CA2079730A1 - Process for improving delignification selectivity of a chemical papermaking pulp - Google Patents

Abstract

Method for improving the selectivity of the delignification of a chemical paper pulp Method for improving the selectivity of the delignification of a chemical paper pulp by means of an organic peroxyacid according to which the unbleached pulp is treated from the cooking operation with an aqueous solution of this organic peroxyacid and the treatment is carried out at a temperature between 2 and 47.degree. C. No figure.

Description

Process for improving the selectivity of the delignification of a chemical pulp The invention relates to a method of delignification of a chemical pulp. It particularly concerns a process to improve the selectivity of such an operation delignification It is known to treat unbleached chemical pulp obtained by cooking cellulosic materials in the presence of chemical reagents through a sequence of processing steps lignifying and whitening involving the implementation of oxidizing chemicals. The first step in a sequence classic whitening of chemical paste has the ob ~ ective of complete the delignification of the unbleached dough as it is pr ~ Jente after ~ the cooking operation. This first step d ~ lignlflante e ~ t traditionally made by kneading the dough unbleached by chlorine in an acid medium or by an association of chlorine ~ chlorine dioxide, mixed or in sequence, so as to react with the residual lignin from the dough and give nals ~ ance ~ des chlorolignins which can be extracted from the pulp by solubl-llsatlon of these chlorolignins in alkaline mill in one step further processing.
For various reasons, it proves useful, in certain sltuatlons, louse ~ oir replace this first step relllllli-flourishes with a treatment that no longer requires a reagent chlor ~.
It has already been proposed to treat chemical pasta with a first step ~ peracetlque acid at higher temperatures laughing at 50 C and pH between 3 and 9 ~ Bailey C. ~. and Dence CW, ~ Peroxyacetic Acid Bleaching of Chemical Pulpsn, Tappi, January 1966, Vol. 49, No. 1, pages 9 to 15). In this known process, it appears however that the acid treatment peracetic gives rise to pastes of viscosity and properties - -: -.
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mechanical not as good as pasta delignified by a stage traditional chlorine in an acid medium as a result of selective lower delignification rate which results in more marked attack on the cellulose chains.
The inventlon aims to remedy the drawbacks of the processes known by providing a process which achieves delignification efficiency of unbleached chemical pulp with selectivity which allows the production of pasta with high intrinsic qualities.
To this end, the invention relates to a method for improving ration of the selectivity of the delignification of a dough chemical paper using an organic peroxyacid that we treat the raw p ~ te from the cooking operation by an aqueous solution of this organic peroxyacid at a temperature ture between 2 and 47 C
According to the invention, by chemical paper pulp is meant designate the pasta which has undergone a treatment which is de presence of chemical reagents such as sodium sulfide in alkaline ml (kraft or sulphate cooking), anhytride sulfurous or a metal salt of the sulphurous scide in the middle acid (sulphite cooking). Seml-chemical pastes such as those where cooking has been re-carried out using an acid salt sulfurous in neutral medium (neutral sulfite culsson still called NSSC cooking) or those obtained by treatment with cold caustic soda followed by mechanical defibration can also be bleached and / or delignified by the process according to the invention This ~ 'particularly addresses pasta that has undergone kraft cooking and the residual lignin content after cooking is in the range of kappa indices between 8 and 40 (or even having a permanganate number between 5 and 30) according to the type of wood species from which they come and the effectiveness of the cooking process. All types of wood used for the production of chemical pulps suitable for the implementation of the inventlon process and, in particular those used for kraft pulp, namely softwood .
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like, for example, the various species of pine and fir and hardwoods such as, for example, eucalyptus, beech, oak and charm.
According to the invention, the organic peroxyacid is selected among the aliphatic carboxylic peroxyacids comprising a only percarboxylic group and a saturated alkyl chain linear or branched with less than 11 carbon atoms. The saturated alkyl aliphatic carboxylic peroxyacids linear with less than 6 carbon atoms are preferred.
Examples of such peroxyacids are performic acid, peracetic acid, perpropano acid ~ than, acid n-perbutano ~ que and acid n-perpentano ~ que. Peracetic acid is particularly preferred because of its effectiveness and its good biodegradable properties.
In a variant of the process according to the invention, the peroxy-organic acid is selected from diperoxyacids carboxylic comprising a linear or branched alkyl chain of less than 16 carbon atoms and two percarboxy groups-substituted liques on carbon atoms located in position alpha-omega relative to each other. Examples of such peroxyacids are 1,6-diperoxyhexanedioYque acid, the acid 1,8-diperoxyoctanedio ~ que and the acid l, 10-diperoxydécanedio ~ que, and acid 1,12-diperoxydodécanedio ~ que.
In another variant of the method according to the invention, the organic peroxyacid is selected from peroxyacids aromatics comprising at least one percarboxyllic group by benzene nucleus. Preferably, we will choose the peroxyacldes aromatic which contain only one percarboxy group-benzene nucleus An example of such an acid is peroxybenzo acid ~ that.
Another variant of the process according to the invention consists in choose an organic peroxyacid substituted by one or more halogen atoms or any other functional substituent organic. By any other organic functional substituent, intends to designate a functional group such as the group carbonyl (ketone, aldehyde or carboxylic acid), the group . ,. ... . ... - ~ ~.

