RU2471031C2 - Control of deposits - Google Patents

Abstract

FIELD: textiles, paper.

SUBSTANCE: agent for prevention the formation of deposits in a paper-making machine comprising a first component comprising at least water-soluble sulfonated polymer and a second component comprising at least hypochlorite. The invention also relates to a method of preventing deposits in the paper production system using the said agent. After receiving information about the composition of deposits formed in the paper production system, the deposit control agent can be used, which is designed for effective prevention the formation of similar deposits.

EFFECT: more effective use of deposit control agents.

20 cl, 2 ex

Description

Technical field

The present invention relates to the field of papermaking, in particular, to the prevention and control of deposits formed in papermaking equipment.

BACKGROUND OF THE INVENTION

Modern paper production is a sensitive process requiring clean machine surfaces in order to produce an acceptable quality paper product with economic efficiency. Unwanted deposits are formed to varying degrees as a result of the deposition of three types of materials on mechanical surfaces. The first type of deposits is organic fat deposits, derived from wood or organic substances, such as artificial additives, which enter the process together with recycled paper. The second type is microbiological deposits resulting from the growth of microorganisms, such as bacteria, fungi and algae, in process water. Bacterial deposits are often referred to as "biofilm" or "biofouling." The third type is inorganic deposits resulting from the precipitation of salts, for example various salts of calcium and barium sulfate. Quite often, all three types of deposits are present at the same time.

Deposits formed on the surfaces of the paper machine reduce productivity, since the paper machine needs to be stopped and cleaned over time. Thus, deposits on the surface of the machine adversely affect the quality of the paper produced, which leads to breaks, holes and stains on the paper.

The various types of deposits and traditional methods used to solve deposits problems in paper machines are described in detail in Hassler, T, "The Source and control of Paper Machine Deposits", Applications of Wet End Paper Chemistry, Blackie Academic & Professional (1995).

The traditional approach was to process the above three types of deposits separately. The ratio between the components of the above deposits can vary widely, and in extreme cases, each component can be present in an amount of from 1 to 99% by dry weight. In a more typical situation, the content of each component is from 5 to 90% by dry weight. Finally, in some cases, all components may be present in equal amounts.

WO 2006/097578 A1 discloses a method for controlling biofilm formation using a combination of hypochlorite and a substance called BCDMH. The use of ammonium bromide or ammonium sulfate in combination with hypochlorite is also a well-known strategy to prevent biofilm formation.

Article "New Microbiological Growth Control Treatment Program for the Pulp and Paper Industry" (New treatment program for controlling microbiological growth); Paper Technology, Vol 48, No. 3 pp 38-40 (2007) describes a method for controlling biofilm formation using a composition comprising sulfonated lignin and a surfactant.

Patents US 5282976, US 6355214 and US 6144950 describe methods of controlling scale, formed due to the deposition of salt on the surface. These references illustrate the use of certain polymers that are known in the art as effective for controlling scale formation. Such products are called scale inhibitors.

Currently, mixed-scale sediment control typically involves the use of four different products. Moreover, the established practice is to remove deposits when the production is stopped with cleaning chemicals, which entails the use of additional products. Thus, there is a need in the art for improved methods for preventing and controlling deposits in papermaking systems.

SUMMARY OF THE INVENTION

The aim of the present invention is the provision of tools for improved control over the formation of deposits. In particular, it is an object of the present invention to provide an improved method for preventing the formation of deposits and an agent for use in such a method.

In one aspect, the invention relates to an anti-scale agent in a paper machine, which comprises a first component comprising a water-soluble sulfonated polymer and a second component containing hypochlorite. Said first component is preferably selected from the group consisting of lignosulfonate and a polymerization product of formaldehyde and naphthalenesulfonate, and combinations thereof.

The use of the agent according to the invention reduces the number of chemical products used in the manufacture of paper and paperboard to prevent and control deposits on the machine. As a result, the production process becomes more reliable, more cost-effective and more convenient.

The agent according to the invention has been found to be particularly effective in preventing deposits in paper and paperboard machines.

Optionally, said first component further comprises a surfactant and / or bromide salt.

Optionally, said second component further comprises a surfactant and / or bromide salt and / or a scale inhibitor.

