CN103074222B - Composite flora for biological preparation of cellulose additive, and applications thereof - Google Patents

Abstract

The present invention relates to a composite flora for biological preparation of a cellulose additive, and applications thereof. The composite flora comprises bacillus sp. with a preservation number of CGMCC No.5971, acinetobacter lwoffii with a preservation number of CGMCC No.5973, and Wickerhamomyces anomalus with a preservation number of CGMCC No.5975. The process for preparing additive cellulose comprises the following steps: preparing a bacterial liquid; treating raw materials; and preparing fibers, wherein fiber preparation comprises fiber kneading or squeezing rolling, biodegradation, steam sterilization, fiber obtaining, sterilization and grinding. According to the present invention, the method does not pollute the environment, a waste liquid is directly converted into an organic fertilizer so as to achieve zero emission and zero pollution, the biological treatment process provides a protection effect for fibers, advantages of low production cost and high economic benefits are provided compared with the traditional chemical method, and characteristics of energy source saving and environmental protection are provided.

Description

A kind of composite flora and application thereof of preparing cellulosic additive for biology

Technical field

The present invention relates to a kind of additive Mierocrystalline cellulose, relate in particular to a kind of composite flora and application thereof of preparing cellulosic additive for biology.

Background technology

Mierocrystalline cellulose is compound of polysaccharide, is the most valuable natural reproducible resources of the mankind.Cellulose chemistry and industry started from before more than 160 year, polymer chemistry birth and the main study subject of developing period, cellulosic major physiological effect is absorption large quantity of moisture, increase ight soil amount, promote intestinal peristalsis, accelerate the excretion of ight soil, the residence time of carcinogenic substance in enteron aisle shortened, the pessimal stimulation of enteron aisle is reduced, thus can prevention of intestinal carcinogenesis.In prior art, prepare Mierocrystalline cellulose, how by chemical process, the waste liquor contamination sublimity that chemical process produces in producing, damage to land, polluted air, and also it is high to consume energy, and power consumption and water consumption are large.Do not meet national energy-saving and reduce discharging policy.Material can not reach Efficient Cycle recycling.Chemicals cannot separate from waste liquid, and organism and chemicals mix, and organism also cannot be reused, and causes a large amount of losses.

Therefore, be necessary to develop biological cellulose technology processed, fundamentally solve an above-mentioned pollution difficult problem, energy-saving and emission-reduction, water-saving, reduces production costs and improves the rate of utilization of material.

Summary of the invention

The object of the invention is to overcome the cellulosic above-mentioned defect of chemical legal system of prior art, a kind of new Mierocrystalline cellulose biological bacteria of preparing is provided.Contriver, by long screening operation, has obtained and has been suitable for preparing the cellulosic biological bacteria that can realize foregoing invention object.

Particularly, the invention provides a kind of composite flora, its comprise acinetobacter lwoffii (Acinetobacter lwoffii) that the genus bacillus that preserving number is CGMCC No.5971 (Bacillus sp.), preserving number are CGMCC No.5973, this Wickerhamomyces anomalus bacterium of Wickerhamomycesanomalus(that preserving number is CGMCC No.5975 in malt juice liquid medium 25 ℃ cultivate three days, cell is spherical, avette, sausage shape, size is (4.8-14.4) × (3.6-7.2) μ m, has precipitation to form.25 ℃, wort agar inclined-plane cultivation one month, bacterium colony cheese shape, oyster white, surface smoothing, not reflective, edge root shape.Corn Meal Agar Dalmau is dull and stereotyped to be cultivated, and produces pseudohypha).

Described composite flora can be used in prepares additive Mierocrystalline cellulose.

The present invention also provides one to prepare the cellulosic method of additive, and it mainly comprises step:

1) configuration of bacterium liquid: above-mentioned composite flora is configured to the composite bacteria aqueous solution according to following mass ratio, is bacterium liquid:

Genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 2-3:1-2:2-3;

2) raw material processing: by section after woody raw material peeling, or draft raw material is cut into chunks, the raw material cutting is put into fermentation vat swollen;

3) preparation of fiber, it comprises step:

Discongest: by the raw material thread rolling of swollen and/or crowded stone roller;

Biological degradation: by the raw material soaking after discongesting in the bacterium liquid configuring;

Wet sterilization: by the raw material after above-mentioned biological degradation from bacterium liquid, pull out, draining, pass into water vapor sterilizing;

Obtaining of fiber: the raw material after sterilizing is carried out to one section of corase grind, become fibrous bundle; Above-mentioned one section of corase grind is carried out to two sections of fine grindings, make fibrous bundle disperse into single fiber; Fibrous bundle in screening, the slurries of filtration after one section of corase grind and two sections of fine grindings, defibrination makes it make single fiber again;

Sterilizing: the above-mentioned fiber making is soaked in warm water, then oven dry, sterilizing;

Grind: the fiber after sterilizing is ground to form to Mierocrystalline cellulose, as additive.

