Method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths

文档序号:561732 发布日期:2021-05-18 浏览:9次 中文

阅读说明:本技术 一种麦草叶鞘制备生物机械浆及生物质复合肥的方法 (Method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths ) 是由 吉兴香 田中建 陈嘉川 王东兴 马浩 王强 于 2020-12-31 设计创作,主要内容包括:本发明公开了一种麦草叶鞘制备生物机械浆及生物质复合肥的方法,包括:S1将经预处理的麦草叶鞘切段进行温水与碱性复合酶作用处理;S2、向S1处理后的麦草叶鞘加热水,并加入KOH调节pH,进行饱和软化处理;S3将经步骤S2软化处理后的麦草叶鞘进行磨浆处理制备生物机械浆;S4将温水与碱性复合酶作用处理的废水、饱和软化处理的废水、磨浆处理的洗涤水采用多效蒸发器进行蒸发浓缩处理得残渣,回收热能用于S2的饱和软化处理;将残渣与S1中不能进行加工使用的腐烂叶混合调酸制肥。本发明既能满足生产原色包装纸和纸基材料要求,又能对副产物进行回收制备生物质复合肥,大大减少了固废的排放,同时实现了麦草叶鞘的高值化全利用。(The invention discloses a method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths, which comprises the following steps: s1, performing warm water and alkaline complex enzyme action treatment on the pretreated sheath segments; s2, adding hot water into the wheat straw sheath treated in the S1, adding KOH for adjusting the pH value, and performing saturated softening treatment; s3, grinding the wheat straw sheath softened in the step S2 into pulp to prepare bio-mechanical pulp; s4, carrying out evaporation concentration treatment on the wastewater treated by the action of warm water and alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding to obtain residues by using a multi-effect evaporator, and recovering heat energy for the saturation softening treatment of S2; mixing the residue with rotten leaves which can not be processed in S1 to prepare acid fertilizer. The invention can meet the requirements of producing primary color packaging paper and paper base materials, can also recover byproducts to prepare the biomass compound fertilizer, greatly reduces the emission of solid waste, and simultaneously realizes the high-valued full utilization of wheat straw sheaths.)

1. A method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths is characterized by comprising the following steps:

s1, performing warm water and alkaline complex enzyme action treatment on the pretreated sheath segments;

s2, adding hot water into the wheat straw sheath treated in the step S1, adding KOH for adjusting the pH value, and performing saturation softening treatment;

s3, grinding the wheat straw sheath softened in the step S2 into pulp to prepare bio-mechanical pulp;

s4, carrying out evaporation concentration treatment on the wastewater treated by the action of the warm water and the alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding to obtain residues by using a multi-effect evaporator, and recycling heat energy for the saturation softening treatment in the step S2; mixing the residue with rotten leaves which can not be processed in step S1 to prepare acid fertilizer.

2. The method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths as claimed in claim 1, wherein in the step S1, the pretreatment step is physical screening and dedusting; cutting sheath of wheat straw into 3-6cm segments;

or, controlling the liquid ratio to be 1 kg: 4-8L;

or, the temperature is controlled to be 45-60 ℃, and the treatment time is controlled to be 30-90 min.

3. The method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths as claimed in claim 1, wherein the alkaline bio-enzyme is a compound enzyme of xylanase, cellulase and pectinase, and the total dosage is as follows: 10-80IU/mL, wherein the enzyme activity ratio of xylanase, cellulase and pectinase is 2-5: 1-2: 1; controlling the pH value of the wheat straw leaf sheath to be 7-10 by adding alkali;

preferably, the enzyme activity ratio of the xylanase, the cellulase and the pectinase is 2-3: 1-2: 1; preferably, the total dosage of the enzyme is 50-55 IU/mL.

4. The method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths as claimed in claim 1, wherein in the step S2, the pH is controlled to 9-12 and the temperature is controlled to 80-100 ℃ during the saturation softening treatment.

5. The method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths according to claim 1, wherein in step S3, the wheat straw sheaths are subjected to one-stage or multi-stage pulping treatment, and the pulping degree is controlled to be 25-55 ° SR;

or the pulping treatment process specifically comprises the following steps: and (3) carrying out high-concentration pulping by using a KPF series high-concentration disc grinder, wherein one-stage or two-stage pulping is adopted, and the pulping clearance is 0.1-0.6 mm.