By selecting the composition of the first and second components, respectively, it is possible to provide a combined effect on the formation of deposits, which typically consist of several different types of deposits, which improves the performance of the agent.

When a bromide salt is used in the first and / or second component, it is preferably selected from the group consisting of ammonium bromide and sodium bromide.

In another aspect, the invention relates to the use of said agent for preventing the formation of deposits in a papermaking system.

In another aspect, the invention relates to a method for preventing deposits in a paper machine of a papermaking system, comprising the steps of:

- Establishment of sediment composition;

- selecting a first component that contains at least a water-soluble sulfonated polymer;

- the choice of a second component that contains at least hypochlorite; and

- adding said first component and said second component to said papermaking system during operation of said system.

Having received information about the composition of the sediment formed in the papermaking system, and thus identifying the different components of the sediment and their corresponding amount, one can use the agent for controlling deposits, which is designed to effectively prevent the formation of such deposits. Thus, the method according to the invention allows more efficient use of the agent control deposits and achieve a more satisfactory result.

Preferably, said first and second components are added to the papermaking system at the same time. Due to the simultaneous or almost simultaneous addition of the components, an improved combined effect of the components of the agent according to the invention is achieved.

DETAILED DESCRIPTION OF THE INVENTION

The inventors unexpectedly found that sediments consisting of three different types of sediments, i.e. organic contents, inorganic contents and microbiological contents can be successfully processed using one agent, which is a combination of two compositions. This agent contains a first component containing a water-soluble sulfonated polymer and a second component containing hypochlorite. In addition, the inventors have developed a method for controlling deposits in a papermaking system, including the use of such an agent.

In General, the method according to the invention includes the following sequential steps:

(i) obtaining information (i.e. identification) about the composition of the sediment;

(ii) selecting the appropriate ingredients for both components based on the information obtained in step (i) above; and

(iii) introducing two components simultaneously into a paper or paperboard system.

Optionally, step (iii) may be followed by a verification of the effectiveness of the method and subsequent adjustment of the ingredients of the first component and / or the second component.

Establishing a sediment composition typically includes chemical and / or physical analysis of a sediment sample. Examples of methods that can be used include traditional methods of organic analysis, such as infrared spectroscopy, various chromatographic methods (e.g., gas chromatography and size exclusion chromatography), NMR and C ¹³ , x-ray spectroscopy, and other conventional liquid phase chemical methods. Conventional microbiological methods may also be used.

Samples for analysis can be taken anywhere in the papermaking process. In particular, a sample may be taken at a place that is known to be prone to deposits, for example, the surface of a white water tank or the surface of a headbox in a paper machine.

Based on the above deposition composition, a first component and a second component of an agent according to the invention are selected. So, in order to optimize their characteristics, the corresponding compositions of these two components are selected taking into account the composition of the deposits that must be prevented. Also, relative degrees of addition of the first and second components are typically set based on sediment composition. The composition of the components and their correct selection will be described below.

Thus, the agent according to the invention can be considered as a kit containing the first component and the second component.

Typically, the first component contains an aqueous solution of a sulfonated polymer. For example, a lignosulfonate or a polymerization product of a sulfonated naphthalene and formaldehyde can be used as a sulfonated polymer. The sulfonated polymer may be present in the agent according to the invention in a content of from 1 to 55% by weight of the total agent. In embodiments of the invention, additional substances may be included in the first component. For example, a bromide salt such as ammonium bromide or sodium bromide may be included in the first component. For example, the bromide content in the first component may range from 0 to 20% by weight of the total agent.

In embodiments of the invention, a surfactant may be included in the first component to improve the properties of the agent of the invention in some applications. Typically, a surfactant is anionic or nonionic. The scope of the invention also covers the use of a combination of surfactants, such as a combination of anionic and nonionic surfactants. An example of a suitable surfactant is ethoxylated alcohol obtained by the reaction of cetyl alcohol with ethylene oxide. Surfactants may be present in the first component when the content is in the range from 0 to 20% by weight of the total agent.

Thus, in addition to the sulfonated polymer, the first component may further comprise a bromide salt and / or surfactant.

