Calender hood

Paper making and fiber liberation – Processes and products – Running or indefinite length work forming and/or treating...

Reexamination Certificate

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Details

C034S117000, C100S331000, C162S359100, C162S375000

Reexamination Certificate

active

06207019

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to a method and apparatus for reducing heat losses from the paper sheet in a paper machine to improve calendering of the paper sheet. The invention relates in particular to a hood to reduce heat losses from the paper sheet as it travels from the dryer section through the calender section.
BACKGROUND OF THE INVENTION
Pulp products such as paper and board are manufactured commercially in large scale paper machines. Paper machines generally have a forming section, a press section, a dryer section, a calendering section (or stack) and a take-up reel. The path of the pulp stock through the paper machine from the forming section to the take-up reel is sometimes referred to herein as the paper path.
The forming section comprises endless moving forming fabrics or screens of several well known types (fourdrinier, double wire and cylinder, etc.) onto which a slurry of pulp stock is spread continuously. Water drains from the pulp stock, or is removed under suction, so that a layer of pulp (the “paper sheet”) is formed on the forming fabric or screen.
The paper sheet then passes through the press section, where water is removed mechanically by squeezing the paper sheet between large rotating rolls or cylinders, and the dryer section, where the paper sheet is subjected to evaporative drying to further reduce the water content.
On leaving the dryer section, the paper sheet enters the calender section, usually consisting of one or two calender stacks employing hard steel and/or “soft covered” steel rolls in which the steel roll has been coated with plastic or other elastic material to provide a softer surface.
Calendering decreases thickness, increases the density of the paper and improves the paper finish. The paper sheet is then wound into rolls on the take-up reel.
Conventionally, calendering is performed on a vertical stack of rolls or cylinders, generally made of cast iron and having a hardened smooth surface or, in the case of “soft” nip calendering, one hard roll and one soft covered roll. The rolls extend across the width of the paper machine, which can be up to about 10 meters on modern machines. As the paper sheet passes between two adjacent rolls, the weight of the rolls presses on the paper sheet, changing the thickness, density and finish of the paper sheet. The pressure exerted by the calender rolls can, in some calender stacks, be adjusted and additional load added to some rolls to increase the pressure exerted by the rolls, or the weight relieved for some rolls to reduce the pressure exerted by the rolls.
This calendering process continues as the paper sheet proceeds through additional nips between adjacent rolls. On modern machines, the hard nip calender stack generally comprises four to six rolls, resulting in three to five nips between adjacent rolls. Older paper machines generally include a larger number of calender rolls, often nine. Soft calenders generally have two nips, each nip with one hard and one soft covered roll.
The finish imparted by the calendering process is dependent on a number of factors. The most important of these is the calender type (hard or soft) and then the calender load (the pressure exerted by the calender rolls on the paper sheet), however, high calender loads may create weaknesses in the paper sheet. The temperature of the paper sheet is also an important factor and heated calender rolls have been used for many years to improve the paper finish. Finally, other factors include the calender configuration (including the roll diameter), the speed of the paper sheet through the calender, the pulp type and the moisture content of the paper sheet.
Calender rolls were originally heated using steam heating through a small central bore. However, steam heating is relatively inefficient and has been largely replaced by hot water heating which is the most widely used method today.
There are several practical limitations to the use of heated calender rolls. First, a ten degree rise in the calender hot water temperature only results in about a three degree rise in the temperature of the paper sheet. Second, at water temperatures above 100° C., the hot water system must be pressurized to maintain the water in the liquid phase. At typical hot water temperatures of 125° C., the costs of pressurizing the system are acceptable. However, as the temperature rises further, the cost of building and maintaining a pressurized hot water system becomes unacceptably high. Third, at high temperatures, the surface of the calender roll may be distorted through the “oxbow” effect which results in a non-uniform paper thickness across the machine width.
The temperature of the paper sheet reaches a maximum in the dryer section of the paper machine, where heat is applied, and decreases thereafter due to convection and thermal losses to the ambient air.
The heat losses, and consequent temperature drop, in the paper sheet can be dramatic and the temperature drop, for example, between the dryer section and the calender section, or between two calender stacks, can be more than 20° C., high enough that it is difficult to replace the heat through heating of the calender rolls. For example, on a high speed newsprint machine, temperature readings for the paper sheet were recorded as follows: from the dryer section to the first calender stack, the temperature of the paper sheet dropped from 85° C. to 60° C. The calender rolls in the first calender stack were heated and the temperature of the paper sheet on exiting the first calender stack was 68° C. The temperature drop for the paper sheet from the first calender stack to the second calender stack was from 68° C. to 48° C. The calender rolls in the second calender stack were heated and the sheet exited the second calender stack at a temperature of 60° C.
The actual temperature changes in the paper sheet recorded in any given paper machine will depend on many variables such as the paper sheet composition, speed, thickness and the distance the paper sheet travels between the dryer and the calender section or between the calender stacks, and the ambient air temperature.
SUMMARY OF THE INVENTION
It is an object of this invention to reduce heat loses from the paper sheet in a paper machine as the paper sheet travels from the dryer section through the calender section. More particularly, it is an object of this invention to reduce heat losses from the paper sheet by restricting movement of the ambient air into the region adjacent the paper sheet by the use of a substantially air impervious barrier as a calender hood along the paper path from the dryer section through the calender section.
One aspect of the invention is a calender hood for a paper machine having a dryer section and a calender section, the calender hood comprising a substantially air impervious barrier located near the paper sheet along at least a portion of the path of the paper sheet from the dryer section through the calender section to restrict movement of the ambient air into the region between the calender hood and the surface of the paper sheet.
Another aspect of the invention is a method of reducing heat loss from a paper sheet in a paper machine having a dryer section and a calender section, the method comprising positioning a substantially air impervious barrier as a calender hood near the paper sheet along at least a portion of the path of the paper sheet from the dryer section through the calender section to restrict movement of the ambient air into the region between the calender hood and the surface of the paper sheet.


REFERENCES:
patent: 3124504 (1964-03-01), Mahoney et al.
patent: 4274915 (1981-06-01), Munhri
patent: 4427736 (1984-01-01), Beacom et al.
patent: 4653395 (1987-03-01), Verkasalo
patent: 4718982 (1988-01-01), Swenson et al.
patent: 5392701 (1995-02-01), Schiel
MacDonald et al “PaperMaking and PaperBoard Making” McGraw-Hill, 1970, pp. 456, 460, 462, 463, 564, 565, 567, 568.

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