CN112841399A

CN112841399A - Fermentation composition for sugar-making filter mud, preparation method thereof and treatment process for sugar-making filter mud

Info

Publication number: CN112841399A
Application number: CN202110094755.2A
Authority: CN
Inventors: 唐振瑜
Original assignee: Liuzhou Lyuwei Biotechnology Co ltd
Current assignee: Liuzhou Lyuwei Biotechnology Co ltd
Priority date: 2021-01-25
Filing date: 2021-01-25
Publication date: 2021-05-28

Abstract

The invention relates to a fermentation composition for sugar manufacturing filter mud, a preparation method thereof and a treatment process for the sugar manufacturing filter mud. The sugar-making filter mud fermentation composition comprises a bioengineering bacterium component, an enzyme preparation component and a plant component; the bioengineering fungus component includes: bacillus, lactobacillus, actinomycetes, nitrobacteria, saccharomycetes, photosynthetic bacteria, bifidobacterium and lactobacillus acidophilus; the enzyme preparation comprises the following components: cellulase, acid protease, papain; the plant components comprise: radix Codonopsis saponin, cordycepin, and Ganoderma spore. The components of the sugar manufacturing filter mud fermentation composition are scientific and can be mutually adjusted to form a complementary synergistic relationship, so that stronger cooperative force is exerted, and the effects of decomposing, catalyzing and improving the sugar manufacturing filter mud treatment are achieved; the treatment process of the sugar refining filter mud can effectively degrade and soften crude fiber and lignin, improve digestibility and the like, has the function of promoting animal growth, and also moderately improves palatability and digestibility.

Description

Fermentation composition for sugar-making filter mud, preparation method thereof and treatment process for sugar-making filter mud

Technical Field

The invention belongs to the field of fermentation, and particularly relates to a fermentation composition for sugar manufacturing filter mud, a preparation method thereof and a treatment process for the sugar manufacturing filter mud.

Background

Sugar production sludge is waste produced in the sugar production process of sugar mills, producing about 300 kg sludge per 1 ton of sugar produced. Sugar sludge has long been used directly in farmlands or discarded as one of the bulk by-products of the sugar industry. The piling of the filter mud not only occupies a large amount of soil, but also easily gets mildewed and smells due to the fact that the filter mud contains various organic matters and saccharides, and pollutes air and underground water sources.

Therefore, the technical scheme of the invention is provided for treating the sugar-making filter mud.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a fermentation composition for sugar manufacturing filter mud, a preparation method thereof and a treatment process of the sugar manufacturing filter mud. The components of the sugar manufacturing filter mud fermentation composition are scientific and can be mutually adjusted to form a complementary synergistic relationship, so that stronger cooperative force is exerted, and the effects of decomposing, catalyzing and improving the sugar manufacturing filter mud treatment are achieved; the treatment process of the sugar refining filter mud can effectively degrade and soften crude fiber and lignin, improve digestibility and the like, has the function of promoting animal growth, and also moderately improves palatability and digestibility.

The scheme of the invention is that a sugar-making filter mud fermentation composition is provided, which comprises a biological engineering bacteria component, an enzyme preparation component and a plant component; the bioengineering fungus component includes: bacillus, lactobacillus, actinomycetes, nitrobacteria, saccharomycetes, photosynthetic bacteria, bifidobacterium and lactobacillus acidophilus; the enzyme preparation comprises the following components: cellulase, acid protease, papain; the plant components comprise: radix Codonopsis saponin, cordycepin, and Ganoderma spore.

Preferably, the bioengineering bacterium component comprises the following raw materials in parts by weight: 15-30 parts of bacillus, 15-30 parts of lactic acid bacteria, 5-10 parts of actinomycetes, 10-20 parts of nitrobacteria, 10-20 parts of saccharomycetes, 15-30 parts of photosynthetic bacteria, 10-20 parts of bifidobacteria and 10-20 parts of lactobacillus acidophilus.

Preferably, the enzyme preparation comprises the following raw materials in parts by weight: 40-60 parts of cellulase, 25-40 parts of acid protease and 25-40 parts of papain.

