EP0578305B1 - Process of delignification of a chemical pulp - Google Patents

Process of delignification of a chemical pulp Download PDF

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Publication number
EP0578305B1
EP0578305B1 EP93201887A EP93201887A EP0578305B1 EP 0578305 B1 EP0578305 B1 EP 0578305B1 EP 93201887 A EP93201887 A EP 93201887A EP 93201887 A EP93201887 A EP 93201887A EP 0578305 B1 EP0578305 B1 EP 0578305B1
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EP
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Prior art keywords
acid
peroxyacid
process according
treatment
delignification
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German (de)
French (fr)
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EP0578305A1 (en
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Johan Devenyns
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Solvay Chimie SA
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Solvay Interox SA
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    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21CPRODUCTION OF CELLULOSE BY REMOVING NON-CELLULOSE SUBSTANCES FROM CELLULOSE-CONTAINING MATERIALS; REGENERATION OF PULPING LIQUORS; APPARATUS THEREFOR
    • D21C9/00After-treatment of cellulose pulp, e.g. of wood pulp, or cotton linters ; Treatment of dilute or dewatered pulp or process improvement taking place after obtaining the raw cellulosic material and not provided for elsewhere
    • D21C9/10Bleaching ; Apparatus therefor
    • D21C9/16Bleaching ; Apparatus therefor with per compounds
    • D21C9/166Bleaching ; Apparatus therefor with per compounds with peracids
    • DTEXTILES; PAPER
    • D21PAPER-MAKING; PRODUCTION OF CELLULOSE
    • D21CPRODUCTION OF CELLULOSE BY REMOVING NON-CELLULOSE SUBSTANCES FROM CELLULOSE-CONTAINING MATERIALS; REGENERATION OF PULPING LIQUORS; APPARATUS THEREFOR
    • D21C9/00After-treatment of cellulose pulp, e.g. of wood pulp, or cotton linters ; Treatment of dilute or dewatered pulp or process improvement taking place after obtaining the raw cellulosic material and not provided for elsewhere
    • D21C9/10Bleaching ; Apparatus therefor
    • D21C9/1026Other features in bleaching processes
    • D21C9/1042Use of chelating agents

