CN110801722A - Deodorant for poultry farm and preparation method thereof - Google Patents

Abstract

The invention belongs to the technical field of deodorizers, and particularly relates to a deodorizer for poultry farms and a preparation method thereof, wherein the deodorizer comprises modified tea leaves, a ginger extract, a rhizoma cyperi extract, a fructus amomi extract, a herba schizonepetae extract, a sweet wormwood herb extract, turpentine, neroli, modified soybean lecithin, sodium alginate, pyroligneous liquor, cellulase and deionized water; the modified tea leaves have strong adsorption performance, are easy to decompose when falling into soil, can improve soil texture, most of traditional Chinese medicine extraction components have strong volatility, can prolong the reaction time of the deodorant and molecules generating peculiar smell, are nontoxic and harmless after reaction, and products obtained after reaction are generally nitrogen, oxygen and water substances and cannot generate secondary pollution to the environment, so that the combination of all the components in the deodorant disclosed by the invention has the effects of enhancing the antibacterial and deodorizing effects, and the removal rate of ammonia, hydrogen sulfide, trimethylamine and indole organic acids is up to more than 74%.

Description

Deodorant for poultry farm and preparation method thereof

Technical Field

The invention belongs to the technical field of deodorizers, and particularly relates to a deodorizer for a poultry farm and a preparation method thereof.

Background

The foul gas generated by livestock and poultry farm is exhaustedMost of the malodorous gases are organic gases, such as ammonia, trimethylamine, hydrogen sulfide, thiols, indole organic acids, skatole, etc., and complex compounds containing multiple components, such as carbohydrates, fats, proteins, vitamins, minerals and metabolites thereof, etc., are contained in livestock and poultry excreta. Hydrogen sulfide is colorless, volatile smelly egg-flavored gas, is easily soluble in water and heavier than air, is easily absorbed by respiratory mucosa on the ground surface, and can be used for producing Na₂S has strong stimulation effect on mucous membranes, so that the immunity of livestock and poultry is reduced and the physique is weakened under the long-term effect, the productivity is seriously influenced and even the livestock and the poultry die; ammonia gas is colorless, irritant malodorous gas, is easily soluble in water and lighter than air, and can burn skin, eyes and mucous membranes of respiratory organs; methyl mercaptan is colorless gas, has unpleasant odor, is insoluble in water, is soluble in organic solvents such as ethanol and diethyl ether, and can cause headache, nausea and various degrees of anesthesia after methyl mercaptan vapor is inhaled, and has strong irritation on eyes, skin, mucous membrane and upper respiratory tract.

In general, the environmental problems of livestock farms are of social concern because foul gases, solid dusts, and bacteria and viruses generated by excreta of livestock and other wastes, and the foul gases, harmful gases, bacteria, etc. generated by the livestock farms are transmitted through soil, water, air, feed, etc., and even cause serious infectious diseases, conceivably, the infectious diseases of livestock must bring non-trivial loss and may cause damage to livestock, poultry, and human beings, so the management of livestock farms is very important, and the deodorization treatment of the livestock farms is very critical, so the development of a deodorant capable of effectively improving the environment of air, soil, and water in the livestock farms is urgently needed.

In the prior art, the deodorant is widely a physical deodorant, a chemical deodorant, a biological deodorant, a plant extract deodorant and the like, the physical deodorant mainly plays a role in adsorption and covering, the effect obtained by the reaction of the chemical deodorant is short, secondary pollution is possibly generated, the cost of the biological deodorant is low, the treatment range is wide, secondary pollution is avoided, and the biological deodorant is nontoxic, but the plant extract deodorant needs a certain time to exert the effect and cannot immediately generate the deodorizing effect, the plant extract deodorant can act on acidic, neutral and alkaline gases in the environment, and the plant extract deodorant can be completely degraded after exerting the effect, so that substances in the toxic environment are converted into nontoxic substances.

Disclosure of Invention

In view of the above problems, an object of the present invention is to provide a deodorant for poultry farms and a preparation method thereof, which is a deodorant for poultry farms, such as chicken farms, duck farms, goose farms, and the like, that can maintain a deodorizing effect for a long time, and can alleviate the occurrence of malodor sources without causing secondary pollution.

