Process for improving the drainage of cellulosic pulps by...

Paper making and fiber liberation – Processes of chemical liberation – recovery or purification... – Gas – vapor or mist contact

Reexamination Certificate

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C162S100000, C162S190000, C162S208000

Reexamination Certificate

active

06589387

ABSTRACT:

The present invention relates to a process for improving the drainage or dewatering of cellulosic pulps in a paper making machine, a drying machine or the like assembly. The invention also relates to a process for producing a dried cellulosic product from a cellulosic pulp suspension, which process comprises dilution of said pulp with water, feeding the diluted suspension into a web forming dewatering means, and drying to provide a desired cellulosic product, such as paper, board or pulp.
In the production of paper and board, as well as in the production of various other cellulosic products, a cellulosic pulp suspension is produced by various mechanical and chemical treatments of the cellulosic raw material.
In the production of paper or board the cellulosic pulp suspension enters the stock preparation of a paper machine and Generally undergoes beating, after which it is called stock. Through gradual dilution with white water the stock consistency is lowered to about 3-4%. To produce paper with good formation, high strength and high quality, the consistency must be lowered further down to about 0.1-1%, which is done in the short circulation using white water straight from the wire section.
The stock is sprayed out of the head box to a wire, where it is dewatered to a dry solids content of about 20% and then called web. The web is further dewatered in the press section by passing through one or more press nips. In the drying section the web is in contact with hot drying cylinders and the dry solids content is raised to a final 90-98%. The final paper may be rolled up on a roll, and may then be further processed in a winder or in a sheeting machine.
In a pulp mill the cellulosic pulp suspension is similarly directed to stock preparation and fed to a drying machine. The stock is generally screened and diluted with white water in a short circulation to a consistency of about 0.9 to 2%, then fed to through a head box onto a dewatering device such as a wire section. The dewatered web is subsequently pressed, dried and wound or cut into a final product. The dried pulp so produced is either used as an intermediate product for paper formation or to provide finished cellulosic products of various forms.
Irrespective of whether the pulp suspension will form dried pulp or paper or board, the consistency of the pulp suspension being fed to the dewatering means of the product producing assembly is very low, below 2% and often below 1%. The high water content is needed in order to produce a desired end product. However, most of the water in the suspension is drained off immediately after the head box in a dewatering means such as the wire section of a Fourdrinier machine or a twin wire machine.
For instance, in the production of paper the stock consistency in the head box is as low as 0.1-1% and huge amounts of water need to be drained on the wire section. If a paper machine runs at 500 m/min, has a width of 6 m, produces a grammage of 150 g/m
2
and has a stock consistency of 0.5%, the total flow out of the head box is 90000 1/min. 99.5% of that flow is water and most of that has to be removed before the end of the wire section. The drainage must be carried out in a controlled manner not to affect the final cellulosic product negatively.
If the drainage is improved, the producer can make use of that by e.g. increasing the speed or decreasing the concentration in the head box further. The first-mentioned alternative will increase the production and the latter will improve the formation of the web, which is positive for many quality parameters.
There are a number of conventional ways of improving the dewatering, e.g. by adjusting the vacuum under the wire, by using mechanical devices such as foils or by the addition of chemicals aids. However, there is still a need for improving the drainage of cellulosic pulps in the dewatering means of paper and pulp mills and the present invention aims at meeting this need.
It has now been found that treating an aqueous cellulosic pulp suspension with carbon dioxide just prior to its entering the dewatering means surprisingly improves the drainage of the aqueous pulp suspension in a significant way.
Accordingly, the present invention concerns a process for improving drainage of a cellulosic pulp suspension in a web forming dewatering device, comprising treating said pulp suspension and/or the water used for diluting the same with carbon dioxide just prior to said pulp suspension entering said dewatering device, said carbon dioxide being used in an amount sufficient to significantly improve the drainage in said dewatering device.
The pulp suspension to be treated with the carbon dioxide according to the invention may be any stock which has entered the short circulation of a paper making machine in a paper mill or a drying machine in a pulp mill. Said pulp may comprise virgin fibers or recycled fibers or any combination thereof.
For the proper performance of the invention the carbon dioxide should be fed into the pulp suspension at a location close to the dewatering device. In fact, the carbon dioxide addition point should be in the short circulation, after any machine screening and close to the head box.
In the preferred embodiment of the invention the carbon dioxide is fed in the form of gaseous carbon dioxide directly into the flow entering the head box which feeds the suspension into the dewatering device. Feeding of carbon dioxide gas in accordance with the invention into the flow at this very sensitive location of a paper machine surprisingly does not negatively affect the web formation on the subsequent wire section. On the contrary, the feeding of the carbon dioxide provides an immediate and clearly visible improvement in the drainage as the dry line on the wire section, i.e. the boundary between reflecting and non-reflecting regions of the upper surface of the fibre mat, moves back in response to the addition of carbon dioxide.
The carbon dioxide may also be introduced into the water used to dilute the pulp suspension just prior to the head box, such as into the white water in the short circulation of a paper machine or a drying machine.
The amount of carbon dioxide introduced into the flow according to the invention should not exceed the amount capable of dissolving in said flow. The amount of carbon dioxide introduced into a pulp suspension just prior to a dewatering device should be about 0.5 to 5 kg CO
2
/ton paper or pulp, preferably about 1 to 3 kg CO
2
/ton paper or pulp.
The carbon dioxide may be added in the form of liquid or solid carbon dioxide or as carbon dioxide dissolved in a liquid. However, addition in gaseous form is considered the preferred form. Gaseous carbon dioxide is easy to distribute uniformly into the liquid flow and it has not been found to provide eddies or turbulence in the flow.
The mechanism by which the carbon dioxide added in accordance with the invention performs its beneficial action on the drainage of the water from the cellulosic pulp is not known. However, the effect of the added carbon dioxide is clearly visible and reproducible, as described above.
Carbon dioxide has previously been used in paper making for improving the washing of pulp as described in EP Patent 0 296 198 (AGA Aktiebolag). Here the carbon dioxide is added to washing water or in a washing device in an amount which lowers the pH of the pulp and improves the washing-out of substances which contribute to chemical oxygen demand (COD).
Carbon dioxide has also been used in the sizing of an aqueous pulp with alkylketene dimers to provide bicarbonate ions required to catalyze the reaction between the sizing agent and the cellulose, as disclosed in EP Patent application 0 572 304 (Canadian Liquid Air Ltd).
Finally, carbon dioxide has been used to regulate the pH of a pulp suspension which is to be fibrilated in a refiner, as disclosed in EP Patent 0 281 273 (The BOC Group, Inc.). According to said Patent gaseous carbon dioxide is introduced into an alkaline cellulosic pulp upstream of the fibrilation step. The carbon dioxide feed is regulated to provi

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