Definitions

  • the invention relates to a method of delignification of a chemical paper pulp.
  • This first step delignifying is traditionally carried out by treating the dough unbleached by chlorine in an acid medium or by a chlorine association - chlorine dioxide, in mixture or in sequence, so as to cause a reaction with the residual lignin in the pulp and give rise to chlorolignins which can be extracted of the paste by solubilization of these chlorolignins in the medium alkaline in a subsequent processing step.
  • the invention aims to remedy the drawbacks of the methods known by providing a process which achieves delignification effective unbleached chemical pulp which allows obtaining pasta with high intrinsic qualities in a wide temperature range.
  • the invention relates to a method for improving the selectivity of the delignification of a dough chemical paper using an organic peroxyacid that treating the unbleached dough from the cooking operation by an aqueous solution of this organic peroxyacid in the presence of a stabilizer of said peroxyacid comprising at least one compound selected from the class of phosphonic acids and their salts, the pH of the aqueous peroxyacid solution in contact with the dough being acidic and preferably from 3.5 to 6.5.
  • chemical paper pulp the pulp which has already undergone a delignifying treatment in the presence of chemical reagents such as sodium sulfide in alkaline medium (kraft or sulfate cooking), sulfur dioxide or a metallic salt of sulfurous acid in an acid medium (cooking with sulfite or bisulfite).
  • chemical reagents such as sodium sulfide in alkaline medium (kraft or sulfate cooking), sulfur dioxide or a metallic salt of sulfurous acid in an acid medium (cooking with sulfite or bisulfite).
  • pulps called in the literature "semi-chemical pulps” such as those where the cooking was carried out using a salt of sulfurous acid in neutral medium (cooking with neutral sulfite, also called NSSC cooking), as well as the pastes obtained by processes using solvents, such as the ORGANOSOLV, ALCELL (R) , ORGANOCELL (R) and ASAM pastes described in Ullmann's Encyclopedia of Industrial Chemistry , 5th Edition, Vol A18, 1991, pages 568 and 569.
  • solvents such as the ORGANOSOLV, ALCELL (R) , ORGANOCELL (R) and ASAM pastes described in Ullmann's Encyclopedia of Industrial Chemistry , 5th Edition, Vol A18, 1991, pages 568 and 569.
  • the invention is particularly intended for pasta which has undergone kraft cooking.
  • All types of wood used for production of chemical pulps suitable for processing of the process of the invention and, in particular those used for kraft pulp, i.e. softwood such as, for example, various species of pines and firs and deciduous woods such as, for example, beech, oak, eucalyptus and charm.
  • the peroxyacid organic is usually selected from acid performique and aliphatic carboxylic peroxyacids comprising a single percarboxylic group and a chain saturated linear or branched alkyl of less than 11 atoms carbon. Chain aliphatic carboxylic peroxyacids linear saturated alkyl with less than 6 carbon atoms are preferred. Examples of such peroxyacids are acid peracetic, perpropanoic acid, n-perbutanoic acid and n-perpentanoic acid. Peracetic acid is particularly preferred because of its efficiency and relative simplicity of its preparation methods.
  • the peroxyacid organic is selected from diperoxycarboxylic acids comprising a linear or branched alkyl chain of less than 16 carbon atoms and two percarboxylic groups substituted on carbon atoms located in position alpha-omega relative to each other.
  • diperoxycarboxylic acids comprising a linear or branched alkyl chain of less than 16 carbon atoms and two percarboxylic groups substituted on carbon atoms located in position alpha-omega relative to each other.
  • Examples of such peroxyacids are 1,6-diperoxyhexanedioic acid, acid 1,8-diperoxyoctanedioic acid and 1,10-diperoxydecanedioic acid, and 1,12-diperoxydodecanedioic acid.
  • the organic peroxyacid is selected from peroxyacids aromatics comprising at least one percarboxylic group by benzene nucleus.
  • peroxyacids aromatics which have only one percarboxylic group by benzene nucleus.
  • An example of such an acid is acid peroxybenzoic.
  • 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.
  • any other organic functional substituent intends to designate a functional group such as the group carbonyl (ketone, aldehyde or carboxylic acid), the group 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 used can be an aqueous solution commercial comprising at least 10% by weight of peroxyacid, equilibrium with at least 12% by weight of organic acid corresponding and at least 1.5% by weight of hydrogen peroxide most often in the presence of a small amount of catalyst in the form of at least 0.3% by weight of a strong acid, usually an inorganic acid.
  • An example of composition commercial organic peroxyacid which is well suited is a concentrated aqueous solution of peracetic acid comprising about 34% by weight of peracetic acid, about 44% by weight acetic acid, about 5% by weight of hydrogen peroxide and about 1% by weight of sulfuric acid.
  • the peroxyacid can indifferently be used at the state of an aqueous solution of peroxyacid or in the form an ammonium, alkali metal, or alkaline earth metal salt of this peroxyacid.
  • the peroxyacid treatment according to the invention can take place over a wide range of temperatures.
  • the process according to the invention is particularly well suitable for the use of high temperatures, i.e. at least minus 50 ° C and preferably at least 75 ° C.
  • the treatment is carried out with peroxyacid organic at atmospheric pressure.
  • the duration of this treatment depends on the temperature and the type of wood used prepare the dough, as well as the efficiency of the baking which has preceded. Duration between approximately 120 minutes and about 360 minutes is fine.
  • the pH of the treatment stage with peroxyacid is in the acid pH range. In practice, we prefer to fix the pH at a value of at least 3.5. It will also be most often not to exceed a pH value of 6.5.
  • the treatment according to the invention can be done in any type of suitable equipment for the treatment of paper pulp using acid reagents.
  • the retention tank for the unbleached dough present in all bleaching and playing facilities the role of buffer tank between the wood cooking unit and the dough bleaching unit is particularly suitable for carrying out the method according to the invention.
  • the dough can thus be treated there during its storage without requiring the investment of an expensive specific device.
  • the consistency of the dough in the processing step with the organic peroxyacid will generally be chosen to be at least 5% of dry matter and preferably at least 10% matter dry. Most often, the consistency will not exceed 40% of dry matter and preferably not 30%.
  • the amount of peroxyacid organic used is chosen according to the rate of residual lignin in the dough as well as the average duration of the treatment. Generally, amounts of at least 0.1% and, of preferably at least 1% by weight of peroxyacid relative to dry dough is fine. Most often, we will use a quantity of peroxyacid not exceeding 10% by weight per compared to dry dough and preferably not more than 5% of this weight.
  • the stabilizer used belongs to the class of phosphonic acids and their salts.
  • it will be selected from 1-hydroxyethylidene-1,1-diphosphonic acid (HEDPA), ethylenediaminetetra acid (methylenephosphonic) (EDTMPA), diethylenetriaminepenta acid (methylenephosphonic) (DTMPA), triethylenetetraminehexa acid (methylenephosphonic) (TTHMPA), acid pentaethylenehexamineocta (methylenephosphonic) (PHOMPA), cyclohexanediaminetetra (methylenephosphonic acid) (CDTMPA) and nitrilotri (methylenephosphonic) acid (NTMPA).
  • HEDPA 1-hydroxyethylidene-1,1-diphosphonic acid
  • EDTMPA ethylenediaminetetra acid
  • DTMPA diethylenetriaminepenta acid
  • TTHMPA triethylenetetraminehexa acid
  • PHOMPA acid pentaethylenehexamineo
  • the total amounts of stabilizer to be used depend on the type of wood and the cooking process used. In as a general rule, it is recommended to implement a amount of stabilizer of at least 0.05% by weight relative to the dry matter and preferably at least 0.2% by weight. Amounts of stabilizer not exceeding 3% by weight per dry matter and preferably not more than 2% by weight are generally sufficient.
  • Treatment with organic peroxyacid according to the invention can also be performed in the presence of several stabilizers comprising at least one phosphonic acid or one of its salts and / or sodium silicate. It can also be interesting to associate with at least one phosphonic acid and / or with the silicate of sodium a water-soluble magnesium salt such as sulphate magnesium.
  • washing or pretreatment acid decontaminant is also carried out in the presence of an agent complexing metal ions.
  • mixtures of strong inorganic acids mentioned above with acids organic from the class of aminopolycarboxylic acids or aminopolyphosphonic acid or their alkali metal salts are particularly suitable.
  • acids suitable aminopolycarboxylics are diethylenetriaminepentaacetic acid, ethylenediaminetetraacetic acid (EDTA), cyclohexanediaminetetraacetic acid (CDTA) and acid nitrilotriacetic (NTA).
  • Diethylenetriaminepentaacetic acid (DTPA) is preferred.
  • aminopolyphosphonic acids are diethylenetriaminepenta (methylenephosphonic acid) (DTMPA), ethylenediaminetetra acid (methylenephosphonic) (EDTMPA), cyclohexanediaminetetra acid (methylenephosphonic) (CDTMPA) and nitrilotri acid (methylenephosphonic). DTMPA is preferred.
  • DTMPA diethylenetriaminepenta
  • EDTMPA ethylenediaminetetra acid
  • CDTMPA cyclohexanediaminetetra acid
  • nitrilotri acid methylenephosphonic
  • DTMPA is preferred.
  • the amounts of complexing agent to be used depend on the effectiveness of the complexing agent selected and the metal content of the pulp to be treated. In practice, we put generally at least 0.01% by weight of agent complexing compared to dry dough and, more often, to minus 0.05%. Similarly, we generally do not exceed 1% in weight of complexing agent relative to the dry paste and, most often not 0.25%.
  • 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 on the medium a pH below 7, for example between approximately 1 and approximately 6.5. PH especially advantageous are those between about 3.0 and about 6.0. Temperature and pressure are not critical, ambient temperature and atmospheric pressure suitable generally fine. The duration of the pretreatment can vary within large proportions depending on the type of equipment used, the choice acid, temperature and pressure, for example from About 15 minutes to several hours.
  • delignification by means of chemical reagents we mean both reagents non-oxidizing agents such as an alkaline reagent such as hydroxide or sodium, magnesium or calcium carbonate as reactants oxidizers in an acid medium such as chlorine, dioxide chlorine, ozone, an inorganic peroxyacid such as acid peroxymonosulfuric, hydrogen peroxide in an acid medium, and oxidizing reagents in an alkaline medium such as peroxide of hydrogen in an alkaline medium, sodium hypochlorite or calcium, molecular oxygen or ozone. It is also possible to combine two or more in a single treatment step of these reagents.
  • this step with hydrogen peroxide in an alkaline medium can advantageously be done using hydrogen peroxide which generally accompanies peroxyacid: after treatment with the peroxyacid, an alkali is added to the paste and then proceeds with bleaching with hydrogen peroxide, without perform intermediate washing between steps with peroxyacid and alkaline hydrogen peroxide. If necessary, we will do supplementing with additional hydrogen peroxide so as to reach the total quantity required to achieve a effective whitening.
  • the process according to the invention applies to the delignification and bleaching of all types of dough chemical. It is well suited for delignifying and blanching pasta kraft and sulfite pastes. It is particularly good suitable for processing kraft pasta.
  • a sample of baked hardwood pulp kraft (initial whiteness 33.7 ° ISO measured according to the standard ISO 2470, kappa index 12.4 measured according to the SCAN C1-59 standard and degree of polymerization 1370 expressed in number of units glucose and measured according to SCAN C15-62) has been delignified by means of a two-step sequence comprising a first step with peracetic acid (Paa) and a second step alkaline extraction with sodium hydroxide. The dough has been washed with demineralized water between the two stages.
  • Paa peracetic acid
  • the peracetic acid used was an equilibrium aqueous solution containing 240 g / l of CH 3 CO 3 H, 420 g / l of CH 3 COOH, 100 g / l of H 2 O 2 and 7 g / l of H 2 SO 4 .
  • the treated dough was made whiteness, kappa index and degree of determination polymerization.
  • stage E peracetic acid stage
  • stage E stage with Na hydroxide
  • Examples 1R and 2R were reproduced, replacing the stabilizer DTPA or EDTA with 0.5 g of the heptasodium salt of diethylenetriaminepenta (methylenephosphonic acid) (DTMPNa 7 ) per 100 g of dry paste.
  • DTMPNa 7 diethylenetriaminepenta
  • a softwood pulp having undergone kraft cooking with a whiteness of 30.5 ° ISO, a kappa index of 26.7 and a degree of polymerization of 1510 was bleached using a sequence completely free of chlorine reagents in 4 steps 0 QP Paa under the following operating conditions: 1st stage: oxygen stage (0) pressure, bar 5.5 NaOH content, g / 100 g dry paste 4.0 MgSO 4 .7H 2 O content, g / 100 g dry paste 0.5 temperature, degrees C 120 duration, min 60 consistency,% by weight of dry matter 14 2nd stage: stage with a sequestering acid DTPA content 40%, g / 100 g of dry paste 0.5 H 2 SO 4 for initial pH of 5.00 temperature, degrees C 55 duration, min 30 consistency,% by weight of dry matter 4.0 3rd stage: H 2 O 2 stage (P) H 2 O 2 content , g / 100 g of dry paste 2.0 NaOH content, g / 100 g of dry paste 1.5 temperature, degrees C
  • a sample of kraft softwood pulp (initial whiteness 30.5 ° ISO measured according to ISO 2470, kappa index 26.7 measured according to standard SCAN C1-59 and degree of polymerization 1510 expressed in number of glucose units and measured according to the standard SCAN C15-62) has been delignified using a two-part sequence stages comprising a first stage with peracetic acid (Paa) and a second stage of alkaline extraction with sodium hydroxide. The dough was washed with demineralized water between the two stages.
  • Paa peracetic acid
  • the peracetic acid used was an equilibrium aqueous solution containing 240 g / l of CH 3 CO 3 H, 420 g / l of CH 3 COOH, 100 g / l of H 2 O 2 and 7 g / l of H 2 SO 4 .
  • the treated dough was made whiteness, kappa index and degree of polymerization determinations.

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Description

L'invention concerne un procédé de délignification d'une pâte à papier chimique.The invention relates to a method of delignification of a chemical paper pulp.

