SE516688C2 - Treatment of pulp before peroxide bleaching with acid and complexing agents - Google Patents

Abstract

The present invention relates to a process for pretreating pulp, which is to be bleached with peroxide, by treating it with acid and by chelating. In particular, the purpose of the invention is to render more efficient, and at the same time simplify, the pretreatment which the peroxide bleaching requires. The process according to the invention is characterized in that the pulp is fed, at a consistency of 8-20%, into a pressurized acid tower 14 in which the pressure is 0-20 bar, preferably 1-10 bar and the temperature is 60-130 degree C, the pulp is treated in the acid tower 14 for 20-240 minutes, in order to decrease the kappa number and improve the bleachability, at a pH of 2-6, preferably at 3-4, the pulp is conveyed from the acid tower 14 to the chelating tower 24, the pulp is treated with complexing agent for at least 10-60 minutes at a pH of 4-7, preferably at 5-6, and the pulp is washed and/or pressed.

Description

The features characteristic of the invention appear from the appended claims.

The invention is described in more detail below with reference to the attached figure 1, which shows an apparatus system according to an advantageous embodiment of the invention, in which the method according to the invention can be applied.

The pulp is passed from a previous treatment step 10 with an MC pump 12 to an acid tower 14. The previous treatment step may consist of an oxygen delignification which usually follows the boiling of the pulp, a subsequent washing or some other delignification or bleaching step or a subsequent wash. Before the tower 14, the mass is supplied with the necessary chemicals and, if required, steam to raise the temperature. Said chemicals consist of already mentioned acids as well as, for example, enzymes, magnesium and / or calcium, which are added in the form of MgSO 4 and / or CaO. The chemicals can be supplied either directly in the pump 12, injected into the tube 16 between the pump 12 and the tower 14 or in a mixer 18 specially arranged for this purpose. The conditions in the acid tower 14 are as follows: pressure 0 - 20 bar, preferably 1 - 10 bar; temperature 70 - 130 ° C, preferably 80 - 110 ° C; and pH 2 - 6, preferably 3 - 4. The treatment time in the acid tower is 30 - 240 minutes, preferably 45 - 150 minutes. The kappa number usually drops by 1 - 9 units in the acid tower.

After the acid treatment, the chemicals required for the chelation are added. These consist of complexing agents, e.g. EDTA and DTPA, and optionally metals, such as magnesium and lime. The metals can promote chelating. Enzymes can also be used. During the chelation, efforts are made to remove heavy metals, such as manganese and copper, which catalyze the decomposition of hydrogen peroxide. A suitable pH for the chelating is 4 - 7, preferably 5.6 688 3 or 5 - 6. If the pH is in an unfavorable range for chelating, the pH is adjusted to a suitable value by adding acid or alkali (NaOH). In general, NaOH must be added to raise the pH from a lower level prevailing during acidification. A suitable place for the supply of these chemicals is acidification, ie. The so-called. The discharge device 20 of the A-tower 14 or the subsequent transport line 22 between the acidification and chelating towers 14, 24. Some of the chemicals can be supplied already in the A-stage, e.g. MgSO 4, EDTA, DTPA - the main thing is that they are present when you get to the Q-step and the pH is raised.

With the A-tower 14 or in fact with the pressure generated by the feed pump 12, the mass is conveyed to the Q-tower 24. For the A- and Q-steps, two different towers 14 and 24 are thus used without any pumping having to be arranged between the towers.

The discharge device 20 can, if necessary, be designed so that it mixes the chemicals and / or raises the pressure. In Figure 1, the A-tower is upwardly flowing and the Q-tower 24 as well. Said towers 14 and 24 may be either upward or downward flowing depending on the circumstances. The mass can also in some cases be moved only by means of gravity from the A-tower to the Q-tower.

In the Q tower 24 the mass is chelated. The conditions are as follows: treatment time at least 10 - 60 minutes at a pH in the range 4 - 7, preferably 5 - 6. The temperature and pressure have not been found to have any significant effect on. the chelating process, even the Q-tower can be pressurized. The treatment time in the Q-tower 24 is not critical, but it can be several hours longer than mentioned above, for example when the Q-tower 24 is used as a storage tower for the pulp, ie as an ordinary thick massager.