6. The method for preparing the bio-mechanical pulp and the biomass compound fertilizer from the wheat straw sheaths as claimed in claim 1, wherein the mass ratio of the waste water treated by the action of warm water and alkaline complex enzyme, the waste water treated by saturation softening and the washing water treated by grinding is 5-6: 1-2: 2-10.

7. The method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths as claimed in claim 1, wherein the mass ratio of the residues to the rotten leaves which cannot be processed in step S1 is 4-6: 1-2.

8. The method for preparing the bio-mechanical pulp and the biomass compound fertilizer from the wheat straw sheaths as claimed in claim 1, which is characterized in that the specific process for preparing the fertilizer by acid blending comprises the following steps: adding phosphoric acid into the mixture to adjust the pH value to 6-7, drying, crushing and granulating to obtain the fertilizer.

9. A bio-mechanical pulp and/or a biomass compound fertilizer prepared by the method of any one of claims 1 to 8.

10. Use of the bio-mechanical pulp of claim 9 in the production of primary color packaging paper and paper based materials and/or use of the biomass compound fertilizer of claim 9 in the promotion of crop growth.

Technical Field

The invention belongs to the technical field of papermaking and fertilizer preparation, and relates to a method for preparing bio-mechanical pulp and a biomass compound fertilizer from wheat straw sheaths.

Background

The information in this background section is only for enhancement of understanding of the general background of the invention and is not necessarily to be construed as an admission or any form of suggestion that this information forms the prior art that is already known to a person of ordinary skill in the art.

In the conventional paper-making process, wheat straw is used as an important paper-making raw material, and wheat straw sheaths in the wheat straw are usually required to be removed as much as possible in the material preparation process, because wheat straw is not easy to pulp although the wheat straw also contains more holocellulose and hemicellulose. Specifically, because the wheat straw leaf sheath has short fiber, high content of hybrid cells, thick outer layer of the secondary wall and tight adhesion with the middle layer of the secondary wall, the fiber is difficult to remove in the pulping process, and the water absorption, the moisture expansion and the fibrosis of the fiber are very difficult to cause. If the fibrillation is required excessively during beating, excessive cutting of the fibers is inevitably caused, which not only affects the strength of the finished paper, but also makes water filtration difficult during papermaking. But the removal of the sheath of the wheat straw not only causes the cost increase of the stock preparation, but also greatly reduces the utilization rate of the wheat straw raw material. Therefore, CN 109457532A discloses a method for preparing bio-mechanical pulp from wheat straw sheaths, which uses wheat straw sheaths as raw materials and adopts a hot water and alkaline compound bio-enzyme process to prepare high-yield primary-color bio-mechanical pulp. However, the inventor finds that the byproducts generated by the method are difficult to realize high-efficiency utilization and are not beneficial to comprehensive high-value utilization of agricultural straws through research.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a method for preparing high-yield primary-color bio-mechanical pulp and a biomass compound fertilizer by using wheat straw sheaths as raw materials, and adopting a hot water and alkaline compound bio-enzyme process to prepare the high-yield primary-color bio-mechanical pulp for the first time, so that the requirements of producing primary-color packaging paper and paper-based materials are met, the by-products are recycled to prepare the biomass compound fertilizer, the emission of solid waste is greatly reduced, and the high-valued full utilization of the wheat straw sheaths is realized. The preparation method is simple, green, clean and efficient, and has good practical application value and wide application prospect.

In order to achieve the purpose, the invention relates to the following technical scheme:

in a first aspect of the invention, a method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths is provided, which comprises the following steps:

s1, performing warm water and alkaline complex enzyme action treatment on the pretreated sheath segments;

s2, adding hot water into the wheat straw sheath treated in the step S1, adding KOH for adjusting the pH value, and performing saturation softening treatment;

s3, grinding the wheat straw sheath softened in the step S2 into pulp to prepare bio-mechanical pulp;

s4, carrying out evaporation concentration treatment on the wastewater treated by the action of the warm water and the alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding to obtain residues by using a multi-effect evaporator, and recycling heat energy for the saturation softening treatment in the step S2; mixing the residue with rotten leaves which can not be processed in step S1 to prepare acid fertilizer.