Il est connu d'appliquer aux pâtes à papier chimiques écrues obtenues par cuisson de matières cellulosiques en présence de réactifs chimiques une séquence d'étapes de traitement délignifiant et blanchissant impliquant la mise en oeuvre de produits chimiques oxydants. La première étape d'une séquence classique de blanchiment de pâte chimique a pour objectif de parfaire la délignification de la pâte écrue telle qu'elle se présente après l'opération de cuisson. Cette première étape délignifiante est traditionnellement réalisée en traitant la pâte écrue par du chlore en milieu acide ou par une association chlore - dioxyde de chlore, en mélange ou en séquence, de façon à provoquer une réaction avec la lignine résiduelle de la pâte et donner naissance à des chlorolignines qui pourront être extraites de la pâte par solubilisation de ces chlorolignines en milieu alcalin dans une étape de traitement ultérieure.It is known to apply to unbleached chemical paper pulps obtained by cooking cellulosic materials in the presence of chemical reagents a sequence of processing steps delignifying and whitening implying the implementation of oxidizing chemicals. The first step in a sequence conventional chemical pulp bleaching aims to perfect the delignification of the unbleached dough as it is present after the cooking operation. This first step delignifying is traditionally carried out by treating the dough unbleached by chlorine in an acid medium or by a chlorine association - chlorine dioxide, in mixture or in sequence, so as to cause a reaction with the residual lignin in the pulp and give rise to chlorolignins which can be extracted of the paste by solubilization of these chlorolignins in the medium alkaline in a subsequent processing step.

Pour des raisons diverses, il s'avère utile, dans certaines situations, de pouvoir remplacer cette première étape délignifiante par un traitement qui ne fasse plus appel à un réactif chloré.For various reasons, it is useful, in some situations, to be able to replace this significant first step by a treatment which no longer uses a reagent chlorine.

On a déjà proposé de traiter une pâte kraft par une première étape à l'oxygène suivie d'une étape à l'acide peracétique à 70 °C en présence d'acide diéthylènetriaminepentaacétique (DTPA) (demande de brevet JP-A-57 021591 au nom de MITSUBISHI GAS CHEMICAL). Dans ce procédé connu, la présence du stabilisant DTPA évite une dégradation importante des chaínes de cellulose. Cependant, l'effet protecteur du stabilisant n'atteint pas encore le niveau suffisant requis pour la production de pâtes de haute qualité. We have already proposed to treat a kraft paste with a first oxygen step followed by a peracetic acid step at 70 ° C in the presence of diethylenetriaminepentaacetic acid (DTPA) (patent application JP-A-57 021591 in the name of MITSUBISHI GAS CHEMICAL). In this known process, the presence of stabilizer DTPA avoids significant degradation of the chains cellulose. However, the protective effect of the stabilizer does not reach not yet sufficient level required for pasta production High quality.

L'invention vise à remédier aux inconvénients des procédés connus en fournissant un procédé qui réalise une délignification efficace de la pâte chimique écrue qui permette l'obtention de pâtes présentant de hautes qualités intrinsèques dans une large gamme de température.The invention aims to remedy the drawbacks of the methods known by providing a process which achieves delignification effective unbleached chemical pulp which allows obtaining pasta with high intrinsic qualities in a wide temperature range.

A cet effet, l'invention concerne un procédé pour l'amélioration de la sélectivité de la délignification d'une pâte à papier chimique au moyen d'un peroxyacide organique selon lequel on traite la pâte écrue provenant de l'opération de cuisson par une solution aqueuse de ce peroxyacide organique en présence d'un stabilisant dudit peroxyacide comprenant au moins un composé sélectionné parmi la classe des acides phosphoniques et leurs sels, le pH de la solution aqueuse de peroxyacide en contact avec la pâte étant acide et de préférence de 3,5 à 6,5.To this end, the invention relates to a method for improving the selectivity of the delignification of a dough chemical paper using an organic peroxyacid that treating the unbleached dough from the cooking operation by an aqueous solution of this organic peroxyacid in the presence of a stabilizer of said peroxyacid comprising at least one compound selected from the class of phosphonic acids and their salts, the pH of the aqueous peroxyacid solution in contact with the dough being acidic and preferably from 3.5 to 6.5.

Selon l'invention, par pâte à papier chimique, on entend désigner les pâtes ayant déjà subi un traitement délignifiant en présence de réactifs chimiques tels que le sulfure de sodium en milieu alcalin (cuisson kraft ou au sulfate), l'anhydride sulfureux ou un sel métallique de l'acide sulfureux en milieu acide (cuisson au sulfite ou au bisulfite). Selon l'invention, on entend également désigner par pâte à papier chimique, les pâtes appelées dans la littérature "pâtes semi-chimiques" telles que celles où la cuisson a été réalisée à l'aide d'un sel de l'acide sulfureux en milieu neutre (cuisson au sulfite neutre encore appelée cuisson NSSC), de même que les pâtes obtenues par des procédés utilisant des solvants, telles que les pâtes ORGANOSOLV, ALCELL (R), ORGANOCELL (R) et ASAM décrites dans Ullmann's Encyclopedia of Industrial Chemistry, 5th Edition, Vol A18, 1991, pages 568 et 569.According to the invention, by chemical paper pulp is meant the pulp which has already undergone a delignifying treatment in the presence of chemical reagents such as sodium sulfide in alkaline medium (kraft or sulfate cooking), sulfur dioxide or a metallic salt of sulfurous acid in an acid medium (cooking with sulfite or bisulfite). According to the invention, it is also intended to denote by chemical paper pulp, the pulps called in the literature "semi-chemical pulps" such as those where the cooking was carried out using a salt of sulfurous acid in neutral medium (cooking with neutral sulfite, also called NSSC cooking), as well as the pastes obtained by processes using solvents, such as the ORGANOSOLV, ALCELL (R) , ORGANOCELL (R) and ASAM pastes described in Ullmann's Encyclopedia of Industrial Chemistry , 5th Edition, Vol A18, 1991, pages 568 and 569.

L'invention s'adresse particulièrement aux pâtes ayant subi une cuisson kraft . Tous les types de bois utilisés pour la production de pâtes chimiques conviennent pour la mise en oeuvre du procédé de l'invention et, en particulier ceux utilisés pour les pâtes kraft, à savoir les bois résineux comme, par exemple, les diverses espèces de pins et de sapins et les bois feuillus comme, par exemple, le hêtre, le chêne, l'eucalyptus et le charme. The invention is particularly intended for pasta which has undergone kraft cooking. All types of wood used for production of chemical pulps suitable for processing of the process of the invention and, in particular those used for kraft pulp, i.e. softwood such as, for example, various species of pines and firs and deciduous woods such as, for example, beech, oak, eucalyptus and charm.

Selon une première variante de l'invention, le peroxyacide organique est habituellement sélectionné parmi l'acide performique et les peroxyacides aliphatiques carboxyliques comportant un seul groupement percarboxylique et une chaíne alkyle saturée linéaire ou ramifiée de moins de 11 atomes de carbone. Les peroxyacides carboxyliques aliphatiques à chaíne alkyle saturée linéaire comportant moins de 6 atomes de carbone sont préférés. Des exemples de tels peroxyacides sont l'acide peracétique, l'acide perpropanoïque, l'acide n-perbutanoïque et l'acide n-perpentanoïque. L'acide peracétique est particulièrement préféré en raison de son efficacité et de la relative simplicité de ses méthodes de préparation.According to a first variant of the invention, the peroxyacid organic is usually selected from acid performique and aliphatic carboxylic peroxyacids comprising a single percarboxylic group and a chain saturated linear or branched alkyl of less than 11 atoms carbon. Chain aliphatic carboxylic peroxyacids linear saturated alkyl with less than 6 carbon atoms are preferred. Examples of such peroxyacids are acid peracetic, perpropanoic acid, n-perbutanoic acid and n-perpentanoic acid. Peracetic acid is particularly preferred because of its efficiency and relative simplicity of its preparation methods.

Dans une variante au procédé selon l'invention, le peroxyacide organique est sélectionné parmi les diperoxyacides carboxyliques comportant une chaíne alkyle linéaire ou ramifiée de moins de 16 atomes de carbone et deux groupements percarboxyliques substitués sur des atomes de carbone situés en position alpha-omega l'un par rapport à l'autre. Des exemples de tels peroxyacides sont l'acide 1,6-diperoxyhexanedioïque, l'acide 1,8-diperoxyoctanedioïque et l'acide 1,10-diperoxydécanedioïque, et l'acide 1,12-diperoxydodécanedioïque.In a variant of the process according to the invention, the peroxyacid organic is selected from diperoxycarboxylic acids comprising a linear or branched alkyl chain of less than 16 carbon atoms and two percarboxylic groups substituted on carbon atoms located in position alpha-omega relative to each other. Examples of such peroxyacids are 1,6-diperoxyhexanedioic acid, acid 1,8-diperoxyoctanedioic acid and 1,10-diperoxydecanedioic acid, and 1,12-diperoxydodecanedioic acid.