After the Q-tower 24, the pulp is washed and / or subjected to compression. Extortion is understood to mean a washing method in which liquid and with it substances dissolved and leached during the acidification and chelating treatment and produced in various reactions are extruded from the e.g. the mass of medium consistency coming from the tower 24, 10 - 14%, so that the mass of the mass rises to> 30%, after which the mass is again diluted to the medium consistency range. Figure 1 shows a washer 28, to which the pulp is discharged from the tower 24 either with the tower's own pressure or by means of a pressure raising bottom dispenser 26, i.e. in each case without any separate pump. The washer 28 is preferably a so-called fractional scrubber, which means that several filtrates of different concentrations are obtained from the same scrubber. One such fractionating scrubber is the so-called The Drum Displacer washer, which is described i.a. in U.S. Patent Nos. 4,919,158 and 5,116,423. Of the filtrates generated in the scrubber 28, one, preferably the filtrate F1 which is rich in heavy metals, is removed along the tube 30 and another, F2, is returned along the tube 32 e.g. to a washer located before the A-step. The AQ step is thus partially closed.

After the washing performed by the washer 28, the pulp is bleached with peroxide. Preferably a pressurized reactor is used, in particular a two-vessel reactor, as has been shown in Figure 1. Regardless of the reactor type, a suitable peroxide charge is 5 - 20 kg H 2 O 2 / adt and oxygen can, depending on the jacket level, be added 0 - 15 kg / adt, preferably 5 kg / adt. The peroxide step is also added with alkali to raise the pH and, if necessary, magnesium, for example in the form of magnesium sulphate. The temperature is 90 - 130 ° C. The peroxide step may be preceded by another bleaching step, e.g. a ZX step.

In the process using a two-vessel reactor, the pulp is pumped at medium consistency with an MC pump 32, if desired via a mixer 34, to a pre-reactor 36 which is dimensioned for a treatment time of 10 - 60 minutes.

The pressure in the reactor is 3 - 20 bar, preferably about 10 bar. The bleaching chemicals H 2 O 2 and oxygen are fed to the pump 10 or the mixer 34. The peroxide charge is 5 - 20 kg / - adt, preferably about 10 kg / adt. The oxygen charge is usually 0-15 kg / adt, preferably about 0 - 10 kg / adt, preferably about 3 - 5 kg / adt. The temperature is 80 - 110 ° C, preferably 90 100 ° C.

In the pre-reactor 36 the peroxide reacts rapidly and after about 30 minutes 75% of the peroxide has been consumed. This also means that 75% of the reaction gases have been generated. Therefore, a gas separator 38 is installed on top of the pre-reactor 36, which separates gas from the gas space of the reactor 36. The separation capacity of such a device 38 is 40-90% of the amount of gas present in the pulp. The pulp, which is still under pressure after the gas separation, is passed along a pipe 40 to the bottom of the actual bleaching tower 44, where the pulp flows upwards with its own pressure without any separate pump. The bleach tower 44 does not necessarily have to be pressurized, but it may well consist of any vessel of suitable size in the factory. Preferably, however, a moderate overpressure is maintained in the bleaching tower 44, i.e. a pressure in the range 1.1 - 5 bar. A suitable residence time in tower 44 is 30 - 200 minutes. Additional chemicals can be added to the mass between towers 36 and 44 either through a mixer (not shown) or e.g. injected. When the bleaching reaction has ceased, the pulp is at the top of the tower and flows by means of the pressure difference to the following treatment steps without any pump. When the tower 44 is pressurized, the outlet opening of the tower 44 can be provided with a gas separator 46, whereby the gases arising in the peroxide reaction are removed, and if the gas separator is pressure generating, the pulp can be fed on with the extra pressure it generates.