In a second aspect of the invention, the bio-mechanical pulp and/or the biomass compound fertilizer prepared by the method is provided.

In a third aspect of the invention, there is provided the use of the above mentioned bio-mechanical pulp for the production of primary coloured packaging papers and paper based materials and/or the use of a biomass compound fertilizer for the promotion of crop growth.

Further, the application specifically comprises: the wheat straw sheath bio-mechanical pulp is formed by papermaking to obtain corrugated raw paper and/or boxboard paper non-surface layers.

The invention has the beneficial effects that: the wheat straw leaf sheath is used as a raw material, in the whole preparation process of the bio-mechanical pulp, only hot water, trace alkali and alkaline biological complex enzyme are adopted through reasonably optimizing the preparation process and steps, the pH value of the bio-mechanical pulp is close to neutral when pulp grinding is finished, the yield of the obtained bio-mechanical pulp is high (55-65%), the method that the wheat straw leaf sheath is not suitable for synthesizing pulp in the past and is removed in the material preparation process is broken through, the utilization rate of the wheat straw is greatly improved, compared with the traditional mechanical pulp, the energy consumption of pulp grinding can be saved by more than 40%, and various physical indexes meet the requirements of producing packaging paper and paper base materials.

According to the invention, the pulping washing water is treated by a multi-effect evaporator, 15-35% of solid residues are recovered, the pH value of the solid residues is adjusted by trace phosphoric acid, and then the solid residues are granulated to prepare the biomass compound fertilizer, the fertilizer contains a proper amount of K, P elements and a large amount of easily degradable wheat straw leaf sheath components with small particles, the whole production process is green and environment-friendly, and high-value full utilization of the wheat straw leaf sheath is realized. It should be noted that, unlike the traditional preparation of fertilizer based on chemical pulp (chemical pulp requires high temperature and high alkali, generally the temperature is above 160 ℃, and about 20% of alkali consumption) by-product, the invention adopts low temperature and less alkali mode, and the straw used in the mode is a good material of natural potash fertilizer, so the invention has natural advantages in fertilizer preparation, and meanwhile, the biomass compound fertilizer prepared by the invention has the advantages of high fertilizer efficiency, good storage stability and the like by optimizing the screening process conditions.

The preparation method is simple, energy-saving and environment-friendly, accords with the industrial policies of national resource conservation, economic cycle, energy conservation and emission reduction, and can generate good social benefit, economic benefit and ecological benefit, thereby having good practical application value and industrial application prospect.

Detailed Description

It is to be understood that the following detailed description is exemplary and is intended to provide further explanation of the invention as claimed. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

In one embodiment of the invention, a method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths is provided, which comprises the following steps:

s1, performing warm water and alkaline complex enzyme action treatment on the pretreated sheath segments;

s2, adding hot water into the wheat straw sheath treated in the step S1, adding KOH for adjusting the pH value, and performing saturation softening treatment;

s3, grinding the wheat straw sheath softened in the step S2 into pulp to prepare bio-mechanical pulp;

s4, carrying out evaporation concentration treatment on the wastewater treated by the action of the warm water and the alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding to obtain residues by using a multi-effect evaporator, and recycling heat energy for the saturation softening treatment in the step S2; mixing the residue with rotten leaves which can not be processed in step S1 to prepare acid fertilizer.

In some embodiments of the present invention, in step S1, the pretreatment step is physical screening and dedusting; cutting sheath of wheat straw into 3-6cm segments; the liquid ratio is controlled to be 1 kg: 4-8L; the temperature is controlled to be 45-60 ℃, and the treatment time is controlled to be 30-90 min.