_ 4 _ 2 ~ 79730 alcohol, nitrogen-containing groups such as nitrile, nitro, amine and amide groups, the groups containing sulfur such as the sulfo and mercapto groups.
The peroxyacid can equally be used at ~ state of an aqueous solution of peroxyacid or in the form of an ammonium, alkali metal or alkali metal salt earthy of this peroxyacid.
Preferably, treatment with organic peroxyacid takes place at a temperature between 35 and 45 C.
Generally, the treatment is carried out with peroxyacid organic ~ atmospheric pressure. The duration of this tralement depends on the temperature and the type of wood used prepare the dough, as well as the effectiveness of the cooking which has preceded. Duration from ~ 120 minutes to about 240 minutes agree well, and it is even possible to exceed this limit of approximately 100% without risk of substantial degradation mechanical strength properties of the dough. When the treatment temperature is high, ie greater than 45 C, it is possible to use shorter durations ~
compressed between about 45 minutes to about 120 minutes. The treatment according to the invention can be applied in any type of equipment suitable for the pulping of paper pulp means of acid reactants ~. The ecru dough retentlon tank present in all bleaching facilities and ~ ouant the role of reservolr buffer between the wood cooking unit and the pulp bleaching unit is particularly suitable for carrying out the method according to the invention. The dough can ain ~ iy be treated during storage without requiring the investment of an expensive speciflque device. The faculty of be able to safely exceed the normal duration of treatment is particularly well suited to the role of storage buffer for the retention tank.
The consistency of the peroxyacid treatment step organic will generally be chosen between 2 and 40% of materials dry and, most often, between 10 and 40 X. We prefer high consistencies, for example those between 20 and 40 X.

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In the process according to the invention, the amount of peroxy-organic acid used is chosen according to the rate of residual lignin in the dough as well as the average duration of the treatment. Generally, amounts between 0.5 and 4 ~ by weight of peroxyacid relative to the dry paste agree well. Most often, a quantity of peroxyacids not exceeding 3 X by weight relative to the paste dry and higher ~ 1 X this weight.
Alternatively, it may be interesting to precede the treatment with organic peroxyacid by a step of decontaminating pretreatment with an aqueous solution acid. The purpose of this step is to extract the dough from the impurities ~ s pre ~ ent in the form of ~ metal ions which are void for the proper conduct of laundering operations and / or delignification. All inorganic or organic acids used ~ s in aqueous solution, alone or mixed are suitable.
Strong inorganic acids such as, for example, acid sulfuric or hydrochloric acid are suitable blen.
It is advantageous that the acid decontaminating pretreatment is also carried out in the presence of an ion complexing agent metallic. To this end, mixtures of strong acids inorganic mentioned above with organic acids of the class of aminopolycarboxylic acids or amnnopoly-phosphonic or their alkali metal salts are suitable particularly well. Examples of amino-poly acids suitable carboxylic acids are diethylenetriaminepenta-acetic, ethylenediaminetetraacetic acid, cyclo-acid hexanediaminetetraacetic and nitrilotriacetic acid.
Diethylenetriaminepentaacetic acid (DTPA) is preferred. Of examples of aminopolyphosphonic acids are diethylene acid-triaminepentamethylenephosphonic ~ GTMPA), ethylene acid-dlaminetetra (methylenephosphonic), cyclohexanediamine acid-t ~ tramethylenephosphonic acid (CDTMPA) and nitrilotri acid (methylenephosphonic). DT ~ PA is preferred.
The operating conditions of the decontaminating pretreatment acid are not critical. They must be determined in .-. ........,: -::.

