content increases from about 50-55% to about 60-65%, flattening of the fibers starts on the fiber crossing points (linking points) but no changes happen on the surface of the web. When solids content is about 60-65% to about 70-75%, wrinkles that are directed parallel to the longitudinal axis of the fibers start to emerge and the flattening of the fibers continue. On solids contents of about 70-75% to about 80-85%, the fibers start to shrink in the cross-direction on their unlinked parts, flattening of the fibers continues and the longitudinal wrinkles increase. When the solids content rises to about 80-85% to 90%, the fibers start to shrink in the cross-direction also at linked parts, cross-directional shrinking continues, and the wrinkles can be seen clearly. The morphology of the web reaches its final form at solids content of about 90%. The shrinking of single fibers is greatest on solids contents of about 60-85%.
- On twin-wire machines the shrinking starts earlier than on single wire machines. On twin-wire machines the starting point is about 55% solids, and on single wire machines, about 65%. On both machine types the cross-directional shrinking continues from the beginning of the shrinking to the end of the drying. The increase of the shrinkage is approximately linear as a fuction of the solids content. The presented values are average values, and the wood/fiber material, manufacturing method of the bulk mass and its handling effect the solids content values on which the changes in the morphology happen.
- The theory behind the morphology of the fibers provides the following possibilities to control the moisture profile.
- Levelling the moisture profile before the strong shrinkage of the paper begins means that the measurement and the adjustment of the moisture profile has to be done on the wet pressing zone of the paper machine, and the solids content is about 60% at the highest, depending on the grade that is manufactured. This method is favorable for several reasons. If significant changes in the moisture of the paper are present when it starts to shrink, the dryer parts start to shrink earlier than the wetter parts (see Figure 1). The wet parts stretch in the cross-direction, and the dryer parts shrink and become more dense. This can lead to thickness variation, drying shrinkage variation and variation in the properties of the produced paper. The shrinkage of the paper is situated on the same physical phase as the so-called phase of decreasing evaporation rate. Typical for this phase is that the surfaces of the web are almost dry, and the middle part is considerably wetter. In that phase, the surfaces carry most of the forces imposed to the web in the machine direction. If water is added on the web at this stage, the water breaks bonds between the fibers, and that part of the web weakens considerably in relation to its surroundings. Therefore a big shrinkage and stretching area is induced surrounding this area.
- The evenness of the cross-directional properties of the paper formed in the drying stage of the paper are an essential requirement so that the paper can be pressed enough in the calendering stage in the manufacture of, for example on-line calendered SC-paper. If that can not be achieved, and there is essential variation in the thickness, the modulus of elasticity, the drying shrinkage or the density before calendering, that will make the production of large machine rolls difficult. Even more important is that in worst cases the quality of the paper delivered to the customers is decreased.
- On the solids content area, from wet pressing to about 60% solids content, adjustment of the moisture profile may be done on bases of following mechanisms: by moisturizing with water or steam, by treating the web with hot or cold air, by infrared dryers, by microwaves or by differentially heatable or coolable cylinders. The water and steam handling methods may be called wetting methods and the other methods are based on either increasing the evaporation rate of the water from the web or decreasing it by cooling the web. Examples of suitable apparatuses are presented below.
- The moisture profile control for an area with about 60-85% solids content should be done by methods based on temperature control, like by treating the web with hot or cold air, by infrared dryers, by microwaves or by heatable or coolable cylinders. Wetting methods should not be used on this area because of reasons relating to powerful shrinkage on this area.
- If the solids content is above about 85%, all methods suitable for use on method A can be used since no significant shrinkage happens. This solids content area presents also the solids content of a web that is coated, wherefore for coating machines the same profiling methods may be used. If coated paper is manufactured, it is important that the adjustment of the moisture profile is done at least after the last coating station since the wet coating mixture may change the moisture profile because of varying absorption properties of the base paper, for example.