Preferably, the plant component comprises the following raw materials in parts by weight: 40-60 parts of codonopsis pilosula saponin, 20-40 parts of cordycepin and 20-40 parts of ganoderma lucidum spores.

Based on the same technical concept, the invention also provides a preparation method of the fermentation composition for preparing sugar-making filter mud, which comprises the following steps: mixing the bioengineering bacteria component, the enzyme preparation component and the plant component, and stirring uniformly.

Preferably, the weight ratio of the bioengineering bacteria component, the enzyme preparation component and the plant component is as follows: 40-60: 30-50: 5-20.

Preferably, the stirring speed is 40-50 r/min, and the stirring time is 20-30 min.

Based on the same technical concept, the invention also provides a treatment process of sugar manufacturing filter mud, which comprises the following steps:

(1) dehydrating the sugar-making filter mud to obtain dehydrated filter mud;

(2) mixing the dewatered sludge obtained in the step (1) with the sugar-making sludge fermentation composition of claim 1, and performing anaerobic fermentation to obtain a fermentation product;

(3) and (3) drying the fermentation product obtained in the step (2) to obtain the biological feed material.

Preferably, in the step (1), the water content after dehydration is 50-55 wt.%. It is emphasized that the filter cake, immediately after it exits the sugar plant, has a water content of approximately 75%, and is dewatered by means of a screw filter press to 50-55%, which is just suitable for fermentation.

Preferably, in the step (3), the temperature of the drying treatment is 90-95 ℃, and the water content after the drying treatment is 10-13 wt.%. The air energy dryer is adopted, the drying temperature is 90-95 ℃ most suitable, microorganisms in the fermented filter mud can lose activity if the temperature is too high, and the drying effect is influenced if the temperature is too low.

In the treatment process of the sugar manufacturing filter mud, the fermentation composition of the sugar manufacturing filter mud is fermented to obtain the biological raw material for feeding, and the biological raw material can replace rice bran, corn and the like to prepare biological feeds for livestock, poultry, fishes, shrimps and the like, so that the palatability and the digestibility can be obviously improved.

To facilitate an understanding of the invention, the function of some of the raw materials is illustrated.

Bacillus: bacillus bacteria are large (4-10 μm), gram-positive, strictly aerobic or facultative anaerobic, and an important property of the genus is the ability to produce spores with particular resistance to adverse conditions. The bacillus has the characteristics of high temperature resistance, quick revival, strong secretase and the like, and can survive under aerobic and anaerobic conditions. Form spores under the conditions of nutrient deficiency, drought and the like, and can germinate into nutriments again under proper conditions. The antibacterial substance generated by the bacillus has the functions of promoting growth, protecting health and treating diseases for livestock and poultry, and belongs to an environment-friendly preparation without toxic and side effects, residues and bacterial drug resistance.

Lactic acid bacteria: the lactobacillus has special physiological functions through organic acids, special enzyme systems, acidomycin and other substances generated by fermentation. A large number of research data show that the lactobacillus can promote the growth of animals, regulate the normal flora of gastrointestinal tracts, improve the immunity and inhibit the growth of harmful flora.

Actinomycetes: actinomycetes are a special group in prokaryotes which can form branched hyphae and conidia, grow in hyphae, are mainly propagated by spores, and are named after the radial colonies. Actinomycetes can decompose many organic compounds, including complex compounds such as aromatic compounds, paraffin, rubber, cellulose, wood and the like, and some compounds with strong toxicity such as cyanogen and the like. Therefore, the actinomycetes not only have positive effects in natural substance circulation, but also in biological treatment of sewage and organic solid waste, and can promote soil to form a granular structure so as to improve soil.

Photosynthetic bacteria: in aquaculture, toxic substances such as nitrite and sulfide in water can be degraded, and the functions of serving as bait, purifying water quality, preventing diseases, serving as a feed additive and the like are realized. The photosynthetic bacteria have strong adaptability, can tolerate high-concentration organic wastewater, has certain tolerance and decomposition capacity on toxicants such as phenol, cyanogen and the like, and has strong decomposition and conversion capacity. Its many characteristics make it have huge using value in the pollution-free aquaculture.