The technical content of the invention is as follows:

the invention provides a deodorant for poultry farms, which comprises the components of modified tea leaves, ginger extract, rhizoma cyperi extract, fructus amomi extract, schizonepeta extract, sweet wormwood herb extract, turpentine, orange flower oil, modified soybean phospholipid, sodium alginate, wood vinegar, cellulase and deionized water;

further, by mass, the modified tea leaves account for 5-10%, the ginger extract accounts for 3-8%, the rhizoma cyperi extract accounts for 3-6%, the fructus amomi extract accounts for 4-6%, the herba schizonepetae extract accounts for 4-8%, the sweet wormwood extract accounts for 4-6%, the turpentine oil accounts for 2-5%, the orange flower oil accounts for 2-5%, the modified soybean lecithin accounts for 8-12%, the sodium alginate accounts for 4-8%, the wood vinegar accounts for 10-13%, the cellulase accounts for 3-5%, and deionized water is added to 100%.

The modified tea leaf residue is prepared by cleaning and drying tea waste or resistant tea with alcohol, grinding and crushing, adding photosynthetic bacteria, soaking with petroleum ether, and vacuum drying, wherein the tea leaf residue has an excellent pore structure and strong adsorption capacity.

The invention also provides a preparation method of the deodorant for the poultry farm, which comprises the following steps:

1) mixing the modified tea leaves with sodium alginate, adding yeast, soaking with petroleum ether, performing ultrasonic oscillation treatment, standing, and filtering;

2) adding modified soybean phospholipid and wood vinegar, mixing, stirring uniformly, and performing ultrasonic oscillation treatment to obtain a mixed solution A, wherein the modified soybean phospholipid and wood vinegar can promote the melting combination of the above components and the following components, and have the function of removing malodorous gas in a farm;

3) grinding rhizoma Zingiberis recens extract, rhizoma Cyperi extract, fructus Amomi extract, herba Schizonepetae extract and herba Artemisiae Annuae extract, mixing, adding deionized water and sodium alginate, mixing, stirring, homogenizing, dispersing, aging, and filtering to obtain mixed solution B;

4) mixing and stirring the mixed solution B, the turpentine, the neroli oil and the cellulase, and carrying out ultrasonic oscillation treatment to obtain a mixed solution C;

5) mixing and stirring the mixed solution A, the mixed solution B and the mixed solution C, carrying out homogenizing and dispersing treatment, aging and filtering to obtain a deodorant product;

the mixing ratio of the modified tea leaves in the step 1) to sodium alginate is 2-2.5: 1, the sodium alginate has good fluidity, can be used as a stabilizer and a gelling agent, can form small particles with stable structures by combining with the modified tea leaves, and can further improve the adsorption effect on malodorous gases.

The petroleum ether is soaked for 10-12 hours in the step 1);

grinding the ginger extract, the rhizoma cyperi extract, the fructus amomi extract, the schizonepeta extract and the artemisia apiacea extract to obtain powder with the pore diameter of less than 0.7 mm;

the time for the homogenizing and dispersing treatment in the step 4) and the step 5) is 60-80 s.

The ginger extract mainly contains active ingredients such as gingerol, shogaol, phellandrene, citral, linalool and the like, and the mint mainly contains I-menthol, I-menthone, menthyl esters and the like, so that the ginger extract has antibacterial and deodorant effects;

the rhizoma Cyperi extract mainly contains volatile oil components, contains various monoterpenes, hemiterpenes and oxides thereof, and has dispersing effect on ammonia gas, hydrogen sulfide and other odor gases;

the fructus amomi extract contains volatile oil of about 1.7 to 3 percent, contains vanillic acid, stearic acid and other substances, and has the functions of expelling parasites and deodorizing;

the herba Schizonepetae extract mainly contains dextromenthone, racemic menthone, and small amount of dextrolimonene, and has anthelmintic and antibacterial effects;

the sweet wormwood herb extract contains various sesquiterpene lactones, mainly contains substances such as artemisinin, arteannuic acid, arteannuol and the like, also contains flavonoid compounds, has the effects of quickly killing insects, resisting viruses and parasites, and also has a certain inhibiting effect on staphylococcus aureus, pseudomonas aeruginosa, shigella dysenteriae, tubercle bacillus and the like;

the turpentine oil mainly contains α -pinene and β -pinene, has the function of inhibiting multiple bacteria, is colorless volatile liquid, and has special odor;

the main components of the neroli oil comprise α -pinene, β -pinene, α -phellandrene, β -myrcene, α -terpinene, p-cymene, D-limonene, β -cis-ocimene, β -linalool, terpineol, β -citronellol, vanillyl alcohol, indole, nerolidol/bitter orange oleyl alcohol thymol and the like, and the neroli oil has light fragrance and has the functions of bacteriostasis and deodorization;

the cellulase can synergistically degrade gas components generating peculiar smell, has a synergistic effect on deodorization, can be biologically degraded, and does not generate secondary pollution;

the components of the Chinese herbal medicine plants can be used as a natural Chinese herbal medicine deodorant, and all have excellent deodorizing and sterilizing functions.