Dans une autre variante au procédé selon l'invention, le peroxyacide organique est sélectionné parmi les peroxyacides aromatiques comportant au moins un groupement percarboxylique par noyau benzénique. De préférence, on choisira les peroxyacides aromatiques qui ne comportent qu'un seul groupement percarboxylique par noyau benzénique. Un exemple d'un tel acide est l'acide peroxybenzoïque.In another variant of the process according to the invention, the organic peroxyacid is selected from peroxyacids aromatics comprising at least one percarboxylic group by benzene nucleus. Preferably, we will choose peroxyacids aromatics which have only one percarboxylic group by benzene nucleus. An example of such an acid is acid peroxybenzoic.

Une autre variante au procédé selon l'invention consiste à choisir un peroxyacide organique substitué par un ou plusieurs atomes d'halogène ou par tout autre substituant fonctionnel organique. Par tout autre substituant fonctionnel organique, on entend désigner un groupement fonctionnel tel que le groupement carbonyle (cétone, aldéhyde ou acide carboxylique), le groupement alcool, les groupements contenant de l'azote tels que les groupements nitrile, nitro, amine et amide, les groupements contenant du soufre tels que les groupements sulfo et mercapto.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 alcohol, nitrogen-containing groups such as nitrile, nitro, amine and amide groups, the groups containing sulfur such as the sulfo and mercapto groups.

Le peroxyacide utilisé peut être une solution aqueuse commerciale comprenant au moins 10 % en poids de peroxyacide, à l'équilibre avec au moins 12 % en poids de l'acide organique correspondant et au moins 1,5 % en poids de peroxyde d'hydrogène en présence le plus souvent, d'une petite quantité de catalyseur sous la forme d'au moins 0,3 % en poids d'un acide fort, généralement un acide inorganique. Un exemple de composition commerciale de peroxyacide organique qui convient bien est une solution aqueuse concentrée d'acide peracétique comprenant environ 34 % en poids d'acide peracétique, environ 44 % en poids d'acide acétique, environ 5 % en poids de peroxyde d'hydrogène et environ 1 % en poids d'acide sulfurique. Il est aussi possible de préparer le peroxyacide immédiatement avant son utilisation par réaction dans les conditions appropriées d'acide acétique à 50 à 100 % en poids avec une solution aqueuse concentrée de peroxyde d'hydrogène de 30 à 85 % en poids, en présence d'une petite quantité d'un acide inorganique comme catalyseur.The peroxyacid used can be an aqueous solution commercial comprising at least 10% by weight of peroxyacid, equilibrium with at least 12% by weight of organic acid corresponding and at least 1.5% by weight of hydrogen peroxide most often in the presence of a small amount of catalyst in the form of at least 0.3% by weight of a strong acid, usually an inorganic acid. An example of composition commercial organic peroxyacid which is well suited is a concentrated aqueous solution of peracetic acid comprising about 34% by weight of peracetic acid, about 44% by weight acetic acid, about 5% by weight of hydrogen peroxide and about 1% by weight of sulfuric acid. It is also possible to prepare the peroxyacid immediately before use by reaction under the appropriate conditions of acetic acid at 50 to 100% by weight with a concentrated aqueous solution of peroxide hydrogen from 30 to 85% by weight, in the presence of a small amount of an inorganic acid as catalyst.

Le peroxyacide peut indifféremment être mis en oeuvre à l'état d'une solution aqueuse de peroxyacide ou encore sous forme d'un sel d'ammonium, de métal alcalin ou de métal alcalinoterreux de ce peroxyacide.The peroxyacid can indifferently be used at the state of an aqueous solution of peroxyacid or in the form an ammonium, alkali metal, or alkaline earth metal salt of this peroxyacid.

Le traitement au peroxyacide selon l'invention peut s'effectuer dans une large gamme de températures. En général, on effectuera le traitement au peroxyacide à une température d'au moins 2 °C et, de préférence d'au moins 20 °C. De même, cette température ne dépasse généralement pas 98 °C et, de préférence, pas 95 °C. Le procédé selon l'invention est particulièrement bien adapté à l'utilisation de températures élevées, c'est-à-dire d'au moins 50 °C et, de préférence, d'au moins 75 °C.The peroxyacid treatment according to the invention can take place over a wide range of temperatures. In general, we perform peroxyacid treatment at a temperature of at least minus 2 ° C and preferably at least 20 ° C. Likewise, this temperature generally does not exceed 98 ° C and, preferably, step 95 ° C. The process according to the invention is particularly well suitable for the use of high temperatures, i.e. at least minus 50 ° C and preferably at least 75 ° C.

Généralement, on effectue le traitement avec le peroxyacide organique à pression atmosphérique. La durée de ce traitement dépend de la température et de l'essence du bois ayant servi à préparer la pâte, ainsi que de l'efficacité de la cuisson qui a précédé. Des durées comprises entre environ 120 minutes et environ 360 minutes conviennent bien. Generally, the treatment is carried out with peroxyacid organic at atmospheric pressure. The duration of this treatment depends on the temperature and the type of wood used prepare the dough, as well as the efficiency of the baking which has preceded. Duration between approximately 120 minutes and about 360 minutes is fine.

Le pH de l'étape du traitement avec le peroxyacide se situe dans la gamme des pH acides. En pratique, on préfère fixer le pH à une valeur d'au moins 3,5. Il conviendra aussi le plus souvent de ne pas dépasser une valeur de pH de 6,5.The pH of the treatment stage with peroxyacid is in the acid pH range. In practice, we prefer to fix the pH at a value of at least 3.5. It will also be most often not to exceed a pH value of 6.5.

Le traitement selon l'invention peut se faire dans tout type d'appareillage approprié pour le traitement de pâte à papier au moyen de réactifs acides. La cuve de rétention de la pâte écrue présente dans toutes les installations de blanchiment et jouant le rôle de réservoir tampon entre l'unité de cuisson du bois et l'unité de blanchiment de la pâte convient particulièrement bien pour la réalisation du procédé selon l'invention. La pâte peut ainsi y être traitée pendant son stockage sans nécessiter l'investissement d'un appareil spécifique onéreux.The treatment according to the invention can be done in any type of suitable equipment for the treatment of paper pulp using acid reagents. The retention tank for the unbleached dough present in all bleaching and playing facilities the role of buffer tank between the wood cooking unit and the dough bleaching unit is particularly suitable for carrying out the method according to the invention. The dough can thus be treated there during its storage without requiring the investment of an expensive specific device.

La consistance de la pâte dans l'étape de traitement par le peroxyacide organique sera généralement choisie d'au moins 5 % de matières sèches et, de préférence, d'au moins 10 % de matières sèches. Le plus souvent, la consistance ne dépassera pas 40 % de matières sèches et, de préférence, pas 30 %.The consistency of the dough in the processing step with the organic peroxyacid will generally be chosen to be at least 5% of dry matter and preferably at least 10% matter dry. Most often, the consistency will not exceed 40% of dry matter and preferably not 30%.

Dans le procédé selon l'invention, la quantité de peroxyacide organique utilisée est choisie en fonction du taux de lignine résiduelle dans la pâte ainsi que de la durée moyenne du traitement. Généralement, des quantités d'au moins 0,1 % et, de préférence d'au moins 1 % en poids de peroxyacide par rapport à la pâte sèche conviennent bien. Le plus souvent, on utilisera une quantité de peroxyacide ne dépassant pas 10 % en poids par rapport à la pâte sèche et, de préférence, ne dépassant pas 5 % de ce poids.In the process according to the invention, the amount of peroxyacid organic used is chosen according to the rate of residual lignin in the dough as well as the average duration of the treatment. Generally, amounts of at least 0.1% and, of preferably at least 1% by weight of peroxyacid relative to dry dough is fine. Most often, we will use a quantity of peroxyacid not exceeding 10% by weight per compared to dry dough and preferably not more than 5% of this weight.