Of the sequences which are possible according to the process of the invention, the following have proved to be most advantageous: Boiling Q - AQ - P Boiling - AQ - ZP Boiling - 0 - AQ - P - AQ Cooking - 0 - AQ - P - ZQ - P Cooking - 0 - AQ - ZQ - P - ZP Cooking - o - AQ - P - zP O - AQ - ZQ - P (brightness above 80) (brightness above 83) (brightness above 83) (brightness above 88) (brightness above 88) (brightness above 88) Boiling - (brightness above 85) In these sequences, P can consist of an oxygen-reinforced peroxide stage Po, where the peroxide charge is above 10 kg H2O2 / adt and the oxygen charge 0 - 10 kg O 2 / adt, or a peroxide-reinforced oxygen stage Op, where the peroxide charge is below 10 kg H 2 O 2 / adt and the oxygen charge above 5 kg O 2 / adt, preferably 5 - 15 kg / adt. In a sequence comprising several peroxide steps, preferably the first P-step should be one peroxide-enhanced oxygen step Op and the following one oxygen-enhanced peroxide step Po. The peroxide step can also consist of an acidic P-step, whereby the bleaching takes place with Caro's acid or peracid.

The above sequences can be simplified by omitting the washes. For the sake of the process, it is not necessary to wash before the A, Q and AQ steps. Although oxygen consumption can rise, this is often not very expensive compared to what the washer costs. The designation "-", which usually indicates washing and / or squeezing, can therefore be omitted before the A and / or Q steps. The sub-sequence P-AQ is thus replaced by the sub-sequence PAQ or possibly by PA or PQ.

The sequences such as: Cooking - O - AQ - PQ - P (brightness above 88) Cooking - 0 - AQ - PQ - ZP (brightness above 88) Cooking - 0 - AQ - ZPQ - ZP (brightness above 88) Cooking - 0 - PAQ - P (brightness above 85) is thus also possible. 10 15 20 25 30 35 516 688 àä fi ä Ü fi fnmfzæj 7 Another simplification, which sometimes pays to do, is to replace ZX with only Z. This applies when the removal of metal is also otherwise good enough. When there are two AQ steps in the sequence, one, preferably the first, can sometimes be replaced by only one A step.

The A-step can be made more efficient by adding a bleach-promoting chemical or bleaching chemical. Such a chemical may, for example, consist of some enzyme or chlorine dioxide. The A-step can then be Aïnzwn (AE) or Anündd (AD). When enzyme is added in the A step, a suitable pH is 4 - 5 and a suitable temperature is 60 - 80 ° C. When chlorine dioxide is added in the A step, a suitable final pH is 3-5 and the initial pH is slightly (2-3 units) higher.

The temperature when dioxide is used is suitably 80 - 100 ° C.

When chlorine dioxide is added, it may be justified to decompose the chlorine dioxide residues with SO 2 or NaOh before the chelating agent is added, so that the chelating agent is not degraded. In the above-mentioned sequences, A can thus consist of AE or AD or some other more efficient A-step.

As can be seen from the above, the peroxide step is the preceding treatment step according to the invention. much Since both treatment steps are performed at exactly the pH that the step requires, it is simple and on the other hand also effective. the efficiency of the steps could be maximized. By pressurizing the pre-treatment stage (s), however, it has been achieved that the installation costs will be relatively small, since the number of pumps has been as small as possible. Even compared to some previous proposals, the process according to our invention saves a washer, since previous washing steps were also suggested between the acidification and chelating steps. It should be noted, however, that only a few exemplary advantageous embodiments have been shown and described above, which are not intended to limit in any way the scope of protection defined by the appended claims for our invention.