The invention has the following beneficial effects:

the deodorant for poultry farms provided by the invention has the main antibacterial and deodorant effects, the modified tea leaves have strong adsorption performance, are easy to decompose when falling into soil, can improve soil quality, most of the extracted traditional Chinese medicine components have strong volatility, can prolong the reaction time of the deodorant and molecules generating peculiar smell, are nontoxic and harmless after reaction, and the products obtained after reaction are generally nitrogen, oxygen and water substances and cannot generate secondary pollution to the environment, so that the combination of all the components in the deodorant has the effects of enhancing the antibacterial and deodorant effects, can achieve the deodorant effect for a long time, and has the removal rate of ammonia, hydrogen sulfide, trimethylamine and indole organic acids of more than 74%;

in the preparation method of the deodorant, the synergistic auxiliary solvents such as sodium alginate, modified soybean phospholipid, wood vinegar and cellulase are combined with the modified tea leaves, the Chinese herbal medicine extract and the Chinese herbal medicine volatile oil step by step in different steps to maintain the stability of the active ingredients and greatly enhance the antibacterial and deodorant effects of the synthetic product.

Detailed Description

The present invention is described in further detail in the following detailed description with reference to specific examples, which are intended to be illustrative only and not to be limiting of the scope of the invention, as various equivalent modifications of the invention will become apparent to those skilled in the art after reading the present invention and are intended to be included within the scope of the appended claims.

All the raw materials and reagents of the invention are conventional market raw materials and reagents unless otherwise specified.

Example 1

A preparation method of deodorant for poultry farm comprises the following steps:

1) mixing 5% of modified tea leaves with 2.5% of sodium alginate, adding yeast, soaking with petroleum ether for 10h, then performing ultrasonic oscillation treatment, oscillating for 1.5h under the condition of 32kHz, then standing, and filtering;

2) adding 8% of modified soybean phospholipid and 12% of wood vinegar, mixing, stirring uniformly, performing ultrasonic oscillation treatment, and oscillating for 1h under the condition of 32kHz to obtain a mixed solution A;

3) grinding 3% of ginger extract, 4% of rhizoma cyperi extract, 5% of fructus amomi extract, 8% of schizonepeta extract and 4% of sweet wormwood extract, mixing, adding 38% of deionized water and 1.5% of sodium alginate, mixing and stirring, performing homogenizing dispersion and homogenizing dispersion treatment for 3min, aging for 12h, and filtering to obtain mixed solution B;

4) mixing and stirring the mixed solution B, 3% turpentine, 3% neroli oil and 3% cellulase, carrying out ultrasonic oscillation treatment, and oscillating for 1h under the condition of 32kHz to obtain a mixed solution C;

5) and mixing and stirring the mixed solution A, the mixed solution B and the mixed solution C, carrying out homogenizing dispersion treatment for 4min, aging for 12h, and filtering to obtain the deodorant product.

Example 2

A preparation method of deodorant for poultry farm comprises the following steps:

1) mixing 5% of modified tea leaves with 2% of sodium alginate, adding yeast, soaking in petroleum ether for 10h, performing ultrasonic oscillation treatment, oscillating for 1.5h at 34kHz, standing, and filtering;

2) adding 8% of modified soybean phospholipid and 13% of wood vinegar, mixing, stirring uniformly, performing ultrasonic oscillation treatment, and oscillating for 1h under the condition of 34kHz to obtain a mixed solution A;

3) grinding 8% of ginger extract, 5% of rhizoma cyperi extract, 4% of fructus amomi extract, 4% of herba schizonepetae extract and 5% of sweet wormwood herb extract, mixing, adding 30% of deionized water and 2% of sodium alginate, mixing and stirring, performing homogenizing dispersion and homogenizing dispersion treatment for 3min, aging for 12h, and filtering to obtain mixed solution B;

4) mixing and stirring the mixed solution B, 5% turpentine, 5% neroli oil and 4% cellulase, carrying out ultrasonic oscillation treatment, and oscillating for 1h under the condition of 34kHz to obtain a mixed solution C;

5) and mixing and stirring the mixed solution A, the mixed solution B and the mixed solution C, carrying out homogenizing dispersion treatment for 4min, aging for 12h, and filtering to obtain the deodorant product.