Bifidobacteria: bifidobacteria are important beneficial microorganisms, and have multiple important physiological functions such as biological barrier, nutrition, immunity enhancement and the like as physiological beneficial bacteria.

Lactobacillus acidophilus: lactobacillus acidophilus has antagonistic effect on pathogenic microorganism, and has health promoting effect.

Cellulase: cellulase is one of enzymes, plays a biocatalytic role in decomposing cellulose, and is a protein that can decompose cellulose into oligosaccharides or monosaccharides.

Acid protease: the acid proteinase is prepared by fermenting, refining and refining the excellent Aspergillus niger strain of Longkete, and can effectively hydrolyze protein under the condition of low pH.

Papain: the thiol-containing endopeptidase is an endopeptidase containing thiol, has the activities of protease and esterase, has wide specificity, has strong hydrolysis capacity on animal and plant proteins, polypeptides, esters, amides and the like, and also has a synthesis function, and can synthesize protein hydrolysates into similar proteins.

The invention has the beneficial effects that:

1. according to the sugar-making filter mud fermentation composition, a bioengineering bacterium component, an enzyme preparation component and a plant component are scientifically matched, the bioengineering bacterium selects microorganisms with good tolerance performance, the enzyme preparation is added into the engineering bacterium, macromolecular substances in the sugar-making filter mud can be converted into small molecular substances, substances such as ammonium sulfide and organic matters which are easy to deteriorate and stink in the sugar-making filter mud can be decomposed and enzymolyzed, substances which influence digestion, such as lignin, crude fibers and crude ash can be degraded and catalyzed, in addition, the added plant component can improve the activity and the reproduction rate of the biological bacterium, and abundant high-energy nutrient substance metabolites can be produced in the fermentation process. The multiple microorganisms, the enzyme preparation and the plant components are mutually regulated to form a complementary synergistic relationship, so that stronger cooperative force is exerted, and the effects of decomposing, catalyzing and improving the treatment of the sugar-making filter mud are achieved.

2. The treatment process of the sugar-making filter mud can effectively degrade and soften crude fiber and lignin by virtue of the fermentation composition, improve the digestibility, oxidize ammonia in the sugar-making filter mud and ammonia sulfide, nitrite and the like generated after the action of other microorganisms, and generate nitrogen. The nitrogen is fused with mycoprotein, vitamin group, amino acid, nucleotide, active peptide, emulsifying enzyme, etc. produced by decomposing monosaccharide, disaccharide residue polymer and small molecular matter, and has the function of promoting animal growth and raised palatability and digestibility.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Example 1

The embodiment provides a preparation method of a sugar-making filter mud fermentation composition, which comprises the following steps:

(1) mixing 150g of bacillus, 150g of lactic acid bacteria, 50g of actinomycetes, 100g of nitrobacteria, 100g of microzyme, 150g of photosynthetic bacteria, 100g of bifidobacterium and 100g of lactobacillus acidophilus to obtain 900g of bioengineering bacteria component;

(2) 400g of cellulase, 250g of acid protease and 250g of papain are mixed to obtain 900g of enzyme preparation components;

(3) mixing 400g of radix Codonopsis saponin, 200g of cordycepin and 200g of Ganoderma spore to obtain 800g of plant components;

(4) taking 800g of bioengineering bacteria component, 600g of enzyme preparation component and 100g of plant component, and stirring for 20min under the condition of 40 r/min.

Example 2

(1) mixing 300g of bacillus, 300g of lactic acid bacteria, 100g of actinomycetes, 200g of nitrobacteria, 200g of microzyme, 300g of photosynthetic bacteria, 200g of bifidobacterium and 200g of lactobacillus acidophilus to obtain 1800g of bioengineering bacteria component;

(2) mixing 600g of cellulase, 400g of acid protease and 400g of papain to obtain 1400g of an enzyme preparation component;

(3) mixing 600g of codonopsis pilosula saponin, 400g of cordycepin and 400g of ganoderma lucidum spore to obtain 1400g of plant components;

(4) 1200g of bioengineering bacteria component, 1000g of enzyme preparation component and 400g of plant component are taken and stirred for 30min under the condition of 50 r/min.