- On method for controlling moisture is presented schematically in Figure 2. Figure 2 describes a press section of a paper machine and subsequent dryer groups. Dryer groups may consist of drying cylinders, infra red dryers, air dryers or other dryers, or they may be any combination of commonly used dryer types. Dry matter contents (DMC, solids content) in different stages of web formation are presented in the bottom of Figure 2. As can be seen in Figure 2, the solids content of a web leaving the press section of a paper machine is about 40-55% and after first dryer group the solids content rises to about 60% and increases gradually as the drying process proceeds. At positions D and/or E the web may be dried to a solids content so that the moisture content is below that at which the paper is actually used.
- Wet pressing after formation of the paper can be done by a conventional press or preferably by a modern shoe press since the shoe press equalizes the small scale moisture variation effectively. Moisture profiling can be performed at the press section by profiling rolls or by steam. In this case, the profiling means are controlled with measurement instruments located at position A. The measuring method may be a moisture measurement, temperature measurement, tension measurement or other method that indicates the moisture profile of web in the cross-machine direction. A very well suited method for measurement and control of different variables in paper making process is disclosed in U.S. Patent No. 5,649,448, which is incorporated herein by reference. At positions A and/or B may be a moisture adjusting apparatus used in Method A. The adjusting apparatus is controlled by a feed-forward or by a feedback control method or both according to whether the measurement of the moisture profile is done before or after the adjusting apparatus. At positions C and/or D, a moisture adjusting apparatus used in Method B may be used. The adjusting apparatus is controlled by measurement results as described above.
- At positions D and/or E may be located an adjustment apparatus according to Method A. The apparatus may be a wetting apparatus like a water or steam application apparatus only if the structure of the paper withstands the operation of the apparatus and the dry matter content is at least about 85%. It is considered that the structure of the paper withstands the use of moisturizing if the amount of water used and the solids content permits the use of the apparatus without consequences described in description of Method A.
- After position E, the web may be forwarded to an on-line multi-nip calender or to an on-line coating machine depending on the paper grade that is manufactured. The moisture profile must be controlled also during coating, and all adjusting apparatuses may be used, since the solids content of the web is normally higher than about 85% during coating since the web has already been dried to a solids content below that during the formation and drying phases. In the following, different methods usable for moisture profiling are described. These methods and apparatuses are suitable for moisture adjustment both on paper machine and on coater if the limitations discussed above are taken into account. The methods and apparatuses described below may be used alternatively or simultaneously.
- A profiling steam box controlled by CD profile measurements located after or downstream of, the profiling steam box may be used in the press section of a paper machine. The steam box is preferably after the first drying cylinder group and the measurements are preferably moisture profile, tension profile or temperature profile measurements or any combination of these measurements. Since in paper machines quality control and control systems are already monitored by several measurement instruments, all of these measurement methods are easily adaptable to new designs. The CD temperature may be controlled either by cooling the web or by heating it. The temperature adjustment may be done at at least one of the drying cylinder groups and preferably the last group, to achieve uniform temperature profile in the cross-direction of the web. The temperature measurement unit may be located at or after the CD temperature adjustment unit in or between drying cylinder groups or after the last drying cylinder group.
- Moisture profile adjustment may be profiled before the last drying cylinder group by profiling the drying cylinder surface temperatures and/or using profilable infra red drying units to adjust the moisture of the web and/or by using rewetting equipment for profile corrections. The temperature and/or moisture profile measurement may be done by instruments located in or after the last drying cylinder group. Since the wetting and heating methods that may be used for moisture profile control may effect the dimension, stability and water absorption properties of the web, cooling of the web provides benefits over those methods since the effects of cooling on the mentioned properties of the web are smaller that those of wetting or heating methods. When cooling is used for profiling, the temperature of the dryer sections of web is decreased, whereby the evaporation decreases. This method minimally effects the properties of the fibers. The temperature adjustment may be done in several ways, for example by cooling a drying cylinder sectionally with air or very fine water mist that evaporates from the cylinder without moisturizing the web significantly. The effect of water cooling is based on the fact that energy is needed for evaporating the water. Profiling by cooling may also be done by blowing cold air from a penetrating discharge air dryer. If profiling is done in several locations successively, the moisture profile can be controlled with minor changes without detrimentally effecting other important properties of the web. The web may also be cooled down to the machine temperature or the temperature of the machine housing before a calendering unit to prevent the continuation of drying of the paper between the calender and the last drying equipment. This prevents uneven moisture evaporation from the web before calendering. When the web enters the calender, the preferable moisture content is about 7 to about 20% calculated from the total weight of the web.
