DE102004060405A1 - Method and device for loading suspension-containing fibers or pulp with a filler - Google Patents

Abstract

The invention relates to a method for loading fibers (2.1) or pulp (2.2) contained in a suspension (3) with a filler (4) by a chemical precipitation reaction, wherein the fibers (2.1) or the pulp (2.2) in the form a suspension (3) with a predefinable solids concentration (c) are provided. DOLLAR A The inventive method is characterized in that the fibers (2.1) or the pulp (2.2) in the form of a suspension (3) carbon dioxide (6) is added and that the fibers (2.1) or the pulp (2.2) in the form of a Suspension (3), to which carbon dioxide (6) has been added, preferably in at least one reactor (5) are mixed with lime or slaked lime (7) and thereby initiated the chemical precipitation reaction and largely, preferably completely, completed.

Description

The The invention relates to a method and a device for loading of fibers or pulp contained in a suspension with a filler by a chemical precipitation reaction, wherein the fibers or the pulp in the form of a suspension be provided a predetermined concentration solids.

at the production of fibrous webs, in particular paper or Cardboard webs are fillers such as in particular felled Calcium Carbonate (PCC - precipitated Calcium carbonate) or crushed or ground calcium carbonate (GCC - ground calcium carbonate) usual Substances used to reduce pulp content and to improve the optical properties of the fibrous web.

at the commercial PCC or GCC fillers they are mass-produced in specialized factories generated assigned to a paper or board factory as a satellite system could be. An online production of PCC has been or will be in the paper or Cardboard industry, however, never considered, due to the special process properties is due, the required for the production of PCC. Instead, PCC or GCC as bulk material or transported in the form of a suspension to the paper or board mills.

The loading of fibers or pulp contained in a suspension with an additive, for example filler, can be carried out, for example, by a chemical precipitation reaction, ie in particular by a so-called "Fiber Loading ^™ " process, as described, inter alia, in US Pat. Patent US 5,223,090 A is described. In such a "Fiber Loading ^™ " process, at least one additive, in particular filler, is deposited on the wetted fiber surfaces of the fiber material, whereby the fibers can be loaded with calcium carbonate, for example, by adding calcium oxide and / or calcium hydroxide to the moist, disintegrated fiber material in that at least a part of it associates with the water present in the fiber material The carbon fiber material treated in this way is then subjected to carbon dioxide, preferably in a shear field.

A method based on the method of the cited US patent and immediately improved method for loading fibers contained in a suspension is known, for example, from the German Offenlegungsschrift DE 102 04 254 A1 known. The precipitated product-laden fibers are milled to produce maximum dimensions of the precipitate product particles in a range of about 0.05 to about 5 microns, wherein the crystalline precipitate product particles are generated in an on-line process directly in the stock preparation line.

Furthermore, from the German patent application DE 101 07 448 A1 a method and apparatus for loading suspension-containing fibers with a filler by a chemical precipitation reaction. In this case, the suspension containing the fibers is fed to a pump disperger and acted upon in this by shear forces to break up larger fiber agglomerates into smaller or even individual fibers. At the same time, the pump disperger is used as the reactor for the chemical precipitation reaction.

Moreover, from the German patent application DE 101 20 526 A1 a process for the production of pulp for further use for the production of a fibrous web, in particular paper or board web, known. In this case, the pulp obtained by a pulp production process is first loaded with additive by a chemical precipitation reaction, preferably in accordance with the aforementioned US Pat US 5,223,090 , Then the already loaded pulp dried and provided for further use or shipped.

The processes described in the prior art are all characterized in that the lime [Ca (OH) ₂ ; slaked lime suspended in water; quicklime; Hydrated lime] or the slaked lime are first brought into contact with the fibers or pulp contained in the suspension, that is to say mixed, and then the carbon dioxide is introduced when the chemical precipitation reaction is triggered.