Example 3

(1) mixing 230g of bacillus, 230g of lactic acid bacteria, 75g of actinomycetes, 150g of nitrobacteria, 150g of microzyme, 230g of photosynthetic bacteria, 150g of bifidobacterium and 150g of lactobacillus acidophilus to obtain 1365g of bioengineering bacteria component;

(2) 500g of cellulase, 320g of acid protease and 320g of papain are mixed to obtain 1140g of enzyme preparation components;

(3) mixing 500g of codonopsis pilosula saponin, 300g of cordycepin and 300g of ganoderma lucidum spores to obtain 1100g of plant components;

(4) taking 1000g of bioengineering bacteria component, 800g of enzyme preparation component and 250g of plant component, and stirring for 25min under the condition of 45 r/min.

Example 4

The embodiment provides a treatment process of sugar manufacturing filter mud, which comprises the following steps:

(1) dehydrating the sugar-making filter mud by adopting a screw press to reduce the water content of the sugar-making filter mud from 75 wt.% to 50 wt.% to obtain dehydrated filter mud;

(2) mixing the dehydrated filter mud obtained in the step (1) with the sugar-making filter mud fermentation composition according to the weight ratio of 1000:1, and performing anaerobic fermentation in a steel fermentation tank with a stirring function to obtain a fermentation product;

(3) and (3) drying the fermentation product obtained in the step (2) at 90 ℃ by using an air energy dryer, and obtaining the biological feed raw material with the water content of 10 wt.%.

Example 5

(1) dehydrating the sugar-making filter mud by adopting a screw press to reduce the water content of the sugar-making filter mud from 75 wt.% to 55 wt.% to obtain dehydrated filter mud;

(2) mixing the dehydrated filter mud obtained in the step (1) with the sugar-making filter mud fermentation composition according to the weight ratio of 1200:1, and performing anaerobic fermentation in a steel fermentation tank with a stirring function to obtain a fermentation product;

(3) and (3) drying the fermentation product obtained in the step (2) at 95 ℃ by using an air energy dryer, and obtaining the biological feed raw material with the water content of 13 wt.%.

Example 6

(1) dehydrating the sugar-making filter mud by adopting a screw press to reduce the water content of the sugar-making filter mud from 75 wt.% to 52 wt.% to obtain dehydrated filter mud;

(2) mixing the dehydrated filter mud obtained in the step (1) with the sugar-making filter mud fermentation composition according to the weight ratio of 1100:1, and performing anaerobic fermentation in a steel fermentation tank with a stirring function to obtain a fermentation product;

(3) and (3) drying the fermentation product obtained in the step (2) at 92 ℃ by using an air energy dryer, and obtaining the biological feed raw material with the water content of 11 wt.%.

According to the treatment process of the sugar-making filter mud, the obtained biological raw materials for feeding are prepared into the feed for chicken, the feed for fish and the feed for pig according to the conventional method, and compared with the similar feeds sold in the market, the treatment process comprises the following specific steps:

comparison of feed for chickens

The chicks of the same batch are selected and randomly divided into A, B groups, each group comprises 50 chicks, the group A chicks are fed with the feed prepared from the biological raw materials for feeding obtained in the embodiment 6, the group B chicks are fed with the feed of common commercial chickens, the feeding conditions are the same, relevant statistics is carried out after the feeding period is over, and the feeding statistical results are shown in the table 1.

TABLE 1 chick feeding statistics

	Group A	Group B (control group)
			Total number/only	50	50
Death/body	0	3
			Disease/body disease	1	2
Average body weight/g	1732	1429

Note: mean body weight was counted only for surviving chickens and not for diseased chickens.

(II) comparison of feed for fish

The same batch of grass carp fries are randomly divided into C, D groups, each group has 200 tails, grass carp in group C is fed with the feed prepared from the biological raw materials for feeding obtained in example 6, grass carp in group D is fed with the feed of common commercial fish, the feeding conditions are the same, relevant statistics are carried out after the feeding period is over, and the feeding statistical results are shown in table 2.

TABLE 2 grass carp feeding statistics

Note: the average body weight was counted only for surviving grass carps and not for diseased grass carps.

