AU726599B2

AU726599B2 - Treatment of pulp with a chelating agent without using a bleaching tower

Info

Publication number: AU726599B2
Application number: AU49741/97A
Authority: AU
Inventors: Ulf Germgard; Jonas Lindquist
Original assignee: Valmet Fibertech AB
Current assignee: Valmet AB
Priority date: 1997-01-03
Filing date: 1997-11-06
Publication date: 2000-11-16
Anticipated expiration: 2017-11-06
Also published as: WO1998029597A1; DE69722445D1; PT951599E; CA2275257A1; CN1103832C; AU4974197A; ZA9710418B; JP2001508837A; BR9714252A; SE9700030L; DE69722445T2; CN1242060A; SE508239C2; NO993290D0; SE9700030D0; ID20003A; NO993290L; ATE241725T1; ES2195123T3; EP0951599A1

Abstract

A method at chlorine-free bleaching of pulp where metals are removed by means of chelating agent. The chelating agent is mixed with the pulp in at least one effective mixing step without intermediate washing, whereafter the pulp without an intermediate tower passes directly to a pulp washer. The total retention time shall be at maximum 15 minutes, calculated after the chelating agent addition.

Description

WO 98/29597 PCT/SE97/01853 TREATMENT OF PULP WITH A CHELATING AGENT WITHOUT USING A BLEACHING

TOWER

This invention relates to the bleaching of chemical pulp with chlorine-free chemicals. The invention, more precisely, refers to a method of pretreating the pulp with chelating agents in combination with the bleaching.

Totally chlorine-free bleaching (TCF) of chemical papermaking pulp has become a success, and the world production of chlorine-free pulp will soon have got up to five million year-tons, which is an exceptional development considering that the bleaching method was introduced less than six years ago.

There exist, besides, variants of this theme, where the prebleaching is chlorine-free and the final bleaching is either of ECF (elementary chlorine-free) or TCF (totally chlorine-free) type.

Bleaching is carried out in most cases by treating the papermaking pulp to be bleached with chlorine-free chemicals first with a chelating agent of the type EDTA or DTPA. The chelating agent has the object to remove from the pulp certain metal ions, particularly manganese, copper, iron which affect the bleaching result negatively, if they remain in the pulp. The chelating agent usually is designated by the letter

Q.

The pulp is washed after the Q-step, so that the exposed metal ions are eliminated from the pulp as completely as possible. Thereafter the bleaching takes place, which normally is carried out with hydrogen peroxide, at times in combination with oxygen. Hydrogen peroxide steps are designated with the letter P, and P-steps reinforced with oxygen are designated with OP or PO where the dominating chemical is mentioned first. The thumb rule is that the greater the number of harmful metal ions eliminated from the pulp is, the more effective the subsequent bleaching will be.

WO 98/29597 2 PCT/SE97/01853 A method, at which the pulp is treated in a Q-stage and thereafter bleached in a P-stage, usually is called the "Lignox"-method, which is disclosed, for example, in EP-A-402 335.

The original pulp normally is oxygen delignified to a relatively low kappa number prior to the QP-bleaching. A low kappa number before the bleaching implies that the obtainable maximum bleaching result increases in the subsequent step, and that the bleaching chemical demand is reduced.

In mills, the QP-bleaching most often is carried out in such a way, that the pulp first is passed through a pump, which pumps the pulp suspension through the treatment steps.

Thereafter follows a mixer where the chelating agent is added to the pulp. The next step is a bleaching tower, where the pulp without additional agitation slowly passes through and where all remaining reaction takes place. The pulp finally passes to a washing step where the exposed and complexed metal ions are washed out. The freed liquid enriched on metal ions most often is discharged.

The conditions normally applied in a Q-step are a temperature of 70-900C, a retention time of 1-2 hours, a pulp consistency of 10-14%, a pH of 5-7 and a charge of chelating agent of 1-3 kg per ton pulp. By these conditions a very good metal separation can be achieved, which is necessary if subsequent bleaching is carried out on pulp with low lignin content (the kappa number is below about 5) and if a large amount of hydrogen peroxide is used in the stage (more than kg/t). If, however, the pulp still contains a considerable amount of lignin (kappa number above about and the hydrogen peroxide charge in the subsequent step is limited to about 5-10 kg/t, the demand for a complete metal elimination is less critical. Another case when it is sufficient that less metal is eliminated in the stage, i.e. less than 60% reduction, is for 3 example the case when the metal content before the Q-step is so low in relation to the metal content required after the Q-step. In such positions a somewhat simplified Qprocess should, therefore, be possible.

From a strict bleaching point of view, the Q-step per se is an unnecessary treatment step, because no proper bleaching takes place there. The Q-treatment, however, is necessary for a following successful P- or PO-bleaching, as appears from the aforesaid. If the Q-step could be simplified without reducing the effectiveness in the elimination of metals, great savings could be made, because S" a complete bleaching stage is expensive.

15 The present invention is directed to a simplification of the Q-step, preferably for pulps with kappa number above about 5, and preferably for chelating agent treatments which require less than 60% metal reduction. The simplification implies, that the investment 20 cost decreases in relation to a conventional Q-step.

The invention is based on the surprising observation, that the effectiveness of the Q-step is considerably less affected by increased reaction temperature than by increased retention time. This indicated, according to classical chemical kinetics, that the Q-step is diffusion controlled and not reaction controlled. This means, that the Q-step should be carried out so that the diffusion is facilitated, and if this is made effectively, the total retention time can thereby be reduced substantially.

According to the present invention there is provided a method of chlorine-free bleaching of pulp in which metals are eliminated by means of a chelating agent, including the steps of mixing the chelating agent with the pulp without using a bleaching tower in at least one H:\Caroline\Keep\Speci\49741_97,doc 11/09/00 3a effective mixing stage at a pH between 5 and 11, and washing the pulp at less than 15 minutes after the last mixing stage.