As indicated above, the second component of the agent according to the invention contains hypochlorite. Hypochlorite is a commonly used cleanser for use in the home as well as in industrial applications. In addition, due to the oxidative activity of hypochlorite, the second component containing hypochlorite should preferably be prepared separately from the first component in order to maintain the activity of both components. The hypochlorite content in the second component of the agent according to the invention can be from 1 to 18% by weight of the total agent.

In addition, any conventional scale inhibitor or combination of polymers known as scale inhibitory agents may also be included in the second component. Examples of conventional scale inhibitors include polymers such as low molecular weight polymers and chelating agents such as EDTA and DTPA. A scale inhibitor may be present in a content of from 0 to 20% of the total weight of the agent.

In embodiments of the invention, the bromide salt may also be included in the second component of the invention. The bromide content in the second component may be in the range from 0 to 20% by weight of the total agent.

In addition, one or more surfactants can be included in the second component, which are known to be stable in hypochlorite solution, and also increase the cleaning properties of hypochlorite. The surfactant content in the second component of the agent according to the invention can reach up to 5% of the total weight of the agent. Examples of suitable surfactants include amine oxides.

The composition of the microbiological material should be the basis for the selection of the sulfonated polymer of the first component and its amount. Microbiological species that are particularly prone to scale formation are well known in the art. Thus, as a general rule, if it is found that the sediment sample contains large quantities of a specific microbiological material, then the content of the sulfonated polymer used in the first component should preferably be high. Conversely, if it is found that the sediment sample has a lower content of microbiological material, the content of the sulfonated polymer in the first component typically decreases.

The composition of any scale is the basis for choosing the scale inhibitor to be used and how much of this scale inhibitor should preferably be used in the method according to the invention. So, as a general rule, the higher the scale content in the sediment, the higher should be the content of the scale inhibitor in the second component.

Similarly, the composition and content of the material extracted into organic solvents should be the basis for choosing the type and amount of surfactant used.

In addition, the choice of the first and second components is affected by the papermaking system that needs to be processed and the quality of the paper produced in it. For example, a papermaking system operating at a high speed is more susceptible to scale formation than a system operating at a lower speed and may require higher concentrations of a sediment control agent. Similarly, a thin paper web is more susceptible to damage caused by deposits than a thicker web and thus may require higher concentrations of a sediment control agent.

According to the method of the invention, the agent is fed to a papermaking system. Preferably, the first and second components are fed into the system at the same time or only at short intervals to allow mixing of the two components in the papermaking system. Addition can be made anywhere in the papermaking process. Since process water is returned to the cycle and reused, the exact position of the point of addition is not critical. However, since it is usually more important to have clean surfaces in a short circulation around the molding section of the paper machine, it is preferable to add to this part of the process or shortly before it. It is preferable to have some residual concentration of hypochlorite in the water in the forming section of the paper machine. The agent of the invention is preferably supplied to the papermaking system while the system is in operation, and thus allows the system to be processed without interrupting the papermaking process. It may also be desirable to add one or both components to the secondary addition point in order to achieve broad control of deposits in the machine.

The agent and / or method of the invention can also be used to prevent deposits in the pulp production system, for example, in a commercial pulp receiving machine. Thus, as used here, it is understood that the term "papermaking system" covers a machine for producing wood pulp or paper pulp.

In embodiments of the invention, the fourth step is to confirm the effectiveness of steps (i) to (iii). Such a step may include the analysis of wet or dry samples taken from the surface of the machine. In the event that, despite the use of the agent according to the invention, deposits are still formed, it is preferable to establish the composition of this deposit, and then the composition of the first and second components can be adjusted accordingly to further reduce the degree of formation of deposits.

The invention will now be illustrated by the following examples.

Examples

Example 1

A sample of the deposited material is taken from the pressure tank of the paper machine. The composition of the sediment sample is determined using a combination of conventional methods for quantitative analysis and determination of precipitation parameters with respect to inorganic components, organic components and microbiological components.

A dry sediment sample has an organic fat content of about 30%, a microbiological material content of about 50%, and an inorganic salt content of 10 wt.%. The content of inorganic salts is represented mainly by calcium oxalate. The remaining 10% are wood fibers introduced into the matrix.