In some embodiments of the present invention, the alkaline bio-enzyme is a combination enzyme of three enzymes, xylanase, cellulase and pectinase, and the total amount is: 10-80IU/mL, wherein the enzyme activity ratio of the xylanase, the cellulase and the pectinase is (0-5): (0-5): (0-3), the addition amount of each enzyme is not 0; controlling pH value of wheat straw sheath at 7-10 by adding alkali. Preferably, the enzyme activity ratio of the xylanase, the cellulase and the pectinase is (2-3): (1-2): 1. preferably, the total dosage of the enzyme is 50-55 IU/mL. The inventor further researches and discovers that the fertilizer efficiency and the storage stability of the fertilizer can be effectively improved by optimizing the enzyme activity ratio of the biological compound enzyme and matching with the subsequent addition amount of each wastewater while ensuring the high performance of the formed slurry.

In some embodiments of the invention, in the step S2, during the saturated softening treatment, the pH is controlled to be 9-12, and the temperature is controlled to be 80-100 ℃; the method is adopted to further treat and soften the sheath of the wheat straw leaves, and part of substances such as hemicellulose, lignin, pectin and the like are dissolved out;

in some embodiments of the invention, in step S3, the sheath of wheat straw is subjected to one or more stages of pulping treatment, and the pulping degree is controlled to be 25-55 ° SR; the pulping treatment process specifically comprises the following steps: and (3) carrying out high-concentration pulping by using a KPF series high-concentration disc grinder, wherein one-stage or two-stage pulping is adopted, and the pulping clearance is 0.1-0.6 mm.

In some embodiments of the invention, the mass ratio of the warm water to the wastewater treated by the action of the alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding is 5-6: 1-2: 2-10.

In some embodiments of the present invention, the mass ratio of the residue to the rotten leaves that cannot be processed in step S1 is 4-6: 1-2.

In some embodiments of the invention, the specific process for preparing the fertilizer by acid blending comprises the following steps: adding phosphoric acid into the mixture to adjust the pH value to 6-7, drying, crushing and granulating to obtain the fertilizer. By adopting phosphoric acid treatment, the alkaline is neutralized and simultaneously nutrient elements are introduced, so that the method is more economic and environment-friendly.

In another embodiment of the invention, the bio-mechanical pulp and/or the biomass compound fertilizer prepared by the method is provided.

In a further embodiment of the invention, there is provided the use of the above mentioned bio-mechanical pulp for the production of primary coloured packaging papers and paper based materials and/or the use of biomass compound fertilizers for promoting crop growth.

The invention is further illustrated by the following examples, which are not to be construed as limiting the invention thereto. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. The test methods in the following examples, which are not specified under specific conditions, are generally carried out under conventional conditions. The biological enzyme used in the invention is from Shandong Longkote enzyme preparation Co., Ltd, and Novexin biological enzyme preparation China Co.

Example 1

A method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths comprises the following steps:

(1) the air-dried wheat straw leaf sheaths after dust removal by physical selection are cut into standby raw materials with the length of 3 cm.

(2) Putting the standby raw materials into a normal-temperature processor or a reaction kettle, carrying out warm water and alkaline complex enzyme action treatment on the wheat straw leaf sheaths according to a liquid ratio of 1:5, adjusting the pH value by using KOH in the treatment process to ensure that the pH value of the wheat straw leaf sheaths containing water is 8, controlling the treatment time to be 90min and the temperature to be 50 ℃, wherein the alkaline biological enzyme is a compound enzyme of xylanase, cellulase and pectinase, and the total dosage is as follows: 50IU/mL, and the enzyme activity ratio of the xylanase, the cellulase and the pectinase is 3: 1: 1.

(3) taking out the sheath when the sheath reaches a certain softening degree, further treating with hot water with pH value of 12 and temperature of 100 deg.C for 40min at a liquid ratio of 1:4 to soften the sheath, and dissolving out partial hemicellulose, lignin, pectin, etc.

(4) And after the sheath is softened by the hot water saturation, grinding the sheath into pulp in one or more sections to make the beating degree of the sheath in 42 DEG SR.

(5) Making the ground pulp into pulp with a quantitative rate of 70g/m2The corrugated base paper is tested for physical indexes, and each physical index can meet the requirements of the common corrugated base paper.