Selon l'invention, le stabilisant mis en oeuvre appartient à la classe des acides phosphoniques et leurs sels. De préférence, il sera sélectionné parmi l'acide 1-hydroxyéthylidène-1,1-diphosphonique (HEDPA), l'acide éthylènediaminetétra(méthylènephosphonique) (EDTMPA), l'acide diéthylènetriaminepenta(méthylènephosphonique) (DTMPA), l'acide triéthylènetétraminehexa(méthylènephosphonique) (TTHMPA), l'acide pentaéthylènehexamineocta(méthylènephosphonique) (PHOMPA), l'acide cyclohexanediaminetétra(méthylènephosphonique) (CDTMPA) et l'acide nitrilotri(méthylènephosphonique) (NTMPA). Le DTMPA et ses sels ont donné d'excellents résultats.According to the invention, the stabilizer used belongs to the class of phosphonic acids and their salts. Preferably, it will be selected from 1-hydroxyethylidene-1,1-diphosphonic acid (HEDPA), ethylenediaminetetra acid (methylenephosphonic) (EDTMPA), diethylenetriaminepenta acid (methylenephosphonic) (DTMPA), triethylenetetraminehexa acid (methylenephosphonic) (TTHMPA), acid pentaethylenehexamineocta (methylenephosphonic) (PHOMPA), cyclohexanediaminetetra (methylenephosphonic acid) (CDTMPA) and nitrilotri (methylenephosphonic) acid (NTMPA). DTMPA and its salts have given excellent results.

Les quantités totales de stabilisant à mettre en oeuvre dépendent du type de bois et du processus de cuisson utilisé. En règle générale, il est recommandé de mettre en oeuvre une quantité de stabilisant d'au moins 0,05 % en poids par rapport à la matière sèche et, de préférence, d'au moins 0,2 % en poids. Des quantités de stabilisant ne dépassant pas 3 % en poids par rapport à la matière sèche et, de préférence ne dépassant pas 2 % en poids sont généralement suffisantes.The total amounts of stabilizer to be used depend on the type of wood and the cooking process used. In as a general rule, it is recommended to implement a amount of stabilizer of at least 0.05% by weight relative to the dry matter and preferably at least 0.2% by weight. Amounts of stabilizer not exceeding 3% by weight per dry matter and preferably not more than 2% by weight are generally sufficient.

Le traitement au peroxyacide organique selon l'invention peut aussi être effectué en présence de plusieurs stabilisants comprenant au moins un acide phosphonique ou l'un de ses sels et/ou du silicate de sodium. Il peut aussi s'avérer intéressant d'associer à au moins un acide phosphonique et/ou au silicate de sodium un sel hydrosoluble de magnésium tel que le sulfate de magnésium.Treatment with organic peroxyacid according to the invention can also be performed in the presence of several stabilizers comprising at least one phosphonic acid or one of its salts and / or sodium silicate. It can also be interesting to associate with at least one phosphonic acid and / or with the silicate of sodium a water-soluble magnesium salt such as sulphate magnesium.

Il peut être intéressant, en variante, de faire précéder le traitement par le peroxyacide organique par au moins un lavage ou une étape de prétraitement décontaminant au moyen d'une solution aqueuse acide. Ce lavage ou cette étape a pour but d'extraire de la pâte les impuretés présentes sous forme d'ions métalliques qui sont nuisibles au bon déroulement des opérations de blanchiment et/ou de délignification. Tous les acides inorganiques ou organiques utilisés en solution aqueuse, seuls ou en mélange conviennent. Les acides forts inorganiques tels que, par exemple, l'acide sulfurique ou l'acide chlorhydrique conviennent bien.Alternatively, it may be interesting to precede the treatment with organic peroxyacid by at least one washing or a decontaminating pretreatment step using a solution acidic aqueous. The purpose of this washing or this step is to extract the paste the impurities present in the form of metal ions which are detrimental to the proper conduct of laundering operations and / or delignification. All inorganic acids or organic used in aqueous solution, alone or in mixture agree. Strong inorganic acids such as, for example, sulfuric acid or hydrochloric acid are well suited.

Il est avantageux que le lavage ou le prétraitement décontaminant acide soit en outre réalisé en présence d'un agent complexant des ions métalliques. A cette fin, des mélanges des acides forts inorganiques cités plus haut avec des acides organiques de la classe des acides aminopolycarboxyliques ou aminopolyphosphoniques ou leurs sels de métaux alcalins conviennent particulièrement bien. Des exemples d'acides aminopolycarboxyliques adéquats sont l'acide diéthylènetriaminepentaacétique, l'acide éthylènediaminetétraacétique (EDTA), l'acide cyclohexanediaminetétraacétique (CDTA) et l'acide nitrilotriacétique (NTA). L'acide diéthylènetriaminepentaacétique (DTPA) est préféré. Des exemples d'acides aminopolyphosphoniques sont l'acide diéthylènetriaminepenta(méthylènephosphonique) (DTMPA), l'acide éthylènediaminetétra(méthylènephosphonique) (EDTMPA), l'acide cyclohexanediaminetétra(méthylènephosphonique) (CDTMPA) et l'acide nitrilotri(méthylènephosphonique). Le DTMPA est préféré. Les quantités d'agent complexant à mettre en oeuvre dépendent de l'efficacité de l'agent complexant sélectionné et de la teneur en métaux de la pâte à traiter. En pratique, on met généralement en oeuvre au moins 0,01 % en poids d'agent complexant par rapport à la pâte sèche et, le plus souvent, au moins 0,05 %. De même, on ne dépasse généralement pas 1 % en poids d'agent complexant par rapport à la pâte sèche et, le plus souvent, pas 0,25 %.It is advantageous that washing or pretreatment acid decontaminant is also carried out in the presence of an agent complexing metal ions. To this end, mixtures of strong inorganic acids mentioned above with acids organic from the class of aminopolycarboxylic acids or aminopolyphosphonic acid or their alkali metal salts are particularly suitable. Examples of acids suitable aminopolycarboxylics are diethylenetriaminepentaacetic acid, ethylenediaminetetraacetic acid (EDTA), cyclohexanediaminetetraacetic acid (CDTA) and acid nitrilotriacetic (NTA). Diethylenetriaminepentaacetic acid (DTPA) is preferred. Examples of aminopolyphosphonic acids are diethylenetriaminepenta (methylenephosphonic acid) (DTMPA), ethylenediaminetetra acid (methylenephosphonic) (EDTMPA), cyclohexanediaminetetra acid (methylenephosphonic) (CDTMPA) and nitrilotri acid (methylenephosphonic). DTMPA is preferred. The amounts of complexing agent to be used depend on the effectiveness of the complexing agent selected and the metal content of the pulp to be treated. In practice, we put generally at least 0.01% by weight of agent complexing compared to dry dough and, more often, to minus 0.05%. Similarly, we generally do not exceed 1% in weight of complexing agent relative to the dry paste and, most often not 0.25%.

Les conditions opératoires du prétraitement décontaminant acide ne sont pas critiques. Elles doivent être déterminées dans chaque cas particulier en fonction du type de pâte à papier et de l'appareillage dans lequel s'effectue le traitement. D'une manière générale, il convient de fixer le choix de l'acide et la quantité mise en oeuvre pour imposer au milieu un pH inférieur à 7, par exemple compris entre environ 1 et environ 6,5. Des pH spécialement avantageux sont ceux compris entre environ 3,0 et environ 6,0. La température et la pression ne sont pas critiques, la température ambiante et la pression atmosphérique convenant généralement bien. La durée du prétraitement peut varier dans de larges proportions selon le type d'équipement utilisé, le choix de l'acide, la température et la pression, par exemple de 15 minutes environ à plusieurs heures.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 on the medium a pH below 7, for example between approximately 1 and approximately 6.5. PH especially advantageous are those between about 3.0 and about 6.0. Temperature and pressure are not critical, ambient temperature and atmospheric pressure suitable generally fine. The duration of the pretreatment can vary within large proportions depending on the type of equipment used, the choice acid, temperature and pressure, for example from About 15 minutes to several hours.

