CN103898795B - A kind of energy-conservation paper pulp of the high-strength modification of biology enzyme and pulping process - Google Patents

Abstract

The invention discloses the energy-conservation paper pulp of the high-strength modification of a kind of biology enzyme and pulping process thereof, comprise antiseptic 0.5 ~ 5 part, flexibilizer 1 ~ 3 part, intensifier 1 ~ 5 part, regenerated paper pulp 40 ~ 60 parts, filler 10 ~ 20 parts, defoamer 1 ~ 5 part, stabilizing agent 2 ~ 8 parts, retention agent 1 ~ 3 part, fiber 10 ~ 30 parts and biology enzyme 5 ~ 20 parts.The present invention utilizes biological enzyme technology to pull an oar, select the stronger biology enzyme of specific aim to pull an oar to slurry synchronously to process, not only energy consumption can be reduced, improve yield, modification can also be carried out to fiber, such as, wood pulp making beating enzyme is utilized to coordinate wood pulp making beating, improve beating degree, ensure fibre strength, reduce the power consumption during making beating of ton slurry; Utilize biology enzyme to pull an oar to OCC slurry, reduce beating degree, improve fibre strength; Improve the drainability of fiber, making beating property and mobility, reduce energy consumption simultaneously, improve size performance, thus improve paper quality.

Description

A kind of energy-conservation paper pulp of the high-strength modification of biology enzyme and pulping process

Technical field

The present invention relates to a kind of paper pulp and pulping process thereof, particularly relate to the energy-conservation paper pulp of the high-strength modification of a kind of biology enzyme and pulping process.

Background technology

As everyone knows, paper pulp is that Raw material processing forms with certain plants, and it is the base stock of papermaking, and paper pulp take string as raw material, through the fibrous material that different processing methods is obtained.Mechanical pulp, chemical pulp and chemimechanical pulp can be divided into according to processing method; Also wood pulp, straw pulp, jute pulp, reed pulp, sugarcane slurry, bamboo pulp, rag stock etc. can be divided into according to fibrous raw material used; Refined pulp, bleached pulp, unbleached pulp, high-yield pulp, semi-chemical pulp etc. can be divided into again according to different purity.Generally be used for manufacturing paper and cardboard.Refined pulp except for the manufacture of except speciality paper, also usually as the raw material manufacturing the cellulose derivative such as cellulose esters, cellulose ether.Also for fields such as artificial fibre, plastics, coating, film, gunpowder.

Current pulping process adopts traditional making beating operation, and traditional high strength making beating, power consumption is comparatively large, and the deduction degree of pulping is high, and dry run is difficult, and therefore cause the consumption of steam also larger, production output is subject to serious restriction.

Summary of the invention

Technical problem to be solved by this invention is to provide the energy-conservation paper pulp of the high-strength modification of biology enzyme and pulping process that a kind of energy consumption is low, stock quality is good.

For solving the problems of the technologies described above, the invention provides the energy-conservation paper pulp of the high-strength modification of a kind of biology enzyme, comprise following component: antiseptic 0.5 ~ 5 part, flexibilizer 1 ~ 3 part, intensifier 1 ~ 5 part, regenerated paper pulp 40 ~ 60 parts, filler 10 ~ 20 parts, defoamer 1 ~ 5 part, stabilizing agent 2 ~ 8 parts, retention agent 1 ~ 3 part, fiber 10 ~ 30 parts and biology enzyme 5 ~ 20 parts.

Concrete, the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, described filler is the mixture of 30% talcum powder and 70% titanium dioxide;

Described flexibilizer is epoxy resin toughener;

Described antiseptic is the antiseptic that silver ion is fixed on fluorite or Silica Surface formation;

Described defoamer is organosiloxane defoamer;

Described stabilizing agent is orange osmanthus acid barium stabilizing agent.

Concrete, the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, described fiber is string, animal fiber or mineral fibres.

Concrete, the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, described fiber is string.

Concrete, the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, described biology enzyme is wood pulp making beating enzyme.

Concrete, the pulping process of the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, comprises the steps:

1) select fiber raw material, carry out the separation of fiber;

2) washing, removal of impurities;

3) mixed processing, adds antiseptic, filler, defoamer, retention agent and biology enzyme;

4) pull an oar, and add flexibilizer, intensifier, regenerated paper pulp and stabilizing agent;

5) fill moisture, stir and obtain the energy-conservation paper pulp of the high-strength modification of biology enzyme of the present invention.

Concrete, the pulping process of the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, described filler is the mixture of 30% talcum powder and 70% titanium dioxide;

Described flexibilizer is epoxy resin toughener;

Described antiseptic is the antiseptic that silver ion is fixed on fluorite or Silica Surface formation;

Described defoamer is organosiloxane defoamer;

Described stabilizing agent is orange osmanthus acid barium stabilizing agent.

Concrete, the pulping process of the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, described fiber is string, animal fiber or mineral fibres.