(6) Carrying out evaporation concentration treatment on the wastewater treated by the action of warm water and alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding according to the mass ratio of 5:2:10 by using a multi-effect evaporator to obtain residues, and recovering heat energy for the saturation softening treatment in the step (3); and (3) mixing the residues and the rotten leaves which cannot be processed and used in the step (1) according to a ratio of 5:1, adding phosphoric acid to adjust the pH value to 6, and drying, crushing and granulating to prepare the biomass organic fertilizer.

Example 2

A method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths comprises the following steps:

(1) the air-dried wheat straw leaf sheaths after dust removal by physical selection are cut into standby raw materials with the length of 4 cm.

(2) Putting the standby raw materials into a normal-temperature processor or a reaction kettle, carrying out warm water and alkaline complex enzyme action treatment on the wheat straw leaf sheaths according to a liquid ratio of 1:4, adjusting the pH value by using KOH in the treatment process to ensure that the pH value of the wheat straw leaf sheaths containing water is 9, controlling the treatment time to be 70min and the temperature to be 55 ℃, wherein the alkaline biological enzyme is a compound enzyme of xylanase, cellulase and pectinase, and the total dosage is as follows: 40IU/mL, and the enzyme activity ratio of the xylanase, the cellulase and the pectinase is 3: 2: 1.

(3) taking out the sheath when the sheath reaches a certain softening degree, further treating with hot water with pH value of 12 and temperature of 90 deg.C for 60min at a liquid ratio of 1:5 to soften the sheath, and dissolving out partial hemicellulose, lignin, pectin, etc.

(4) And after the sheath of the wheat straw is softened by thermal saturation, grinding the sheath of the wheat straw by one or more sections to make the beating degree of the sheath of the wheat straw be 40-degree SR.

(5) Making the ground pulp into a pulp with a quantitative of 60g/m2The corrugated base paper is tested for physical indexes, and each physical index can meet the requirements of the common corrugated base paper.

(6) Carrying out evaporation concentration treatment on the wastewater treated by the action of warm water and alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding according to the mass ratio of 6:1:8 by using a multi-effect evaporator to obtain residues, and recovering heat energy for the saturation softening treatment in the step (3); and (3) mixing the residues and the rotten leaves which cannot be processed and used in the step (1) according to a ratio of 5:2, adding phosphoric acid to adjust the pH value to 6, and drying, crushing and granulating to prepare the biomass organic fertilizer.

Example 3

A method for preparing bio-mechanical pulp and biomass compound fertilizer from wheat straw sheaths comprises the following steps:

(1) the air-dried wheat straw leaf sheaths after physical selection and dust removal are cut into 5 cm-long standby raw materials.

(2) Putting the standby raw materials into a normal temperature processor or a reaction kettle, performing the action treatment of the warm water and the alkaline complex enzyme on the wheat straw leaf sheaths according to the liquid ratio of 1:6, adjusting the pH value with KOH in the treatment process to ensure that the pH value of the water content of the wheat straw leaf sheaths is 8, controlling the treatment time to be 60min and the temperature to be 50 ℃; the alkaline biological enzyme is a compound enzyme of xylanase, cellulase and pectinase, and the total dosage is as follows: 40IU/mL, and the enzyme activity ratio of the xylanase, the cellulase and the pectinase is 2: 1: 1.

(3) taking out the sheath when the sheath reaches a certain softening degree, further treating with hot water with pH value of 12 and temperature of 100 deg.C for 50min at a liquid ratio of 1:6, and dissolving out partial hemicellulose, lignin, pectin, etc.

(4) And after the sheath of the wheat straw is softened by thermal saturation, grinding the sheath of the wheat straw by one or more sections to make the beating degree of the sheath of the wheat straw be 38 DEG SR.

(5) Making the ground pulp into a quantitative 80g/m2The corrugated base paper is tested for physical indexes, and each physical index can meet the requirements of the common corrugated base paper.

(6) Carrying out evaporation concentration treatment on the wastewater treated by the action of warm water and alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding according to the mass ratio of 5:1:10 by using a multi-effect evaporator to obtain residues, and recovering heat energy for the saturation softening treatment in the step (3); and (3) mixing the residues and the rotten leaves which cannot be processed and used in the step (1) according to a ratio of 4:2, adding phosphoric acid to adjust the pH value to 6, and drying, crushing and granulating to prepare the biomass organic fertilizer.