Il peut aussi être intéressant, dans certaines circonstances particulières dépendant de l'essence du bois utilisé et du type de cuisson mis en oeuvre pour préparer la pâte, d'intercaler entre l'opération de cuisson et le traitement au peroxyacide une ou plusieurs étapes supplémentaires de délignification de la pâte au moyen de réactifs chimiques. Par délignification au moyen de réactifs chimiques, on entend désigner aussi bien des réactifs non oxydants tels qu'un réactif alcalin comme l'hydroxyde ou le carbonate de sodium, de magnésium ou de calcium que des réactifs oxydants en milieu acide tels que le chlore, le dioxyde de chlore, l'ozone, un peroxyacide inorganique tel que l'acide peroxymonosulfurique, le peroxyde d'hydrogène en milieu acide, et des réactifs oxydants en milieu alcalin tels que le peroxyde d'hydrogène en milieu alcalin, l'hypochlorite de sodium ou de calcium, l'oxygène moléculaire ou l'ozone. Il est aussi possible de combiner dans une seule étape de traitement deux ou plusieurs de ces réactifs.It can also be interesting, in certain circumstances depending on the type of wood used and the type baking used to prepare the dough, to interpose between the cooking operation and the peroxyacid treatment a or more additional dough delignification steps using chemical reagents. By delignification by means of chemical reagents, we mean both reagents non-oxidizing agents such as an alkaline reagent such as hydroxide or sodium, magnesium or calcium carbonate as reactants oxidizers in an acid medium such as chlorine, dioxide chlorine, ozone, an inorganic peroxyacid such as acid peroxymonosulfuric, hydrogen peroxide in an acid medium, and oxidizing reagents in an alkaline medium such as peroxide of hydrogen in an alkaline medium, sodium hypochlorite or calcium, molecular oxygen or ozone. It is also possible to combine two or more in a single treatment step of these reagents.

Dans une variante au procédé selon l'invention, on peut, si l'on désire obtenir de hauts niveaux de blancheur, faire suivre le traitement avec un peroxyacide par une séquence d'étapes de blanchiment traditionnelles au moyen de réactifs chimiques impliquant ou non des réactifs chlorés. Des exemples de telles étapes sont les suivantes : étapes à l'oxygène gazeux ou à l'ozone, étapes au peroxyde d'hydrogène alcalin en présence ou non d'oxygène gazeux, étapes au dioxyde de chlore ou à l'hypochlorite de sodium, extractions alcalines à la soude caustique.In a variant of the process according to the invention, it is possible, if you want to obtain high levels of whiteness, forward treatment with a peroxyacid by a sequence of stages of traditional bleaching using chemical reagents whether or not involving chlorinated reagents. Examples of such stages are as follows: stages with gaseous oxygen or ozone, alkaline hydrogen peroxide steps in the presence or no gaseous oxygen, chlorine dioxide steps or sodium hypochlorite, alkaline soda extracts caustic.

Selon une variante préférée au procédé selon l'invention, on fait suivre le traitement au peroxyacide par une étape de blanchiment au peroxyde d'hydrogène en milieu alcalin. Cette étape au peroxyde d'hydrogène en milieu alcalin peut avantageusement s'effectuer en utilisant le peroxyde d'hydrogène qui accompagne généralement le peroxyacide : à l'issue du traitement avec le peroxyacide, on additionne un alcali à la pâte et on procède ensuite au blanchiment au peroxyde d'hydrogène, sans effectuer de lavage intermédiaire entre les étapes au peroxyacide et au peroxyde d'hydrogène alcalin. Si nécessaire, on fera l'appoint d'une quantité supplémentaire de peroxyde d'hydrogène de façon à atteindre la quantité totale requise pour réaliser un blanchiment efficace.According to a preferred variant of the process according to the invention, follows the peroxyacid treatment with a step of bleaching with hydrogen peroxide in an alkaline medium. This step with hydrogen peroxide in an alkaline medium can advantageously be done using hydrogen peroxide which generally accompanies peroxyacid: after treatment with the peroxyacid, an alkali is added to the paste and then proceeds with bleaching with hydrogen peroxide, without perform intermediate washing between steps with peroxyacid and alkaline hydrogen peroxide. If necessary, we will do supplementing with additional hydrogen peroxide so as to reach the total quantity required to achieve a effective whitening.

Le procédé conforme à l'invention s'applique à la délignification et au blanchiment de toute espèce de pâte chimique. Il convient bien pour délignifier et blanchir les pâtes kraft et les pâtes au sulfite. Il est particulièrement bien adapté au traitement des pâtes kraft.The process according to the invention applies to the delignification and bleaching of all types of dough chemical. It is well suited for delignifying and blanching pasta kraft and sulfite pastes. It is particularly good suitable for processing kraft pasta.

Les exemples qui suivent sont donnés dans le but d'illustrer l'invention, sans pour autant en limiter sa portée.The following examples are given for the purpose of illustrating the invention, without limiting its scope.

Exemples 1R et 2R (non conformes à l'invention) Examples 1R and 2R (not in accordance with the invention)

Un échantillon de pâte de feuillus ayant subi une cuisson kraft (blancheur initiale 33,7 °ISO mesurée selon la norme ISO 2470, indice kappa 12,4 mesuré selon la norme SCAN C1-59 et degré de polymérisation 1370 exprimé en nombre d'unités glucosiques et mesuré selon la norme SCAN C15-62) a été délignifiée au moyen d'une séquence en deux étapes comportant une première étape à l'acide peracétique (Paa) et une deuxième étape d'extraction alcaline avec de l'hydroxyde de sodium. La pâte a été lavée à l'eau déminéralisée entre les deux étapes.A sample of baked hardwood pulp kraft (initial whiteness 33.7 ° ISO measured according to the standard ISO 2470, kappa index 12.4 measured according to the SCAN C1-59 standard and degree of polymerization 1370 expressed in number of units glucose and measured according to SCAN C15-62) has been delignified by means of a two-step sequence comprising a first step with peracetic acid (Paa) and a second step alkaline extraction with sodium hydroxide. The dough has been washed with demineralized water between the two stages.

L'acide peracétique utilisé était une solution aqueuse à l'équilibre contenant 240 g/l de CH3CO3H, 420 g/l de CH3COOH, 100 g/l de H2O2 et 7 g/l de H2SO4.The peracetic acid used was an equilibrium aqueous solution containing 240 g / l of CH 3 CO 3 H, 420 g / l of CH 3 COOH, 100 g / l of H 2 O 2 and 7 g / l of H 2 SO 4 .

Après délignification, on a effectué sur la pâte traitée les déterminations de blancheur, d'indice kappa et de degré de polymérisation.After delignification, the treated dough was made whiteness, kappa index and degree of determination polymerization.

Les conditions opératoires ont été les suivantes : 1e étape : étape à l'acide peracétique (étape Paa) : teneur en CH3CO3H, g/100g pâte sèche 1,0 teneur en DTPA 40 % ou en EDTA 100 %, g/100g pâte sèche 0,5 température, degrés C 90 durée, min 240 consistance, % en poids de matière sèche 10 2e étape : étape à l'hydroxyde de Na (étape E) : teneur en NaOH, g/100g pâte sèche 2,0 température, degrés C 90 durée, min 45 consistance, % en poids de matière sèche 10 The operating conditions were as follows: 1st stage : peracetic acid stage (Paa stage): CH 3 CO 3 H content, g / 100g dry paste 1.0 40% DTPA or 100% EDTA content, g / 100g dry paste 0.5 temperature, degrees C 90 duration, min 240 consistency,% by weight of dry matter 10 2nd stage : stage with Na hydroxide (stage E): NaOH content, g / 100g dry paste 2.0 temperature, degrees C 90 duration, min 45 consistency,% by weight of dry matter 10

Les résultats obtenus sont donnés au tableau qui suit : Exemple No Nature du stabilisant pH étape init. Paa fin. Blancheur finale °ISO Indice kappa final DP final 1R DTPA 4,35 4,20 48,0 7,73 750 2R EDTA 4,35 4,30 48,9 7,46 740 The results obtained are given in the following table: Example No Nature of stabilizer pH init step. Paa late. Final whiteness ° ISO Final kappa index Final RFP 1R DTPA 4.35 4.20 48.0 7.73 750 2R EDTA 4.35 4.30 48.9 7.46 740

Exemple 3 : (conforme à l'invention) Example 3 : (according to the invention)

On a reproduit les exemple 1R et 2R, en remplaçant le stabilisant DTPA ou EDTA par 0,5 g du sel heptasodique de l'acide diéthylènetriaminepenta(méthylènephosphonique) (DTMPNa7) pour 100 g de pâte sèche.Examples 1R and 2R were reproduced, replacing the stabilizer DTPA or EDTA with 0.5 g of the heptasodium salt of diethylenetriaminepenta (methylenephosphonic acid) (DTMPNa 7 ) per 100 g of dry paste.