- Final moisture profile adjustment may be done also by applying water in the form of a steam spray or a thin film transferred on the paper in calender nip or by a surface sizing unit inside a drying cylinder group or between the last drying cylinder and the calender. In this case, the CD moisture profile measurement may be located immediately before the calender, or after the calender before the winding unit. A film transfer unit or a surface sizing unit may be used for moisture profiling by controlling the thickness of the water film or size of the film applied to the film transfer roll.
- Figures 3 - 5 show diagramatically a profiling blow box according to the invention. This profiling box can be used either for cooling or heating of a web. The box comprises a
housing 1 that forms anozzle surface 2 that is designed to contour a roll over which a web is running. Air or steam can be blown into thehousing 1 throughcoupling 3 and the same is blown from thehousing 1 through thenozzle surface 2 against the web. Thenozzle surface 2 comprises an arrangement ofmovable bands 5 arranged to move between guides or rails 6. One end of the bands is wound around an actuating shaft 7 that is divided into sections so that each band has its own actuating section. By turning the actuating section it is possible to move the bands between therails 6 so that they cover different lengths of the area of the nozzle surface. If the bands are narrow, for example about 10 to about 100 mm wide, the apparatus can be used for compensation of small scale variations of the moisture profile. By other apparatuses it may be difficult to obtain as finely graduated profile control as with this apparatus. - The moisture profile control and adjustment is preferably done by more than one of the above described ways. If several correction steps are used, the need for major adjustments in one step is prevented and the effects on the process and the paper are smaller. Also the control of the apparatus becomes easier.
- The invention may be used for several types of multi-nip calenders that are characterized by multiple calendering nips and relatively high nip loads. Examples of these kind of calenders are supercalenders, Janus concept calenders (see Paper Asia, Oct. 1997, enquiry card No.: 10/007), a calender shown in the U.S. Patent No. 5,438,920 or other types of multinip calenders used for manufacturing high gloss paper grades. Examples of the paper grades suitable for manufacturing according to the invention and their properties are shown in Figure 6, which is self explanotary.
Claims (1)
- Apparatus for applying air on a web during its manufacture before calendering, the apparatus comprising: a housing (1), a nozzle surface (2) forming one side of the housing (1) and being designed to contour a roll, a connection (3) for blowing air into the housing (1) and through the nozzle surface (2), characterized of a plurality of bands (5) extending parallel over the nozzle surface (2) and being guided by guiding means (6) and means (7) for moving the bands (5) individually in their longitudinal direction over the nozzle surface (2) so that the area that a band (5) covers can be varied.
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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US6598097P | 1997-11-14 | 1997-11-14 | |
US65980P | 1997-11-14 | ||
EP98955601A EP1030945B1 (en) | 1997-11-14 | 1998-11-13 | Method for producing calendered paper |
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EP98955601A Division EP1030945B1 (en) | 1997-11-14 | 1998-11-13 | Method for producing calendered paper |
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EP1482089A1 true EP1482089A1 (en) | 2004-12-01 |
EP1482089B1 EP1482089B1 (en) | 2006-05-24 |
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EP04077484A Expired - Lifetime EP1482089B1 (en) | 1997-11-14 | 1998-11-13 | Apparatus for applying air on a web |
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Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US4823688A (en) * | 1987-08-10 | 1989-04-25 | Beloit Corporation | Calendering apparatus using inductive heating for hot-calendering a paper web |
-
1998
- 1998-11-13 EP EP04077484A patent/EP1482089B1/en not_active Expired - Lifetime
Patent Citations (1)
Publication number | Priority date | Publication date | Assignee | Title |
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US4823688A (en) * | 1987-08-10 | 1989-04-25 | Beloit Corporation | Calendering apparatus using inductive heating for hot-calendering a paper web |
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