One The disadvantage of these methods is, in particular, that that they have only a low efficiency, since the milk of lime or the deleted one Lime the surfaces of the Fibers or pulp and thus the access of carbon dioxide blocked. The chemical precipitation reaction on the surfaces becomes possible only then after the carbon dioxide introduced through the layers of milk of lime or solved Lime has diffused through. This complicates in particular a loading the surfaces inside the fiber (lumen). Ultimately, therefore, only a small Part of the felled Calcium carbonate (PCC) attached to the surfaces. The rest Calcium Carbonate (PCC) is unbound and thus free.

The The object of the invention is therefore to provide an improved method of to create the aforementioned type, on the one hand as possible full and fast chemical reaction and, secondly, an efficient one Loading the surfaces the fibers (inside and outside) or the pulp. moreover to create an improved device of the type mentioned become, which makes it possible the chemical reaction in question continuously, efficiently and economically.

• – dass den Fasern oder dem Zellstoff in Form einer Suspension Kohlendioxid zugesetzt wird und
• – dass die Fasern oder der Zellstoff in Form einer Suspension, denen Kohlendioxid zugesetzt wurde, vorzugsweise in mindestens einem Reaktor mit Kalkmilch beziehungsweise gelöschtem Kalk vermischt werden und dabei die chemische Fällungsreaktion ausgelöst und weitestgehend, vorzugsweise vollständig abgeschlossen wird.

This object is achieved according to the invention in a method,

• - That carbon dioxide is added to the fibers or pulp in the form of a suspension and
• - That the fibers or the pulp are mixed in the form of a suspension to which carbon dioxide has been added, preferably in at least one reactor with lime or slaked lime and thereby triggered the chemical precipitation reaction and largely, preferably completely completed.

The inventive task is completely solved in this way.

By the addition and addition of carbon dioxide to the fibers or the pulp in the form of a suspension prior to the addition of Lime milk or deleted Lime is able, for a as complete and fast chemical reaction and on the other hand an efficient loading of the surfaces the fibers (inside and outside) or to reach the pulp. When adding lime milk or slaked Lime enters the chemical reaction directly and influences thus the loading process is excessive positive. The largest possible integration and sheathing of the fibers, both inside and outside or the pulp with calcium carbonate is achieved.

In particular, based on the already mentioned publication DE 101 20 526 A1 , the loaded pulp is then dried and provided for further use or shipped. The pulp can be provided in bale form, roll form or the like for further use or for shipping. The pulp itself can be produced, for example, by the sulphate process and / or by the sulphite process.

at The load reacts with the milk of lime or the slaked lime by introducing carbon dioxide in the form that forms crystalline structures form.

The Form of the forming conglomerates can be determined by the amount Carbon dioxide and the rate of introduction of carbon dioxide and partly due to the system temperature, possibly also through the prevailing flow conditions, decisively influence. Under the microscope one can distinguish two basic types: the rather rod-shaped or the plane or ball-like structures. The shape of the structure is especially at certain special papers of importance. As an example, be here Called cigarette paper, the rod-shaped structures needed at a defined porosity the necessary opacity to ensure.

Under Process engineering aspects, there are two preferred ways the loading: the carbon dioxide is added to the suspension in at least one upstream of the reactor in the process flow and preferably heated unit added or the carbon dioxide is the suspension added in the reactor, in which preferably delayed Mixing the suspension with lime or slaked lime is done. Both possibilities have independent Advantages.

at the first possibility the suspension becomes solid with carbon dioxide before the chemical reaction applied. The fibers accumulate inside with carbon dioxide and they come, so to speak, "preloaded" into the actual reaction vessel. The same of course applies for the Cellulose. There, the forming calcium carbonate encapsulates the respective surface fibers or pulp. Another improvement of Loading process is also possible by the inventive method that the fibers or the pulp itself are "soaked" with carbon dioxide or the deleted one Lime is thus already with respect to the upcoming precipitation reaction by the reactant carbon dioxide activated surfaces in contact. The precipitation reaction can thus in shorter Time and, above all, complete expire. This first possibility also allows the continuous addition of carbon dioxide and / or the continuous Mixing with milk of lime or slaked lime.