Les résultats obtenus ont été : Exemple No Nature du stabilisant pH étape init. Paa fin. Blancheur finale °ISO Indice kappa final DP final 3 DTMPNa7 4,35 4,40 48,2 7,63 1250 The results obtained were: Example No Nature of stabilizer pH init step. Paa late. Final whiteness ° ISO Final kappa index Final RFP 3 DTMPNa 7 4.35 4.40 48.2 7.63 1250

Exemple 4 : (conforme à l'invention) Example 4 : (according to the invention)

Une pâte de résineux ayant subi une cuisson kraft de blancheur 30,5 °ISO, d'indice kappa 26,7 et de degré de polymérisation de 1510 a été blanchie au moyen d'une séquence totalement exempte de réactifs chlorés en 4 étapes 0 Q P Paa dans les conditions opératoires suivantes : 1e étape : étape à l'oxygène ( 0 ) pression, bar 5,5 teneur en NaOH, g/100 g pâte sèche 4,0 teneur en MgSO4.7H2O, g/100 g pâte sèche 0,5 température, degrés C 120 durée, min 60 consistance, % en poids de matière sèche 14 2e étape : étape avec un acide séquestrant teneur en DTPA 40 %, g/100 g de pâte sèche 0,5 H2SO4 pour pH initial de 5,00 température, degrés C 55 durée, min 30 consistance, % en poids de matière sèche 4,0 3e étape : étape à l'H2O2 ( P ) teneur en H2O2, g/100 g de pâte sèche 2,0 teneur en NaOH, g/100 g de pâte sèche 1,5 température, degrés C 90 durée, min 120 consistance, % en poids de matière sèche 10 4e étape : étape à l'acide peracétique ( Paa ) teneur en Paa, g/100 g de pâte sèche 3,0 teneur en DTMPNa7, g/100 g de pâte sèche 0,5 température, degrés C 90 durée, min 240 consistance, % en poids de matière sèche 10 A softwood pulp having undergone kraft cooking with a whiteness of 30.5 ° ISO, a kappa index of 26.7 and a degree of polymerization of 1510 was bleached using a sequence completely free of chlorine reagents in 4 steps 0 QP Paa under the following operating conditions: 1st stage: oxygen stage (0) pressure, bar 5.5 NaOH content, g / 100 g dry paste 4.0 MgSO 4 .7H 2 O content, g / 100 g dry paste 0.5 temperature, degrees C 120 duration, min 60 consistency,% by weight of dry matter 14 2nd stage: stage with a sequestering acid DTPA content 40%, g / 100 g of dry paste 0.5 H 2 SO 4 for initial pH of 5.00 temperature, degrees C 55 duration, min 30 consistency,% by weight of dry matter 4.0 3rd stage: H 2 O 2 stage (P) H 2 O 2 content , g / 100 g of dry paste 2.0 NaOH content, g / 100 g of dry paste 1.5 temperature, degrees C 90 duration, min 120 consistency,% by weight of dry matter 10 4th stage: stage with peracetic acid (Paa) Paa content, g / 100 g of dry dough 3.0 DTMPNa 7 content, g / 100 g of dry paste 0.5 temperature, degrees C 90 duration, min 240 consistency,% by weight of dry matter 10

Les résultats obtenus ont été les suivants : Exemple No Nature du stabilisant pH étape Paa Blancheur finale °ISO Indice kappa final DP final init. fin. 4 DTMPNa7 3,6 3,4 68,8 4,61 1070 The results obtained were as follows: Example No Nature of stabilizer pH step Paa Final whiteness ° ISO Final kappa index Final RFP init. end. 4 DTMPNa 7 3.6 3.4 68.8 4.61 1070

Exemples 5R, 6R et 7R (non conformes à l'invention) et 8, 9 et 10 (conformes à l'invention) Examples 5R, 6R and 7R (not in accordance with the invention) and 8, 9 and 10 (in accordance with the invention)

Un échantillon de pâte kraft de résineux (blancheur initiale 30,5 °ISO mesurée selon la norme ISO 2470, indice kappa 26,7 mesuré selon la norme SCAN C1-59 et degré de polymérisation 1510 exprimé en nombre d'unités glucosiques et mesuré selon la norme SCAN C15-62) a été délignifiée au moyen d'une séquence en deux étapes comportant une première étape à l'acide peracétique (Paa) et une deuxième étape d'extraction alcaline avec de l'hydroxyde de sodium. La pâte a été lavée à l'eau déminéralisée entre les deux étapes.A sample of kraft softwood pulp (initial whiteness 30.5 ° ISO measured according to ISO 2470, kappa index 26.7 measured according to standard SCAN C1-59 and degree of polymerization 1510 expressed in number of glucose units and measured according to the standard SCAN C15-62) has been delignified using a two-part sequence stages comprising a first stage with peracetic acid (Paa) and a second stage of alkaline extraction with sodium hydroxide. The dough was washed with demineralized water between the two stages.

L'acide peracétique utilisé était une solution aqueuse à l'équilibre contenant 240 g/l de CH3CO3H, 420 g/l de CH3COOH, 100 g/l de H2O2 et 7 g/l de H2SO4.The peracetic acid used was an equilibrium aqueous solution containing 240 g / l of CH 3 CO 3 H, 420 g / l of CH 3 COOH, 100 g / l of H 2 O 2 and 7 g / l of H 2 SO 4 .

Après délignification, on a effectué sur la pâte traitée les déterminations de blancheur, d'indice kappa et de degré de polymérisation.After delignification, the treated dough was made whiteness, kappa index and degree of polymerization determinations.

Les conditions opératoires ont été les suivantes : Réactifs : Exemple No. Etape 1 Etape 2 teneur en CH3CO3H g/100g p.s. teneur en DTMPNa7 g/100g p.s. teneur en silicate 36°Bé g/100g p.s. teneur en MgSO4.7H2O g/100g p.s. teneur en NaOH g/100g p.s. 5R 3 0 3 0 2 6R 3 0 0 1 2 7R 3 0 3 1 2 8 3 0,5 3 0 2 9 3 0,5 0 1 2 10 3 0,5 3 1 2 où DTMPNa7 symbolise le sel heptasodique de l'acide diéthylènetriaminepenta(méthylénephosphonique). Dans tous les exemples 5R, 6R et 7R et 8, 9 et 10, on a réalisé les mêmes conditions opératoires qui suivent : Etape 1 Etape 2 - température, °C 90 90 - durée, min 240 45 - consistance, % en poids de matière sèche 10 10 Après traitement, on a effectué sur la pâte les déterminations de blancheur, d'indice kappa et de degré de polymérisation.The operating conditions were as follows: Reagents : Example No. Step 1 2nd step CH 3 CO 3 H content g / 100g ps DTMPNa content 7 g / 100g ps silicate content 36 ° Be g / 100g ps MgSO content 4 .7H 2 O g / 100g ps NaOH content g / 100g ps 5R 3 0 3 0 2 6R 3 0 0 1 2 7R 3 0 3 1 2 8 3 0.5 3 0 2 9 3 0.5 0 1 2 10 3 0.5 3 1 2 where DTMPNa 7 symbolizes the heptasodium salt of diethylenetriaminepenta acid (methylenephosphonic acid). In all of the examples 5R, 6R and 7R and 8, 9 and 10, the same operating conditions were carried out as follows: Step 1 2nd step - temperature, ° C 90 90 - duration, min 240 45 - consistency,% by weight of dry matter 10 10 After treatment, the determinations of whiteness, kappa index and degree of polymerization were carried out on the paste.