The density of the bacterium liquid wherein, forming in step 1) be 6,000 ten thousand/more than ml bacterium.

Wherein, step 2) in, the woody raw material length cutting is 3-4cm, the draft raw material length cutting is 4-5cm.The described swollen time is 10-12h.

Wherein, the biological degradation temperature described in step 3) remains on 35-40 ℃, time 32-36 hour.The mass ratio of the raw material after discongesting and bacterium liquid is 1:6-8.Described steam sterilizing is water at atmospheric pressure steam sterilizing 10-30 minute.

Further, step 2) in soak soak solution after raw material through flocculation, precipitation, supernatant liquor recycling, the fermentation of throw out input methane-generating pit produces biogas.

Biological method provided by the invention is prepared cellulosic advantage: 1) free from environmental pollution: waste liquid directly changes into organic fertilizer, reaches zero release, and zero pollutes.2) biological method can play a protective role to fiber, and compared with traditional chemical process, present method can all reclaim full fiber and half fiber, has therefore improved yield.3) biological method carries out lignin degradation under normal pressure, energy-conservation, reduction of discharging, low-carbon (LC).4) production cost is low, and economic benefit is high.

Byproduct of the present invention is transported to settling tank flocculation, precipitation, and supernatant liquor returns to second stage employ, remakes presoak and uses.In throw out, contain the nutrient for plants such as the gas chromatographies such as abundant xylogen and N, P, K, throw out mixes with old bacterium liquid (the raw material thickness bacterium liquid of repeatedly degrading, also contains N, P, K, Fe and trace element) again, acidifying, then together enter in marsh gas fermentation pool, produce biogas.By the Boiler Ash mixing granulation of natural pond slag, natural pond liquid and pulverizing, granulation fertilizer, finally dispatches from the factory, and realizes zero release.

The present invention is by the biological bacteria that provides above-mentioned contriver to obtain through long creation work, the further perfect cellulosic technology of existing preparation, reduce the reaction times, improved the purity and the yield that make fiber, this technology can be applied on a large scale in actual production.Applying biological bacterium of the present invention at short notice in degrading plant body xylogen obtain fiber, byproduct twice transformation becomes biogas, biogas coal supply, gas boiler for dual purpose combustion heating are saved coal consumption.Finally, natural pond slag is made organic fertilizer, has formed the economic circulation new model of " material organic transformation ", reaches no waste discharge, namely zero release.Fundamentally solve a pollution difficult problem for chemical preparation fiber of the prior art.Energy-saving and emission-reduction, water-saving, has reduced production cost, has improved the rate of utilization of material.

For above and other objects of the present invention, feature and advantage can be become apparent, preferred embodiment cited below particularly, and coordinate accompanying drawing, be described in detail below.

Accompanying drawing explanation

Fig. 1 prepares the cellulosic schema of additive according to one embodiment of the invention;

Fig. 2 be according to another embodiment of the present invention prepare the cellulosic schema of additive.

Embodiment

The configuration of embodiment 1 bacterium liquid

The biological bacteria adopting in the present invention on April 6th, 2012 at China Committee for Culture Collection of Microorganisms's common micro-organisms center (CGMCC, No. 3, Yard 1, BeiChen xi Road, Chaoyang District, Beijing City) preservation, it comprises the genus bacillus that preserving number is CGMCC No.5971 (Bacillus sp.), preserving number is that acinetobacter lwoffii (Acinetobacter lwoffii), the preserving number of CGMCC No.5973 is the Wickerhamomyces anomalus of CGMCC No.5975.

Above-mentioned composite flora is configured to the composite bacteria aqueous solution according to following mass ratio, is bacterium liquid: genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 2-3:1-2:2-3; The density of bacterium liquid forming be 6,000 ten thousand/more than ml bacterium, for subsequent use.