',:', '', '',:,. . '' -each particular case depending on the type of pulp and the apparatus in which the treatment is carried out. Of a in general, the choice of acid and the quantity used to impose in the middle a p ~ less than 7, for example between approximately 1 and approximately 6.5. De3 pH
especially advantageous are those between about 2.0 and about 5.0. Temperature and pressure are not critical, ambient temperature and atmospheric pressure generally well suited. The duration of the pretreatment can vary widely depending on the type of equipment used, the choice of acid, temperature and pressure, by example from about 15 minutes to several hours.
You can also replace the decontaminating pretreatment by incorporation in the peroxyacid delignification stage itself of one or more complexing agents of metal ions-liques. The latter are chosen from the same agents complexing agents than those described above for the decontaminating treatment.
In another variant of the process according to the inventlon, it is can, if you wish to obtain high levels of whiteness, follow the treatment with a peroxyacid by a sequence traditional bleaching steps, whether or not involving chlorinated reagents. Examples of such steps are:
sulvantes: steps with gaseous oxygen or ozone, steps with alkaline hydrogen peroxide in the presence or absence of gaseous oxygen, chlorine dioxide or sodium hypochlorite steps, alkaline extractions with caustic soda.
The following examples are given for the purpose of illustrating the invention, without limiting its scope ~
Examples:
The measurements carried out in the examples described below were carried out according to the following standards:
- Kappa index ~ TAPPI Method T236, CH85.
- Viscosity: TAPPI Method T230, OH89 A sample of Ponderosa pine kraft paste kappa index of 28.4 and viscosity of 32.1 mPs was subjected to a step of .
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delignification using an aqueous acid solution peracetic followed by an alkaline extraction step in the presence hydrogen peroxide (Paa Ep sequence).
Four tests were carried out, two under the conditions of temperature and duration of the prior art, noted examples 1R and 2R, and two under the conditions of the invention (noted examples 3 and 4). Example lR, unlike the other three examples, did not not involve washing the dough with water between the peracetic acid treatment and the extraction step alkaline. The hydrogen peroxide present in the step alkaline extraction of example lR also comes from residual hydrogen peroxide from the peracetic acid stage which preceded. In Example 4, according to the invention, we have made precede the step with peracetic acid with an acid pretreatment using diethylenetriaminepentaacetic acid or DrPA
(step Q).
In each of these tests, 2.0 g of acid was used peracetic per 100 g of dry dough. Peracetic acid employee ~ was a commercial grade aqueous solution and content of hydrogen peroxide at equilibrium with acid peracétlque (2.6 g of ~ 202 per 100 g of dry paste).
The operating conditions and the results obtained are shown to the table qul sult.

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~ x. Chemical reagents step, X Duration Temp- Viscosity Index.
No min ture kappa mPs PM N22 NaOd DTPA C

lR Paa 2.0 2.6 60 7,024.0 _ ~ p 2.0 S, 4 60 6017.8 19.5 2R Paa 2.0 2.6 60 7,024.0 Bp. 0.5 3.0 60 7,516.5 19.4 3 Paa 2.0 2.6 240 3,822.9 Bp 0.5 3.0 60 7,516.4 24.4 _ 4 ~ 0.315 45 Paa 2.0 2.6 120 4,525.3 _ P _ 0.5 2.0 60 7,515.2 29.3 Compared to unbleached pulp, the results of d ~ lignifi-cation and viscosity loss after the extraction step alkaline are:

Example Delignification, Z Loss of viscosity ~,%

lR 37.3 39.2 2R 41.9 39.6 3 42.2 24.0 4 46.5 8.7 . . -. . :. .
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Claims (10)

1 - Process for improving the selectivity of the delignification of a chemical pulp using a organic peroxyacid according to which the unbleached pulp is treated from the cooking operation with an aqueous solution of this organic peroxyacid, characterized in that the treatment at a temperature between 2 and 47 ° C. 2 - Method according to claim 1, characterized in that the temperature of the organic peroxyacid treatment is between 35 and 45 ° C. 3 - Method according to claim 1 or 2, characterized in that that the organic peroxyacid is selected from the peroxy-aliphatic carboxylic acids having only one group percarboxylic and a linear or branched saturated alkyl chain of less than 11 carbon atoms. 4 - Method according to claim 1 or 2, characterized in that that the organic peroxyacid is selected from the diperoxy-carboxylic acids having a linear alkyl chain or branched with less than 16 carbon atoms and two groups percarboxylic substituted on carbon atoms located in alpha-omega position relative to each other. 5 - Method according to claim 1 or 2, characterized in that that the organic peroxyacid is selected from the peroxy-aromatic acids having a percarboxylic group by benzene nucleus. 6 - Method according to any one of claims 1 to 5, characterized in that the organic peroxyacid is used in the form of one of its ammonium, alkali metal or alkaline earth metal. 7 - Method according to any one of claims 1 to 6, characterized in that it is used in the tank retention of the unbleached pulp which feeds the bleaching unit. 8 - Method according to any one of claims 1 to 7, characterized in that treatment is preceded by organic peroxyacid by a decontamination pretreatment step undermining with an acidic aqueous solution. 9 - Method according to claim 8, characterized in that the acidic aqueous solution contains at least one compound sequestering metal ions. 10 - Process according to any one of claims 1 to 7, characterized in that the peroxy treatment is incorporated acid a compound that sequesters metal ions.