Les résultats obtenus ont été les suivants : Exemple No. Blancheur finale, °ISO Indice kappa final DP final 5R 38,1 13,8 820 6R 38,1 13,3 870 7R 37,9 13,4 630 8 40,7 14,4 1350 9 40,5 14,6 1380 10 41,4 14,4 1360 The results obtained were as follows: Example No. Final whiteness, ° ISO Final kappa index Final RFP 5R 38.1 13.8 820 6R 38.1 13.3 870 7R 37.9 13.4 630 8 40.7 14.4 1350 9 40.5 14.6 1380 10 41.4 14.4 1360

Claims (10)

  1. Process for improving the selectivity of the delignification of a chemical paper pulp by means of an organic peroxyacid, in which the unbleached pulp originating from the cooking operation is treated with an aqueous solution of this organic peroxyacid in the presence of a stabiliser for the said peroxyacid, characterised in that the stabiliser comprises at least one compound selected from the class of phosphonic acids and their salts and in that the pH of the aqueous solution of the organic peroxyacid in contact with the pulp is acid and preferably from 3,5 to 6,5.
  2. Process according to Claim 1, characterised in that the organic peroxyacid is peracetic acid.
  3. Process according to Claim 1 or 2, characterised in that the treatment with organic peroxyacid is performed at a temperature of between 50 and 98 °C.
  4. Process according to any one of Claims 1 to 3, characterised in that the phosphonic acid is diethylenetriaminepenta(methylenephosphonic) acid.
  5. Process according to any one of Claims 1 to 4, characterised in that the stabiliser additionally comprises sodium silicate.
  6. Process according to any one of Claims 1 to 5, characterised in that the stabiliser for the peroxyacid is a combination of a phosphonic acid or of one of its salts with a water-soluble magnesium salt.
  7. Process according to any one of Claims 1 to 6, characterised in that at least one washing operation or a stage of treatment with an acidic aqueous solution is carried out before the treatment with organic peroxyacid.
  8. Process according to any one of Claims 1 to 7, characterised in that one or more stages of delignification of the pulp by means of chemical reactants is (are) inserted between the cooking operation and the treatment with the peroxyacid.
  9. Process according to any one of Claims 1 to 8, characterised in that the treatment with the peroxyacid is followed by a stage of bleaching with hydrogen peroxide in alkaline medium.
  10. Application of the process according to any one of Claims 1 to 9 to the delignification and bleaching of kraft pulps, of sulphite pulps and of the pulps obtained by cooking processes employing solvents.
EP93201887A 1992-07-06 1993-06-29 Process of delignification of a chemical pulp Revoked EP0578305B1 (en)

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BE9200627 1992-07-06
BE9200627A BE1006057A3 (en) 1992-07-06 1992-07-06 Method for delignification of chemical pulp.

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EP0578305B1 true EP0578305B1 (en) 1998-03-04

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Families Citing this family (53)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08503749A (en) 1992-11-27 1996-04-23 エカ ノーベル アクチェボラーグ Method for bleaching lignocellulose-containing pulp
BE1006881A3 (en) * 1993-03-02 1995-01-17 Solvay Interox Method for delignification of chemical pulp.
DE19516151A1 (en) * 1995-05-03 1996-11-07 Sven Siegle Process for the production of a pulp from cellulosic material, the pulp itself and its use
FR2747406B1 (en) * 1996-04-12 1998-08-28 Air Liquide PROCESS FOR DELIGNIFYING PAPER PULP TO OXYGEN
FR2747408B1 (en) * 1996-04-12 1998-05-15 Air Liquide PROCESS FOR THE DELIGNIFICATION AND / OR BLEACHING OF A PULP
EP0801170A1 (en) * 1996-04-12 1997-10-15 Chemoxal Sa Process for the delignification and/or bleaching of a paper pulp
FR2754550B1 (en) * 1996-10-15 1998-11-06 Chemoxal Sa PROCESS FOR THE DELIGNIFICATION AND / OR BLEACHING OF A PULP
US5939059A (en) * 1997-08-13 1999-08-17 Akzo Nobel Nv Hair conditioner and 2 in 1 conditioning shampoo
FI112958B (en) * 1997-12-19 2004-02-13 Kemira Oyj Method for bleaching chemical pulp and use of bleaching solution
US6890404B2 (en) 2001-06-06 2005-05-10 Solutia, Inc. Composition for the production of improved pulp
MY138251A (en) * 2001-06-06 2009-05-29 Thermphos Trading Gmbh Method for inhibiting calcium salt scale
MY129053A (en) * 2001-06-06 2007-03-30 Thermphos Trading Gmbh Composition for inhibiting calcium salt scale
FI111745B (en) * 2001-12-19 2003-09-15 Kemira Chemicals Oy Improved board manufacturing process
GB2391011A (en) * 2002-07-19 2004-01-28 Crosmill Ltd Bleaching cellulose suspensions
US20070131364A1 (en) * 2005-12-14 2007-06-14 University Of Maine Process for treating a cellulose-lignin pulp
US20100224336A1 (en) * 2005-12-14 2010-09-09 University Of Maine System Board Of Trustees Process of bleaching a wood pulp
WO2010066026A1 (en) 2008-12-08 2010-06-17 Fpinnovations Increasing alkaline pulping yield for softwood with metal ions
US7910347B1 (en) 2009-12-07 2011-03-22 E. I. Du Pont De Nemours And Company Perhydrolase providing improved peracid stability
US7932072B1 (en) 2009-12-07 2011-04-26 E. I. Du Pont De Nemours And Company Perhydrolase providing improved peracid stability
US7923233B1 (en) * 2009-12-07 2011-04-12 E. I. Du Pont De Nemours And Company Perhydrolase providing improved peracid stability
US7960528B1 (en) * 2009-12-07 2011-06-14 E. I. Du Pont De Nemours And Company Perhydrolase providing improved peracid stability
US7927854B1 (en) 2009-12-07 2011-04-19 E. I. Du Pont De Nemours And Company Perhydrolase providing improved peracid stability
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US8389254B2 (en) * 2010-03-26 2013-03-05 E.I. Du Pont De Nemours And Company Perhydrolase providing improved specific activity
BR112012024284A2 (en) 2010-03-26 2016-05-24 Du Pont polymer melt composition
US8450091B2 (en) * 2010-03-26 2013-05-28 E. I. Du Pont De Nemours And Company Perhydrolase providing improved specific activity
US8389255B2 (en) * 2010-03-26 2013-03-05 E.I. De Pont De Nemours And Company Perhydrolase providing improved specific activity
WO2011119708A1 (en) 2010-03-26 2011-09-29 E.I. Dupont De Nemours And Company Perhydrolase providing improved specific activity
US8663616B2 (en) 2010-12-20 2014-03-04 E I Du Pont De Nemours And Company Enzymatic peracid generation for use in oral care products
CN103261430A (en) 2010-12-20 2013-08-21 纳幕尔杜邦公司 Targeted perhydrolases
US8389260B2 (en) 2010-12-21 2013-03-05 E. I. Du Pont De Nemours And Company Perhydrolase variant providing improved specific activity
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CA2868179C (en) 2012-03-30 2020-06-09 Mark Scott Payne Enzymes useful for peracid production
CA2867998C (en) 2012-03-30 2021-05-04 E. I. Du Pont De Nemours And Company Enzymes useful for peracid production
CN104334736A (en) 2012-03-30 2015-02-04 纳幕尔杜邦公司 Enzymes useful for peracid production
CA2867937C (en) 2012-03-30 2021-03-02 E. I. Du Pont De Nemours And Company Enzymes useful for peracid production
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Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR1014536A (en) * 1940-04-01 1952-08-18 Du Pont Wood pulp bleaching improvements
DE3005947B1 (en) * 1980-02-16 1981-01-29 Degussa Process for bleaching pulp using organic peracid
JPS5721591A (en) * 1980-07-11 1982-02-04 Mitsubishi Gas Chemical Co Peroxide bleaching of wood pulp
DE69004492T3 (en) * 1989-06-06 2001-11-15 Eka Nobel Ab Process for bleaching pulps containing lignocellulose.
US5246543A (en) * 1989-08-18 1993-09-21 Degussa Corporation Process for bleaching and delignification of lignocellulosic materials
US5091054A (en) * 1989-08-18 1992-02-25 Degussa Corporation Process for bleaching and delignification of lignocellulosic

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EP0578305A1 (en) 1994-01-12
AR247259A1 (en) 1994-11-30
AU654624B2 (en) 1994-11-10
NZ248028A (en) 1995-12-21
ES2115719T3 (en) 1998-07-01
ATE163697T1 (en) 1998-03-15
SI9300363A (en) 1994-03-31
CA2099513A1 (en) 1994-01-07
DE69317169D1 (en) 1998-04-09
BE1006057A3 (en) 1994-05-03
DE69317169T2 (en) 1998-10-08
FI933104A0 (en) 1993-07-06
SK70393A3 (en) 1994-05-11

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