The second possibility basically offers the same advantages, but disadvantageously the addition of carbon dioxide and the mixing with milk of lime or slaked lime can only take place in batch mode. The application rate when using this second option is reduced accordingly, but investment and even operating costs due to a simplified system structure can be saved.

• – das Kohlendioxid kann der Suspension unter Einwirkung von Scherkräften, vorzugsweise in einem Pumpdisperger, zugesetzt werden;
• – das Kohlendioxid kann der Suspension unter Einsatz von Mischeffekten, vorzugsweise in einem stationären Mischsystem, insbesondere einem stationären Mischer, zugesetzt werden;
• – das Kohlendioxid kann der Suspension in mindestens einem stationären Mischer unter Einwirkung von Strömungsturbulenzen zugesetzt werden, wobei die Strömungsturbulenzen bei einer möglichen Injizierung von Kohlendioxid in eine Zufuhrleitung benutzt werden können; und/oder
• – das Kohlendioxid kann der Suspension unter Einsatz mindestens eines zumindest teilweise bewegten Mischsystems, vorzugsweise in einem Rührwerk, zugesetzt werden.

Furthermore, the first possibility offers a multiplicity of preferred embodiments:

• The carbon dioxide can be added to the suspension under the action of shearing forces, preferably in a pump disperger;
• The carbon dioxide can be added to the suspension using mixing effects, preferably in a stationary mixing system, in particular a stationary mixer;
• The carbon dioxide can be added to the suspension in at least one stationary mixer under the influence of flow turbulences, wherein the flow turbulences can be used in a possible injection of carbon dioxide into a supply line; and or
• - The carbon dioxide can be added to the suspension using at least one at least partially agitated mixing system, preferably in an agitator.

All embodiments mentioned have an exemplary character and are also characterized through a good efficiency for the chemical reaction.

in the With regard to the setting of an optimal consistency of the suspension at a given solids concentration, it may be advantageous be if the suspension before the addition of carbon dioxide water, for example Fresh water and / or white water is added. This can be the Consistency of the suspension varies within certain limits become.

About this it may also be advantageous if even in the reactor before and / or during and / or after adding lime or slaked lime water, such as fresh water and / or white water is added. This allows a subsequent adjustment the consistency of the suspension.

In Further preferred embodiments, it is provided that the suspension before adding the carbon dioxide by means of at least one degassing device is degassed and / or that the carbon dioxide of the suspension below Pressurization is added. Both explained embodiments contribute positively to a successful loading of the fibers or the Pulp in the course of the chemical reaction at.

The Carbon dioxide is preferred to the suspension as pure carbon dioxide and / or added as a flue gas. For example, the flue gas be taken from boilers or power plants. Both possibilities support the loading process, the use of flue gas in general cost-effective should be.

Under economic and ecological reasons the suspension by dissolution of pulp or waste paper containing aggregates in at least a pulper produced or as a non-dried substance, also known as "never tried pulp " is fed to the loading process, such as from another pulp mill.

In order to the loading process is as reliable as possible, are in the at least one Reactor preferably measures the reaction parameters and optionally for controlling the chemical precipitation reaction used. These include those for the safe and optimal Litigation relevant reaction parameters at least the pH, the temperature, the residence time, the throughput of suspension and / or lime milk or deleted Lime. Preferably, this is at least the end of the reaction measured pH of the suspension compared with a target value and the bias will ideally be over at least one of the following Process control variables reduced or eliminated: adding lime or milk slaked Lime, addition of carbon dioxide, throughput of suspension and / or like.