Claims (26)

10 15 20 25 30 35 u Inn a »PATENTKRAV Process for pretreatment by acidification and chelation of pulp to be bleached with peroxide, characterized in that a) the pulp is fed at a consistency of 8 - 20% into a pressurized acid tower (14), where the pressure is up to 20 bar, preferably 1 - 10 bar, and the temperature 60 - 130 ° C, b) the pulp is treated in the acid tower (14) 20 - 240 minutes to lower the kappa number and improve the bleachability at a pH of 2 - 6, preferably 3 - 4, c) the pulp is transferred from the acid tower (14) to a chelating tower (24), d) the pulp is treated with a complexing agent at least 10 - 60 minutes at a pH of 4-7, preferably 5-6, and e) the pulp is washed and / or subjected to blackmail, and magnesium and / or calcium and / or chlorine dioxide are added and / or before the acidification step b) the chelating step d) or in connection with these. Process according to Claim 1, characterized in that the pH of the pulp is regulated by the addition of acid or alkali or d) in the pulp. generally between the steps. b) or in step c). Process according to Claim 1 or 2, characterized by means of a filtrate F1 in which the pulp in step e) is washed with a scrubber (28) such that heavy metals are removed from the process and the fractional purifier filtrate F2 is returned for use in another process step. Process according to Claim 1, 2 or 3, characterized in that step e) is followed by a peroxide step f). 10 15 20 25 30 35 516 10 Method according to claim 4, characterized in that the step f) peroxide bleaching is carried out in two interconnected towers (14, 24) of different sizes, the first of which is a so-called pre-reactor (14) and the other a so-called bleach (24). A method according to claim 5, characterized in that in the peroxide bleaching step - at least peroxide is mixed into the pulp, (14), where the pressure is 3 - 20 bar and the residence time 10 - 60 minutes, - the pulp is fed into. pressurized pre-reactor - the pulp may react with the peroxide to such an extent that the amount of peroxide still remaining is at most 5 kg EbO2 per tonne of pulp, - gas is separated from the pulp when it is under a pressure of over 3 bar, whereby the separated gas quantity is 40 - 90 % of the amount of gas present in the pulp, - the pulp is pushed with the pressure of the pre-reactor (14) into the lower part of the bleaching tower (24), from which the pulp flows upwards, and - the pulp is removed from the top of the bleaching tower (24). or 6, characterized in that the peroxide charge in the bleaching step is 10 A method according to claim 4, 5 - 20 kg / adt and the oxygen charge 0 - 10 kg / adt, wherein it is an oxygen-reinforced peroxide step Po. or 6, characterized in that the peroxide charge to the bleaching step is A method according to claim 4, 5 below 10 kg / adt and the oxygen charge above 5, preferably 5 - 15 kg / adt, wherein it is a peroxide-reinforced oxygen step Op. Process according to Claim 5 or 6, characterized in that the pressure in the bleaching tower is 0 -5 bar, preferably 1.1 ~ 5 bar, and the temperature is 80-130 ° C. Process according to Claim 4, 5 or 6, characterized in that the peroxide step is acidic, the bleaching being carried out with peracid or Caro's acid. Process according to Claim 4, 5 or 6, characterized in that the peroxide step is alkaline and the bleaching is carried out with hydrogen peroxide. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - P for bleaching pulp to a brightness of over 80 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence. boiling - AQ - ZP for mass bleaching to a brightness exceeding 83 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - P - AQ -P for bleaching pulp to a brightness of over 83 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - P - ZQ - P for bleaching pulp to a brightness of over 88 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - ZQ - P - ZP for bleaching pulp to a brightness above 88 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - P - ZP for bleaching pulp to a brightness of more than 88 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - ZQ - P for bleaching pulp to a brightness of over 85 ISO. Use of a treatment according to claim 1, 4, 10 15 20 25 30 516 ess' *: oo oo 12 5 or 6 j. The bleaching sequence boiling - OAQ - P for bleaching pulp to a brightness of over 80 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - OAQ - P - AQ - P for bleaching pulp to a brightness of over 83 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - OAQ - PAQ - P for bleaching pulp to a brightness of over 83 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - PAQ - P for bleaching pulp to a brightness of over 83 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - PQ - P for bleaching pulp to a brightness of more than 88 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - PQ - ZP for bleaching pulp to a brightness of more than 88 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - AQ - ZPQ - ZP for bleaching pulp to a brightness of more than 88 ISO. Use of a treatment according to claim 1, 4, 5 or 6 in the bleaching sequence boiling - O - PAQ - P for bleaching pulp to a brightness of over 85 ISO.