Concrete, the pulping process of the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, described fiber is string.

Concrete, the pulping process of the energy-conservation paper pulp of the high-strength modification of aforesaid biology enzyme, described biology enzyme is wood pulp making beating enzyme.

Compared with prior art, beneficial effect of the present invention is: the energy-conservation paper pulp of the high-strength modification of biology enzyme and pulping process utilize biological enzyme technology to pull an oar, select the stronger biology enzyme of specific aim to pull an oar to slurry synchronously to process, not only can reduce energy consumption, improve yield, modification can also be carried out to fiber, such as, utilize wood pulp making beating enzyme to coordinate wood pulp making beating, improve beating degree, ensure fibre strength, reduce the power consumption during making beating of ton slurry; Utilize biology enzyme to pull an oar to OCC slurry, reduce beating degree, improve fibre strength; Improve the drainability of fiber, making beating property and mobility, reduce energy consumption simultaneously, improve size performance, thus improve paper quality.

Detailed description of the invention

Following detailed description of the invention is described in further details the present invention: the energy-conservation paper pulp of the high-strength modification of biology enzyme of the present invention, comprise following component: silver ion is fixed on the antiseptic 4 parts of fluorite or Silica Surface formation, flexibilizer epoxy resin 2 parts, intensifier 3 parts, regenerated paper pulp 55 parts, filler 15 parts, organosiloxane defoamer 3 parts, orange osmanthus acid barium stabilizing agent 2 parts, retention agent 1 part, vegetable seeds fiber 10 parts and wood pulp making beating enzyme 5 parts, wherein filler is the mixture of 30% talcum powder and 70% titanium dioxide.

The pulping process of the energy-conservation paper pulp of the high-strength modification of biology enzyme of the present invention, comprises the steps:

1) select fiber raw material according to the requirement of final paper, the boiling carrying out fiber is separated, and obtains the more uniform fiber of length;

2) fiber obtained is washed and removal of impurities, obtain the fiber of uniform component, for the stable and uniform of slurry lays the first stone;

3) mixed processing, adds antiseptic, filler, defoamer, retention agent and biology enzyme in the fibre;

4) making beating process, and add flexibilizer, intensifier, regenerated paper pulp and stabilizing agent;

5) fill moisture in fibre blend upon mixing, stir and obtain the energy-conservation paper pulp of the high-strength modification of biology enzyme of the present invention.

Utilize wood pulp making beating enzyme to coordinate wood pulp making beating, improve beating degree, ensure fibre strength, the power consumption during slurry making beating of minimizing ton, improving the performance of slurry, laying the first stone for manufacturing high-quality paper.

The foregoing is only better embodiment of the present invention; protection scope of the present invention is not limited with above-mentioned embodiment; in every case those of ordinary skill in the art modify or change according to the equivalence that disclosed content is done, and all should include in the protection domain recorded in claims.

Claims (6)

1. the energy-conservation paper pulp of the high-strength modification of biology enzyme, it is characterized in that, be made up of following component: antiseptic 0.5 ~ 5 part, flexibilizer 1 ~ 3 part, intensifier 1 ~ 5 part, regenerated paper pulp 40 ~ 60 parts, filler 10 ~ 20 parts, defoamer 1 ~ 5 part, stabilizing agent 2 ~ 8 parts, retention agent 1 ~ 3 part, fiber 10 ~ 30 parts and biology enzyme 5 ~ 20 parts.

2. the energy-conservation paper pulp of the high-strength modification of biology enzyme according to claim 1, is characterized in that, described filler is the mixture of 30% talcum powder and 70% titanium dioxide;

Described flexibilizer is epoxy resin toughener;

Described antiseptic is the antiseptic that silver ion is fixed on fluorite or Silica Surface formation;

Described defoamer is organosiloxane defoamer;

Described stabilizing agent is orange osmanthus acid barium stabilizing agent.

3. the energy-conservation paper pulp of the high-strength modification of biology enzyme according to claim 1, is characterized in that, described fiber is string, animal fiber or mineral fibres.

4. the energy-conservation paper pulp of the high-strength modification of biology enzyme according to claim 1, is characterized in that, described fiber is string.

5. the energy-conservation paper pulp of the high-strength modification of biology enzyme according to claim 1, is characterized in that, described biology enzyme is wood pulp making beating enzyme.

6. the pulping process of the energy-conservation paper pulp of the high-strength modification of the biology enzyme according to any one of claim 1 ~ 5, is characterized in that, comprise the steps:

1) select fiber raw material, carry out the separation of fiber;

2) washing, removal of impurities;

3) mixed processing, adds antiseptic, filler, defoamer, retention agent and biology enzyme;

4) pull an oar, and add flexibilizer, intensifier, regenerated paper pulp and stabilizing agent;

5) fill moisture, stir and obtain the energy-conservation paper pulp of the high-strength modification of biology enzyme.