The Moreover, the object mentioned at the outset becomes solved by a device for loading suspended matter Fibers or pulp contained with a filler by a chemical Precipitation reaction, wherein the fibers or the pulp in the form of a suspension be provided a predetermined concentration solids. These Device is characterized in that at least one reactor is provided in which the fibers or pulp in the form of a Suspension, to which carbon dioxide was added, with lime milk or slaked Lime are mixed, thereby causing the chemical precipitation reaction and largely, preferably completely is completed.

preferred embodiments the device according to the invention are in the subclaims specified.

The inventive method and the device according to the invention let yourself suitably also in the production of a fibrous web, in particular paper or board web, to be used for their production at least fibers or pulp in the form of at least one suspension were used, according to the inventive method were loaded.

Further Features and advantages of the invention will become apparent from the following Description of preferred embodiments with reference to the drawing.

It demonstrate

1 a schematic representation of an apparatus for loading of fibers in suspension with a filler by a chemical precipitation reaction; and

2 a schematic representation of another device for loading of fibers contained in a suspension with a filler by a chemical precipitation reaction.

The 1 shows a schematic representation of a device 1 for loading in a suspension 3 contained fibers 2.1 or pulp 2.2 with a filler 4 by a chemical precipitation reaction, whereby the fibers 2.1 or the pulp 2.2 in the form of a suspension 3 be provided with a predetermined concentration of solids c.

The device 1 includes a reactor 5 in which the fibers 2.1 or the pulp 2.2 in the form of a suspension 3 which carbon dioxide 6 was added, with lime or slaked lime 7 are mixed while the chemical precipitation reaction is triggered and largely, preferably completely completed. The carbon dioxide 6 can the suspension 3 be added as pure carbon dioxide and / or as a flue gas.

In the device 1 of the 1 the addition of carbon dioxide takes place 6 and mixing with milk of lime or slaked lime 7 in batch mode.

The reactor 5 has at least one supply line 8th for carbon dioxide 6 on, leaving carbon dioxide 6 before and / or simultaneously with the addition of lime or slaked lime 7 over a line 9 the fibers 2.1 or the pulp 2.2 in the form of a suspension 3 can be supplied. The filler 4 in this case is calcium carbonate.

Furthermore, a supply line 11 for water 10 provided, which before adding the carbon dioxide 6 and / or before and / or during and / or after the addition of lime or slaked lime 7 can be added.

In addition, both a degassing device 12 for degassing of the suspension 3 before adding the carbon dioxide 6 as a pressure generator 13 for the pressurized addition of carbon dioxide 6 to the suspension 3 intended. The known and only schematically illustrated degassing 12 is with by means of a line 14 to the reactor 5 connected, whereas the known and again only schematically illustrated pressure generating device 13 by means of the already existing line 8th to the reactor 5 connected.

A well known and state of the art scaler 15 is to produce the suspension 3 due to dissolution of pulp or waste paper with aggregates. The production of the suspension 3 can of course also be done by supplying non-dried material.

Moreover, the reactor has 5 about at least one system 16 for measuring the reaction parameters and optionally for controlling the chemical precipitation reaction. The relevant reaction parameters include at least the pH, the temperature, the residence time, the throughput of suspension and / or lime or slaked lime. Such a system 16 including measuring cells and actuators or actuators are generally known and therefore only indicated by way of example.

at the implementation the method according to the invention the reaction parameters are preferably in the following value ranges the pH of the suspension in the reactor is between 6 and 11, preferably between 7 and 10, temperature of the suspension in the reactor between about -15 and about 120 ° C, preferably between about 20 and about 90 °, residence time of the suspension in the reactor between 0.5 minutes and about 4 hours, preferably between 3 minutes and about 1 hour. The throughput of suspension and / or lime or slaked lime depends significantly on the size of the reactor off and lets thus not easy to quantify.

The 2 shows a schematic representation of another device 1 for loading in a suspension 3 contained fibers 2.1 or contained pulp 2.2 with a filler 4 by a chemical precipitation reaction.