The best method to reduce the diffusion resistance is to decrease the diffusion distance for active reactants and released reaction products. On a technical scale this is made by effective mixing, for example in a mixer with long retention time. This, be effective mixing, the retention time in the Q-step can be shortened. The number of mixing steps is not critical, but the total mixing time must be above a certain ft e *e H:\Caroline\Keep\Speci\49741-97.doc 11/09/00 WO 98/29597 4 PCT/SE97/01853 critical level, alternatively at least two mixing apparatuses shall be used. For economic reasons, however, the number of mixing steps must be held on a reasonable level. For a pulp with kappa number above about 5, which shall be bleached further with at maximum about 5-10 kg hydrogen peroxide exclusive possible oxygen, a suitable number of mixing steps is 1-2. The same applies, if the metal reduction to be achieved in the chelating agent step is limited and need not be above When two mixing steps are used, a certain retention time between the mixing steps is favourable, but this time need not be long, because the diffusion rate without mixing yet is much slower than what can be achieved by mixing, for example in a mixer. The stay-time between the mixing steps, thus, shall be short, less than 10 minutes and preferably less than 5 minutes.

The mixing steps then shall be carried out one after the other without intermediate washing. The washing required for removing the metals from the pulp suspension shall be carried out less than 15 minutes after the last mixing step.

When more than one mixing step is used, the entire charge of chelating agent shall be added in the first mixing step, and subsequent mixing steps bring about only a renewed mixing. To divide the charge in such a way that at maximum one third of the chelating agent charge is added in the last step, however, is not detrimental, if the subsequent mixing is sufficiently effective.

The chelating agent preferably is of the type

EDTA

(ethylene diamine tetraacetic acid) or DTPA (diethylene triamine pentaacetic acid), but also other types of chelating agent can be used, for example NTA (nitrilotriacetic acid) or DTPMP (diethylene triamine pentamythylene phosphoric acid). The total amount of added chelating agent should be 0.5-3 kg per ton pulp (calculated as pure chelating agent), preferably 1-2 kg per ton pulp.

WO 98/29597 5 PCT/SE97/01853 The temperature in the Q-step should be above 75 0

C,

suitably over 80°C and more preferably over 85C. A preferred temperature interval is 8 5-110 0 C. The desired pH interval is pH to pH 11. The pulp consistency should be between 2 and 16%.

An especially effective mixing can be achieved by using high-intensity mixers or with another type of mixer, where the mixing is effective and the retention time is sufficient, so that a homogenous mixture of fibres and chelating agent is obtained.

In the Table below some results from a one-stage

Q-

treatment are shown, which was carried out with a high-intensity mixer for 3 seconds and with a subsequent retention time without mixing for 40 seconds before the pulp washing, and where the treatment was carried out at 95°C. For comparison, data are also shown from a conventional Q-treatment with conventional lab mixing of chelating agent with the pulp and a subsequent retention time of 60 minutes, where the step was carried out at 0

C.

WO 98/29597 6 PCT/SE97/01853 Experiment: The starting pulp was oxygen bleached and of coniferous sulphate type with kappa number 10.1, viscosity 975 dm3/t and brightness 43.0% ISO. The bleaching was carried out according to Q(OP) with 10 kg H,0 2 /t.

PH 8.6 in the Q- :^iiac.t'i Kappa number 5.7 5.7 Viscosity dm 3 /kg 771 807 Brightness% ISO 364.9807 Brightness ISO 63.4 64 9 p 4 64.9 The invention, of course, is not restricted to the embodiments described above, but can be varied within the scope of the patent claims.

Claims

1. A method of chlorine-free bleaching of pulp in which metals are eliminated by means of a chelating agent, including the steps of mixing the chelating agent with the pulp without using a bleaching tower in at least one effective mixing stage at a pH between 5 and 11, and washing the pulp at less than 15 minutes after the last mixing stage.

2. A method as defined in the preceding claim, in which the kappa number of the pulp before mixing with the chelating agent is above 5, or the desired metal reduction in the chelating agent mixing is less than

3. A method as defined in any one of the preceding claims, in which the entire addition of chelating agent amounts to 0.5-3 kg per ton pulp. 20 4. A method as defined in claim 3, in which the entire addition of chelating agent amounts to 1-2 kg per ton pulp. A method as defined in any one of the preceding claims, in which the temperature in the chelating agent stage is above 75°C and at maximum 110 0 C.

6. A method as defined in any one of the preceding claims, in which the pulp consistency in the chelating agent stage is 2-16%.

7. A method as defined in any one of the preceding claims, further including at least two mixing stages, in which the entire addition of chelating agent is made in the first mixing stage, and the subsequent mixing stages only bring about renewed mixing. H:\Caroline\Keep\Speci\49741-97.doc 11/09/00 8

8. A method as defined in any one of claims 1 to 6, in which there is at least two mixing stages and the chelating agent is added in several mixing stages.

9. A method as defined in any one of the preceding claims, in which the chelating agent is of the type EDTA or DTPA. A method as defined in any one of the preceding claims, in which the chelating agent is of the type NTA or S..DTPMP.

11. A method as defined in any one of the preceding claims, in which the mixing of the chelating agent with the pulp is carried out by high-intensity mixers, which break up the fibre network in the pulp and bring about close contact between fibres and the chelating agent.

12. A method of chlorine-free bleaching of pulp 20 substantially as hereinbefore described with reference to any one of the accompanying examples. H:\Caroline\Keep\Speci\49741-97.doc 11/09/00 H:\Caroline\Keep\Speci\49741-97.doc 11/09/00