SE504803C2 - Treatment of pulp with complexing agents in at least two mixing steps without intermediate washing - Google Patents

Abstract

A method of chlorine-free bleaching of pulp where metals are removed by means of a chelating agent. The chelating agent is admixed to the pulp in at least two subsequent mixing steps without intermediate washing. The stay-time between the mixing steps shall be less than 15 minutes, and the pulp is washed after the last mixing step.

Description

504 803 washing steps where the exposed and complexed metal ions are washed out. The exposed liquid that is enriched in metal ions usually goes to the drain.

The conditions normally used in a Q-step are a temperature of 70-90 ° C, a residence time of 1-2 hours, pulp concentration 10-14%, pH 5-7 and complexing agent charge 1-3 kg per tonne of pulp. From a strictly bleaching point of view, the Q-step is actually an unnecessary treatment step because no increase in brightness takes place there. However, the Q-treatment is necessary for a successful chlorine-free bleaching as stated above. If the Q-step could be simplified without reducing the efficiency in the elimination of metals, large savings could be achieved because a complete bleaching step with bleaching tower is expensive.

The present invention is directed to a solution to the above problems. The invention thus entails a streamlining of the Q-step by efficiently eliminating the metals at the same time as the Q-step is simplified with reduced investment cost as a result in relation to a conventional Q-step.

The invention is based on the fact that it has surprisingly been found that the efficiency of the Q-step is considerably less affected by increased reaction temperature than by increased retention time. According to classical chemical kinetics, this indicates that the Q-step is diffusion-controlled and not reaction-controlled. This means that the Q-step should be performed so that the diffusion is facilitated and if this is done efficiently, the total retention time can thus be considerably reduced.

The features of the invention appear from the claims.

The best way to reduce the diffusion resistance is to reduce the diffusion distance of active reactants and triggered reaction products and this is done on a technical scale by efficient mixing, preferably in a mixer. Thus, by repeated efficient mixing, the retention time in the Q-step can be reduced.

The number of mixing steps should be at least two, preferably at least three. For economic reasons, however, the number of mixing steps and thus the number of mixers must be kept at a reasonable level. A suitable number can be 2-4 steps. A certain retention time between the mixing steps is good, but this time does not have to be long, since the diffusion rate without mixing is still considerably so4 so3 slower than what can be achieved by mixing, for example in a mixer. The residence time between the mixing steps should thus be short, less than 15 minutes, suitably less than 10 minutes and preferably less than 5 minutes. Furthermore, the mixing steps must be performed one after the other without intermediate washing. The washing required to remove the metals from the pulp suspension must be carried out after the last mixing step.

The complexing agent is suitably of the type EDTA (ethylenediaminetetraacetic acid) or DTPA (diethylenetriaminepentaacetic acid), but other types of complexing agents can also be used, for example NTA (nitrilotriacetic acid) or DTPMP (diethylenetriaminepentamethylenephosphonic acid). The total amount of complexing agent added should be 0.5 - 5 kg per tonne of pulp (calculated as pure complexing agent), preferably 1 - 3 kg per tonne of pulp.

The entire addition of complexing agents can be done in the first mixing step, whereby subsequent mixing steps only provide a renewed mixing. Alternatively, the complexing agent may be added in several of the mixing steps. The addition should then mainly be made in the first step and the amount of additive in the subsequent steps should be less than 2 kg per tonne of pulp per step.

The temperature in the mixing steps should be above 70 ° C and preferably above 80 ° C. A preferred temperature range is 80 - 120 ° C.

The pressure in the entire Q-stage should suitably be 1 - 10 bar.

Particularly effective mixing can be achieved by using high-intensity mixers which break up the fiber network in the pulp and provide a close contact between fibers and complexing agents.

The invention is of course not limited to the above-mentioned embodiments but can be varied within the scope of the inventive idea.

Claims (9)

504 sus 4 Patentkrav 1. In the case of chlorine-free bleaching of pulp where metals are removed by means of a complexing agent, characterized in that the complexing agent is mixed with the pulp without using the bleaching tower in at least two successive mixing steps without intermediate washing, that the time interval between mixing steps is shorter than 15 minutes and that the mass is washed after the last mixing step. 2. A method according to claim 1, characterized in that the entire addition of complexing agents is made in the first mixing step, the subsequent mixing steps only producing a renewed mixing. 3. A method according to claim 1, wherein the complexing agent is added in several mixing steps. 4. A method according to any one of the preceding claims, characterized in that the entire addition of complexing agents amounts to 0.5 - 5 kg per tonne of pulp, preferably 1 - 3 kg per tonne of pulp. 5. A method according to any one of the preceding claims, characterized in that the temperature in the mixing steps is above 70 ° C. 6. A method according to any one of the preceding claims, characterized in that the complexing agent is of the EDTA or DTPA type. A method according to any one of claims 1 - 5, characterized in that the complexing agent is of the type NTA or DTPMP. 8. A method according to any one of the preceding claims, characterized in that the mixing of the complexing agent takes place by means of high-intensity mixers which break up the fiber network in the pulp and establish a close contact between fibers and complexing agents. 9. A method according to any one of the preceding claims, characterized in that the mixing steps are carried out at a pressure of 1 - 10 bar.