This device 1 builds in principle on the device 1 of the 1 so that reference is made in essential parts to these and their description.

The device 1 again comprises a reactor 5 in which the fibers 2.1 or the pulp 2.2 in the form of a suspension 3 with lime milk or slaked lime 7 be mixed and thereby the chemical precipitation reaction is triggered and as far as possible, preferably completely completed. For the addition of lime milk or slaked lime 7 in the reactor is a pipe 9 intended.

In contrast to the execution of 1 is now one of the reactor 5 in the process sequence upstream and preferably heatable unit 17 provided in the fibers 2.1 or the pulp 2.2 in the form of a suspension 3 carbon dioxide 6 is added. The unit 17 has for this purpose at least one supply line 8th for carbon dioxide 6 on. The possible warming of the unit 17 in a known manner allows a direct influence on the reaction temperature of the subsequent chemical reaction.

The carbon dioxide 6 can the suspension 3 be added as pure carbon dioxide and / or as a flue gas. The filler 4 in this case is calcium carbonate.

In the device 1 of the 2 the addition of carbon dioxide takes place 6 and mixing with milk of lime or slaked lime 7 so continuously.

The the reactor 5 in the process flow upstream unit 17 includes at least one pump disperger 18 that during the addition of carbon dioxide 6 via the at least one supply line 8th to the suspension 3 Shear forces generated. Such a pump disperger 18 is constructive and functional, for example, from the already cited German patent application DE 101 07 448 A1 known. The content of this document is hereby incorporated by reference into the present specification.

In a further embodiment, the reactor 5 in the process flow upstream unit 17 Also include at least one stationary mixing system, such as a stationary mixer or a feed line through which the suspension flows, which produces mixing effects during the addition of the carbon dioxide to the suspension. Furthermore, it may also comprise at least one partially agitated mixing system, such as an agitator, which produces mixing effects during the addition of the carbon dioxide to the suspension. Such embodiments are well known to those skilled in the art, so that their detailed representation can be omitted.

The device 1 further comprises both a degassing device 12 for degassing of the suspension 3 before adding the carbon dioxide 6 as well as a pressure generating device 13 for the pressurized addition of carbon dioxide 6 to the suspension 3 , The known and only schematically illustrated degassing 12 is with by means of a line 14 to the reactor 5 connected, whereas the known and again only schematically illustrated pressure generating device 13 by means of the already existing line 8th to the unit 17 connected.

A well known and state of the art scaler 15 is to produce the suspension 3 due to dissolution of pulp or waste paper with aggregates. The production of the suspension 3 can of course also be done by supplying non-dried material.

Moreover, the reactor has 5 again about at least one system 16 for measuring the reaction parameters and optionally for controlling the chemical precipitation reaction. The relevant reaction parameters include at least the pH, the temperature, the residence time, the throughput of suspension and / or lime or slaked lime. Such a system 16 including measuring cells and actuators or actuators are generally known and therefore only indicated by way of example.

The device 1 Thus, it is outstandingly suitable for producing a fibrous web, at least fibers being used for its production 2.1 or pulp 2.2 in the form of at least one suspension 3 were used, according to the inventive method when using the device according to the invention 1 were loaded.

In summary can be stated that by the invention an improved Method and an improved device of the aforementioned Species is created, on the one hand as complete and as possible fast chemical reaction and on the other hand an efficient loading the surfaces the fibers (inside and outside) or pulp.