Embodiment 2 prepares fiber from woody raw material

Take caragana microphylla as raw material, illustrate the Mierocrystalline cellulose preparation method while adopting woody raw material.All the other woody raw materials, the Mierocrystalline cellulose preparation method of for example willow, willow can carry out with reference to this technique.While wherein adopting caragana microphylla, composite flora is configured according to following mass ratio: genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 3:2:2; While adopting willow, composite flora is configured according to following mass ratio: genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 2:2:3; While adopting willow, composite flora is configured according to following mass ratio: genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 3:1:2.

Specifically please refer to Fig. 1, Mierocrystalline cellulose preparation method's flow process is divided into three phases: preparatory stage, Mierocrystalline cellulose workshop section and byproduct workshop section.

(1) preparatory stage: 1-4

1)-2): the caragana microphylla that harvesting is returned carries out the separation of skin bar.Adopt winnowing machine or other mechanical separation all can.After skin bar separates, skin is inputted to organic feed workshop processing feed, the bar after decortication is inputted next program.

3) by bar segment on cutting machine, length is 3-4cm, and angle is for well, to increase infiltrating area.

4) the branch section input after decortication is soaked in storehouse or fermentation vat wash, cold soaking, first the foreign material such as raw material appearance earth are washed away, soak simultaneously, water temperature is natural temperature, the time soaking into, swollen is as the criterion, 10-12h.After liquid muddiness after repeatedly soaking, after flocculating, precipitating, supernatant liquor can also reuse.The fermentation of throw out input methane-generating pit, produces biogas.

Above four steps can be that intermittent type can be also linkage type.

(2) Mierocrystalline cellulose workshop section: 5-12

5) discongest: by the branch section input thread-rolling machine of swollen or squeeze grind, kneading machine carrys out innovation wood segment structure, makes it loose one-tenth wood wool shape, is conducive to biological bacteria infiltration, brings into play its Degradation.

6) biological degradation: by the raw material input biological bacteria degraded storehouse after discongesting or tank, be immersed in bacterium liquid prepared by embodiment 1, the mass ratio of the raw material after discongesting and bacterium liquid is 1:6, and temperature remains on 35-40 ℃, time 32-36 hour.Under the condition of biological bacteria, there is xylogen degradation reaction, bring into play its single-minded effect.

7) wet sterilization: after raw materials pretreatment completes, by raw material from bacterium liquid, pull out, draining, be input in steam storehouse, pass into the sterilizing in 10-30 minute of water at atmospheric pressure steam.Paste roller mill inputted by raw material by lower end.

8) obtaining of fiber: the raw material after sterilizing is carried out to one section of corase grind, become fibrous bundle; Above-mentioned one section of corase grind is carried out to two sections of fine grindings, make fibrous bundle disperse into single fiber; Fibrous bundle in screening, the slurries of filtration after one section of corase grind and two sections of fine grindings, defibrination makes it make single fiber again.

9) sterilizing: the fiber after corase grind and fine grinding, be subject to mechanical friction, major part is bended, torsional deformation, in warm water, soaks and eliminates the fiber deflection that defibrination causes, and makes it to unfold, then oven dry, sterilizing.

10) grind: by the fiber after sterilizing for example, through the known routine techniques means of those skilled in the art (diluted alkaline method) except after delignification, again sterilizing and grind to form Mierocrystalline cellulose 11), as food with or medical or additive 12 for daily-use chemical industry).

(3) byproduct stage: A-C

In A, 3, isolated caragana microphylla skin contains abundant nutritive ingredient, and fermentation changes into ox, sheep feed.

After liquid muddiness through repeatedly soaking, washing in B, 4, through flocculation, precipitation, supernatant liquor recycling, the fermentation of throw out input methane-generating pit produces biogas, passes into coal gas boiler for dual purpose and does fuel, can play effect of energy.

C, biological organic fertilizer: natural pond slag, natural pond liquid after methane-generating pit fermentation are abundant biological organic fertilizers, liquid topdresses as farm crop and flower nutrient solution uses, and solid granulation is made base manure and is used, and is all green fertilizers.