(III) comparison of pig feed

The same batch of piglets is randomly divided into E, F groups, each group comprises 10 piglets, the piglets in the group E are fed with the feed prepared from the biological raw materials for feeding obtained in example 6, the piglets in the group F are fed with the feed of common commercial pigs, the feeding conditions are the same, relevant statistics are carried out after the feeding period is over, and the feeding statistical results are shown in Table 3.

TABLE 3 statistical results of pig feeding

	Group E	Group F (control group)
			Total number/only	10	10
Death/body	0	0
			Disease/body disease	0	1
Average body weight/kg	103	91

Note: average body weight was counted only for pigs that were not affected.

Results and discussion:

as can be seen from tables 1, 2 and 3, when the feed prepared from the biological feed raw material obtained by the invention is used for feeding, the survival rate and the average weight average of the chicken, the grass carp and the pig are superior to those of a control group, and the biological feed raw material obtained by the sugar filter mud treatment process can obviously improve the growth rate and the immunity of the fed animals.

In addition, in order to show the components of the biological feed raw material obtained by fermentation by the process, the biological feed raw material obtained in example 6 is selected, and water, ash, crude protein, crude fat, crude fiber and 17 amino acids are detected according to GB/T14699.1-2005, GB/T20195-2006, GB/T6435-2014, GB/T6438-2007, GB/T6433-2006, GB/T6432-2018, GB/T18246-2000 and GB/T6434-2006, and the detection results are shown in Table 4.

Table 4 feed ingredient test report

The inspection results show that the biological raw materials for feeding obtained by the invention have rich component types and can fully meet the growth requirements of chickens, fishes and pigs.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims

1. The sugar-making filter mud fermentation composition is characterized by comprising a biological engineering bacterium component, an enzyme preparation component and a plant component; the bioengineering fungus component includes: bacillus, lactobacillus, actinomycetes, nitrobacteria, saccharomycetes, photosynthetic bacteria, bifidobacterium and lactobacillus acidophilus; the enzyme preparation comprises the following components: cellulase, acid protease, papain; the plant components comprise: radix Codonopsis saponin, cordycepin, and Ganoderma spore.

2. The sugar filter mud fermentation composition of claim 1, wherein the bioengineering bacteria comprises the following raw materials in parts by weight: 15-30 parts of bacillus, 15-30 parts of lactic acid bacteria, 5-10 parts of actinomycetes, 10-20 parts of nitrobacteria, 10-20 parts of saccharomycetes, 15-30 parts of photosynthetic bacteria, 10-20 parts of bifidobacteria and 10-20 parts of lactobacillus acidophilus.

3. The sugar filter mud fermentation composition according to claim 1, wherein the enzyme preparation comprises the following raw materials in parts by weight: 40-60 parts of cellulase, 25-40 parts of acid protease and 25-40 parts of papain.

4. The sugar filter mud fermentation composition of claim 1, wherein the plant component comprises the following raw materials in parts by weight: 40-60 parts of codonopsis pilosula saponin, 20-40 parts of cordycepin and 20-40 parts of ganoderma lucidum spores.

5. The method for preparing the sugar-making filter mud fermentation composition according to claim 1, wherein the bioengineering bacteria component, the enzyme preparation component and the plant component are mixed and stirred uniformly.

6. The method for preparing the sugar manufacturing filter mud fermentation composition according to claim 5, wherein the weight ratio of the bioengineering bacteria component, the enzyme preparation component and the plant component is as follows: 40-60: 30-50: 5-20.

7. The method for preparing the sugar manufacturing filter mud fermentation composition according to claim 5, wherein the stirring speed is 40-50 r/min, and the stirring time is 20-30 min.

8. The treatment process of the sugar manufacturing filter mud is characterized by comprising the following steps:

(1) dehydrating the sugar-making filter mud to obtain dehydrated filter mud;

9. The treatment process of the sugar refining filter mud according to claim 1, wherein in the step (1), the water content after dehydration is 50-55 wt.%.

10. The treatment process of the sugar refining filter mud according to claim 1, wherein in the step (3), the drying temperature is 90-95 ℃, and the water content after the drying is 10-13 wt.%.