1

contraption

2.1

fiber

2.2

cellulose

3

suspension

4

filler

5

reactor

6

carbon dioxide

7

lime or deleted lime

8th

supply line

9

supply line

10

water

11

supply line

12

degassing

13

Pressure generator

14

management

15

pulper

16

system

17

unit

18

Pumpdisperger

c

Solids concentration

Claims (38)

Method of loading in suspension ( 3 ) contained fibers ( 2.1 ) or contained pulp ( 2.2 ) with a filler ( 4 ) by a chemical precipitation reaction whereby the fibers ( 2.1 ) or the pulp ( 2.2 ) in the form of a suspension ( 3 ) are provided with a predefinable concentration of solids (c), characterized in that the fibers ( 2.1 ) or the pulp ( 2.2 ) in the form of a suspension ( 3 ) Carbon dioxide ( 6 ) and that the fibers ( 2.1 ) or the pulp ( 2.2 ) in the form of a suspension ( 3 ) containing carbon dioxide ( 6 ), preferably in at least one reactor ( 5 ) with lime or slaked lime ( 7 ) are mixed while the chemical precipitation reaction is triggered and largely, preferably completely completed. Process according to claim 1, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) in at least one of the reactors ( 5 ) upstream in the process flow and preferably heatable unit ( 17 ) is added. Process according to claim 2, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added under the action of shear forces. Method according to claim 2 or 3, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) in a pump disperger ( 18 ) is added. Process according to claim 2, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added using mixing effects. Process according to claim 2 or 5, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added using at least one stationary mixing system. Process according to claim 2, 5 or 6, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added in at least one stationary mixer. Process according to claim 2 or 7, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added in at least one stationary mixer under the influence of flow turbulence. Process according to claim 2 or 5, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added using at least one at least partially agitated mixing system. Process according to claim 9, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added in at least one agitator. Method according to one of the preceding claims, characterized in that the addition of the carbon dioxide ( 6 ) and / or mixing with lime milk or slaked lime ( 7 ) continuously. Process according to claim 1, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) in the reactor ( 5 ) is added, in which preferably the mixing of the suspension ( 3 ) with lime or slaked lime ( 7 ) is performed. Process according to claim 12, characterized in that the addition of the carbon dioxide ( 6 ) and mixing with lime or slaked lime ( 7 ) in batch mode. Method according to one of the preceding claims, characterized in that the suspension ( 3 ) before adding the carbon dioxide ( 6 ) Water ( 10 ) is added. Method according to one of the preceding claims, characterized in that in the reactor ( 5 ) before and / or during and / or after the addition of lime or slaked lime ( 7 ) Water ( 10 ) is added. Method according to one of the preceding claims, characterized in that the suspension ( 3 ) before adding the carbon dioxide ( 6 ) by means of at least one degassing device ( 12 ) is degassed. Method according to one of the preceding claims, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added under pressurization. Method according to one of the preceding claims, characterized in that the carbon dioxide ( 6 ) of the suspension ( 3 ) is added as pure carbon dioxide and / or as a flue gas. Method according to one of the preceding claims, characterized in that the suspension ( 3 ) by dissolving pulp or waste paper with aggregates in at least one pulper ( 15 ) or fed as a non-dried substance to the loading process, such as from another pulp mill. Method according to one of the preceding claims, characterized in that in the at least one reactor ( 5 ) the reaction parameters are measured and optionally used to control the chemical precipitation reaction. A method according to claim 20, characterized in that the reaction parameters at least the pH, the temperature, the residence time, the flow rate of suspension ( 3 ) and / or lime or slaked lime ( 7 ). A method according to claim 20 or 21, characterized in that the measured at the end of the reaction pH of the suspension ( 3 ) is compared with a desired value and the control deviation is reduced or eliminated via at least one of the following process control variables: addition of lime or slaked lime ( 7 ), Addition of carbon dioxide ( 6 ), Throughput of suspension ( 3 ) and / or the like. Contraption ( 1 ) for loading in suspension ( 3 ) contained fibers ( 2.1 ) or contained pulp ( 2.2 ) with a filler ( 4 ) by a chemical precipitation reaction whereby the fibers ( 2.1 ) or the pulp ( 2.2 ) in the form of a suspension ( 3 ) are provided with a predefinable concentration of solids (c), in particular for carrying out the method according to one of the preceding claims, characterized in that at least one reactor ( 5 ), in which the fibers ( 2.1 ) or the pulp ( 2.2 ) in the form of a suspension ( 3 ) containing carbon dioxide ( 6 ), with lime or slaked lime ( 7 ) are mixed while the chemical precipitation reaction is triggered and largely, preferably completely completed. Contraption ( 1 ) according to claim 23, characterized in that at least one of the reactor ( 5 ) upstream in the process flow and preferably heatable unit ( 17 ), in which the fibers ( 2.1 ) or the pulp ( 2.2 ) in the form of a suspension ( 3 ) Carbon dioxide ( 6 ) is added. Contraption ( 1 ) according to claim 24, characterized in that the 5 ) upstream unit in the process flow ( 17 ) at least one pump disperger ( 18 ) during the addition of the carbon dioxide ( 6 ) to the suspension ( 3 ) Generates shearing forces. Contraption ( 1 ) according to claim 24, characterized in that the 5 ) upstream unit in the process flow ( 17 ) comprises at least one stationary mixing system which during the addition of the carbon dioxide ( 6 ) to the suspension ( 3 ) Produces mixed effects. Contraption ( 1 ) according to claim 26, characterized in that the stationary mixing system comprises at least one stationary mixer. Contraption ( 1 ) according to claim 26 or 27, characterized in that the stationary mixing system comprises a stationary mixer in the form of one of the suspension ( 3 ) flowed through supply line ( 8th ) during the addition of the carbon dioxide ( 6 ) to the suspension ( 3 ) at least partially generates flow turbulences. Contraption ( 1 ) according to claim 24, characterized in that the 5 ) upstream unit in the process flow ( 17 ) comprises at least one partially agitated mixing system which, during the addition of the carbon dioxide ( 6 ) to the suspension ( 3 ) Produces mixed effects. Contraption ( 1 ) according to claim 29, characterized in that the mixing system comprises at least one agitator. Contraption ( 1 ) according to claim 23, characterized in that the reactor ( 5 ) at least one supply line ( 8th ) for carbon dioxide ( 6 ), so that carbon dioxide ( 6 ) before and / or simultaneously with the addition of lime or slaked lime ( 7 ) the fibers ( 2.1 ) or the pulp ( 2.2 ) in the form of a suspension ( 3 ) can be supplied. Contraption ( 1 ) according to one of claims 23 to 31, characterized in that at least one supply line ( 11 ) for water ( 10 ), which before addition of the carbon dioxide ( 6 ) and / or before and / or during and / or after the addition of lime or slaked lime ( 7 ) can be added. Contraption ( 1 ) according to one of claims 23 to 32, characterized in that at least one degassing device ( 12 ) for degassing the suspension ( 3 ) before adding the carbon dioxide ( 6 ) is provided. Contraption ( 1 ) according to one of claims 23 to 33, characterized in that a pressure-generating device ( 13 ) for the pressurized addition of carbon dioxide ( 6 ) to the suspension ( 3 ) is provided. Contraption ( 1 ) according to one of claims 23 to 34, characterized in that at least one pulper ( 15 ) for the production of the suspension ( 3 ) due to dissolution of pulp or waste paper with aggregates or a supply of undried substance. Contraption ( 1 ) according to one of claims 23 to 35, characterized in that the reactor ( 5 ) at least one system ( 16 ) for measuring the reaction parameters and optionally for controlling the chemical precipitation reaction. Contraption ( 1 ) according to claim 36, characterized in that the reaction parameters at least the pH, the temperature, the residence time, the throughput of suspension ( 3 ) and / or lime or slaked lime ( 7 ). Fiber web, in particular paper or board web, characterized in that at least fibers ( 2.1 ) or pulp ( 2.2 ) in the form of at least one suspension ( 3 ) loaded according to any one of claims 1 to 22.