The cellulosic physical performance index measurement result obtaining please refer to following table 1:

Table 1

Embodiment 3 prepares Mierocrystalline cellulose from draft raw material

Take wheat straw as raw material, illustrate the Mierocrystalline cellulose preparation method while adopting draft raw material.All the other draft raw materials, the Mierocrystalline cellulose preparation method of for example straw, reed can carry out with reference to this technique.

While wherein adopting wheat straw, composite flora is configured according to following mass ratio: genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 3:1:2; While adopting straw, composite flora is configured according to following mass ratio: genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 2:2:2; While adopting reed, composite flora is configured according to following mass ratio: genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 3:1:2.

Specifically please refer to Fig. 2, Mierocrystalline cellulose preparation method's flow process is divided into three phases: preparatory stage, Mierocrystalline cellulose workshop section and byproduct workshop section.

(1) preparatory stage: 1,4

Wheat straw is cut into the segment of 4-5cm, input soak in storehouse or fermentation vat wash, cold soaking, first the foreign material such as raw material appearance earth are washed away, soak simultaneously, water temperature is natural temperature, the time soaking into, swollen is as the criterion, 10-12h.After liquid muddiness after repeatedly soaking, after flocculating, precipitating, supernatant liquor can also reuse.The fermentation of throw out input methane-generating pit, produces biogas.

(2) Mierocrystalline cellulose workshop section: 5-12 and (three) byproduct stage: A-C be with embodiment 2, and the biological bacteria that wherein used does not repeat them here as embodiment 1, and wherein when biological degradation, the mass ratio of the raw material after discongesting and bacterium liquid is 1:8.

The cellulosic physical performance index measurement result obtaining please refer to following table 2:

Table 2

Although the present invention discloses as above with preferred embodiment; so it is not in order to limit the present invention; any person of ordinary skill in the field; without departing from the spirit and scope of the present invention; when doing a little change and improvement, therefore protection scope of the present invention is when being as the criterion depending on the claim person of defining.

Claims (5)

1. prepare the cellulosic method of additive, it is characterized in that, comprise step:

1) configuration of bacterium liquid: be that the genus bacillus (Bacillus sp.) of CGMCC No.5971, the acinetobacter lwoffii (Acinetobacter lwoffii) that preserving number is CGMCC No.5973, the Wickerhamomyces anomalus that preserving number is CGMCC No.5975 are configured to the composite bacteria aqueous solution according to following mass ratio by preserving number, be bacterium liquid:

Genus bacillus: acinetobacter lwoffii: Wickerhamomyces anomalus is 2-3:1-2:2-3, the density of bacterium liquid be 6,000 ten thousand/more than ml bacterium;

2) raw material processing: by section after woody raw material peeling, or draft raw material is cut into chunks, the raw material cutting is put into fermentation vat swollen;

3) preparation of fiber, it comprises step:

Discongest: by the raw material thread rolling of swollen and/or crowded stone roller;

Biological degradation: in the bacterium liquid configuring, the mass ratio of the raw material after discongesting and bacterium liquid is 1 by the raw material soaking after discongesting: 6-8, degradation temperature is 35-40 ℃, degradation time is 32-36 hour;

Wet sterilization: by the raw material after above-mentioned biological degradation from bacterium liquid, pull out, draining, pass into water vapor sterilizing;

Obtaining of fiber: the raw material after sterilizing is carried out to one section of corase grind, become fibrous bundle; Above-mentioned one section of corase grind is carried out to two sections of fine grindings, make fibrous bundle disperse into single fiber; Fibrous bundle in screening, the slurries of filtration after one section of corase grind and two sections of fine grindings, defibrination makes it make single fiber again;

Sterilizing: the above-mentioned fiber making is soaked in warm water, then oven dry, sterilizing;

Grind: the fiber after sterilizing is ground to form to Mierocrystalline cellulose, as additive.

2. method according to claim 1, is characterized in that step 2) in, the woody raw material length cutting is 3-4cm, the draft raw material length cutting is 4-5cm.

3. method according to claim 1 and 2, is characterized in that step 2) the described swollen time is 10-12h.

4. method according to claim 1, is characterized in that step 3) described steam sterilizing is water at atmospheric pressure steam sterilizing 10-30 minute.

5. method according to claim 1, is characterized in that step 2) in soak soak solution after raw material through flocculation, precipitation, supernatant liquor recycling, the fermentation of throw out input methane-generating pit produces biogas.

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