Experimental example 1: the method is the same as the example 1, and has the difference that the total dosage of the compound enzyme of xylanase, cellulase and pectinase is 50IU/mL, the enzyme activity ratio is 4: 2: 1.

experimental example 2: the method is the same as the example 1, and has the difference that the total dosage of the compound enzyme of xylanase, cellulase and pectinase is 50IU/mL, the enzyme activity ratio is 5:2: 1.

experimental example 3: the method is the same as the embodiment 1, and is characterized in that the mass ratio of the wastewater treated by the action of the warm water and the alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding is controlled to be 4:1: 10.

Experimental example 4: the method is the same as the embodiment 1, and is characterized in that the mass ratio of the wastewater treated by the action of the warm water and the alkaline complex enzyme, the wastewater treated by saturation softening and the washing water treated by grinding is controlled to be 5:2: 15.

Experimental example 5: the method is the same as example 1 except that the mass ratio of the residue to the rotten leaves which cannot be processed in step (1) is controlled to 1: 2.

Experimental example 6: the method is the same as example 1 except that the mass ratio of the residue to the rotten leaves which cannot be processed in step (1) is controlled to 7: 1.

Effect verification:

1. table 1 shows a comparison of the physical properties of the pulps prepared in example 1 and experimental examples 1 and 2, and it can be seen that the physical properties of the respective constituent pulps are better, and the requirements for producing natural-color wrapping paper and paper-based materials are met. Experimental examples 2 to 6 the physical properties of the resulting slurry were the same as those of example 1.

TABLE 1 comparison list of physical performance indexes of pulp formed by using wheat straw hot steam and bio-enzyme treatment

2. Example 1 and Experimental examples 1-6 detection of fertilizer efficiency of biomass compound fertilizer

(1) Corn pot test

The bio-organic fertilizer prepared in example 1 and experimental examples 1-6 was applied to potted corn for testing, and a biomass compound fertilizer (3g/kg soil) was applied to the seedling stage of the corn, and the results are shown in table 2, which shows that the biomass of the corn is significantly increased in example 1 and experimental examples 1-6 compared with the CK control group without fertilizer, wherein the effect is best in example 1.

TABLE 2

(2) Wheat potting test

The bio-organic fertilizer prepared in example 1 and experimental examples 1 to 6 was applied to potted wheat and applied with a biomass compound fertilizer (5g/kg soil) at the seedling stage of wheat, and the results are shown in table 3, which shows that both example 1 and experimental examples 1 to 6 increase the biomass of wheat compared with the control group CK without fertilizer application, wherein the effect is the best in example 1.

TABLE 3

Examples of the invention Biomass (g/basin) Increase (%)
CK 9.93 -
Example 1 12.12 22.1
Experimental example 1 11.86 19.4
Experimental example 2 11.52 16.0
Experimental example 3 10.87 9.5
Experimental example 4 11.78 18.6
Experimental example 5 11.62 17.0
Experimental example 6 11.51 15.9

3. Example 1, Experimental examples 1-6 detection of storage stability of Biomass Compound fertilizers

The caking problem affects the appearance quality of the compound fertilizer and brings inconvenience to the transportation and application of the compound fertilizer, so that the storage stability (anti-caking performance) of the prepared biomass compound fertilizer is tested by a briquetting method, 50g of compound fertilizer samples are filled in a circular ring under the conditions of 50 ℃ of temperature, 147N of pressure and 15 days, and the test result is shown in table 4. As can be seen, the storage stability of the biomass compound fertilizer prepared by the method is far higher than that of the biomass compound fertilizer prepared by the experimental examples 1-6.

TABLE 4

Examples of the invention Shear force (N) Blocking prevention Rate (%)
Example 1 31.23 58.3
Experimental example 1 43.75 41.7
Experimental example 2 47.51 36.6
Experimental example 3 53.12 29.2
Experimental example 4 49.45 34.0
Experimental example 5 60.13 19.8
Experimental example 6 60.11 19.8

Note: the blocking resistance was (blank shear force-sample shear force)/blank shear force × 100%, and the blank shear force was 74.98N.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

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