The sediment control agent is prepared as follows: the first component is prepared by dissolving in water 25% lignosulfonate, 10% ammonium bromide and 15% decanol, which reacted with 15 moles of ethylene oxide to form a nonionic surfactant; and the second component is prepared by combining 5% of the hypochlorite stable surfactant Triton W 30 (DOW Chemicals), 10% of a scale inhibitor that is known to prevent calcium oxalate deposits, and 15% of hypochlorite in water (the remaining 20%). All percentages are based on the total weight of the sediment control agent. The first component and the second component are added simultaneously to the paper machine directly in front of the mixing pump during continuous operation of the papermaking process.

Example 2

A sample of the deposited material is collected from a white water tank of a sanitary paper machine using recycled fiber. The composition of the sediment sample is determined using the methods of Example 1. A dry sediment sample has an organic content of 65 wt.%, Including a mixture of fusible adhesives and adhesives, and a microbiological material content of 25 wt.%. Inorganic matter is essentially absent in sediments. The remaining 10% are wood fibers introduced into the matrix.

The sediment control agent is prepared as follows. The first component is prepared by combining 30% of the polymer obtained by the reaction of sulfonated naphthalene with formaldehyde with 10% of the surfactant obtained by the reaction of oleic acid with polyethylene glycol to obtain a diester-based surfactant. The second component is prepared by adding 10% sodium bromide to a 15% hypochlorite solution. All percentages are based on the total weight of the sediment control agent. No scale inhibitor is used in any composition, since there is no scale in sediments. The first component and the second component are added simultaneously to the inlet of the white water tank during the papermaking process.

The above examples were used as a reference for the preparation of an agent according to the invention. As indicated above, the corresponding contents of the constituents of the first component and the constituents of the second component should be selected based on information about the composition of deposits and the sensitivity of the paper or paper production system.

Claims (20)

1. An agent that prevents the formation of deposits in the papermaking system, containing (a) a first component containing at least a water-soluble sulfonated polymer, and (b) a second component containing at least hypochlorite. 2. The agent according to claim 1, wherein said first component is selected from the group consisting of lignosulfonate, a polymerization product of formaldehyde and naphthalenesulfonate, and a combination thereof. 3. The agent according to claim 1, where the specified first component further comprises a surfactant. 4. The agent according to claim 2, where the specified first component further comprises a surfactant. 5. The agent according to claim 1, where the specified second component contains a surfactant. 6. The agent according to claim 2, where the specified second component contains a surfactant. 7. The agent according to claim 3, where the specified second component contains a surfactant. 8. The agent according to claim 4, where the specified second component contains a surfactant. 9. The agent according to claim 1, where the specified first component and / or the specified second component contain at least one bromide salt. 10. The agent according to claim 2, where the specified first component and / or the specified second component contain at least one bromide salt. 11. The agent according to claim 3, where the specified first component and / or the specified second component contain at least one bromide salt. 12. The agent according to claim 4, where the specified first component and / or the specified second component contain at least one bromide salt. 13. The agent according to claim 5, where the specified first component and / or the specified second component contain at least one bromide salt. 14. The agent according to claim 6, where the specified first component and / or the specified second component contain at least one bromide salt. 15. The agent according to claim 7, where the specified first component and / or the specified second component contain at least one bromide salt. 16. The agent of claim 8, where the specified first component and / or the specified second component contain at least one bromide salt. 17. An agent according to any one of claims 9 to 16, wherein said bromide salt is selected from the group consisting of ammonium bromide, sodium bromide, and a combination thereof. 18. An agent according to any one of claims 1 to 16, wherein said second component comprises a scale inhibitor. 19. The use of an agent according to any one of claims 1 to 18 to prevent the formation of deposits in the paper production system. 20. A method of controlling the formation of deposits in the paper production system, comprising the following stages:
i. obtaining information on the composition of the sediment,
ii. the selection of the first component according to any one of claims 1 to 18 based on the information obtained above,
iii. the choice of the second component according to any one of claims 1 to 18 based on the information obtained above, and
iv. adding, preferably simultaneously, said first component and said second component to said papermaking system during operation of said system.