Example 3

A preparation method of deodorant for poultry farm comprises the following steps:

1) mixing 6% of modified tea leaves with 3% of sodium alginate, adding yeast, soaking in petroleum ether for 10h, performing ultrasonic oscillation treatment, oscillating for 1.5h under the condition of 30kHz, standing, and filtering;

2) then adding 12% of modified soybean phospholipid and 10% of wood vinegar, mixing, stirring uniformly, performing ultrasonic oscillation treatment, and oscillating for 1h under the condition of 30kHz to obtain a mixed solution A;

3) grinding 4% of ginger extract, 6% of rhizoma cyperi extract, 6% of fructus amomi extract, 4% of schizonepeta extract and 6% of sweet wormwood herb extract, mixing, adding 35% of deionized water and 1% of sodium alginate, mixing and stirring, performing homogenizing dispersion and homogenizing dispersion treatment for 3min, aging for 12h, and filtering to obtain mixed solution B;

4) mixing and stirring the mixed solution B, 2% of turpentine, 2% of neroli oil and 3% of cellulase, carrying out ultrasonic oscillation treatment, and oscillating for 1h under the condition of 30kHz to obtain a mixed solution C;

5) and mixing and stirring the mixed solution A, the mixed solution B and the mixed solution C, carrying out homogenizing dispersion treatment for 4min, aging for 12h, and filtering to obtain the deodorant product.

Example 4

A preparation method of deodorant for poultry farm comprises the following steps:

1) mixing 10% of modified tea leaves with 4% of sodium alginate, adding yeast, soaking with petroleum ether for 10h, then performing ultrasonic oscillation treatment, oscillating for 1.5h under the condition of 33kHz, then standing, and filtering;

2) adding 9% of modified soybean phospholipid and 10% of wood vinegar, mixing, stirring, performing ultrasonic oscillation treatment, and oscillating for 1h at 33kHz to obtain a mixed solution A;

3) grinding 3% of ginger extract, 6% of rhizoma cyperi extract, 4% of fructus amomi extract, 5% of herba schizonepetae extract and 4% of sweet wormwood herb extract, mixing, adding 33% of deionized water and 3% of sodium alginate, mixing and stirring, performing homogenizing dispersion and homogenizing dispersion treatment for 3min, aging for 12h, and filtering to obtain mixed solution B;

4) mixing and stirring the mixed solution B, 2% turpentine, 2% neroli oil and 5% cellulase, carrying out ultrasonic oscillation treatment, and oscillating for 1h under the condition of 33kHz to obtain a mixed solution C;

5) and mixing and stirring the mixed solution A, the mixed solution B and the mixed solution C, carrying out homogenizing dispersion treatment for 4min, aging for 12h, and filtering to obtain the deodorant product.

The deodorant of the invention can be diluted by a required multiple by using the deodorant and then sprayed in a farm.

Test examples

The deodorant prepared in the embodiment 1-4 is diluted to 400 times by using water, and sprayed to a chicken farm, wherein the scale of the chicken farm is that the number of the chickens and the ducks is about 500, and the removal rates of ammonia gas and hydrogen sulfide are detected at different time, as shown in the following table, the first table is the removal rate of ammonia gas, and the second table is the removal rate of hydrogen sulfide.

Removal rate of ammonia gas by using epi-deodorant

	30min	60min	120min
				Example 1	49.5	68.5	76.2
Example 2	52.3	67.9	75.8
				Example 3	51.5	69.5	74.6
Example 4	53.6	66.4	74.9

Removal rate of hydrogen sulfide by using Epodian deodorant

It can be seen that the removal rate of the deodorant of the present embodiment to ammonia gas and hydrogen sulfide in the farm is both up to 74% or more, and the farm can maintain for about 2 days after removing the odor, so that slight odor of Chinese herbal medicines remains in the farm, and the odor does not cause uncomfortable reactions of human beings and poultry, therefore, the deodorant of the present invention has strong capability of removing the odor gas, and has a remarkable effect.

Claims (8)

1. A deodorant for poultry farms is characterized in that the deodorant comprises modified tea leaves, ginger extract, rhizoma cyperi extract, fructus amomi extract, schizonepeta extract, artemisia apiacea extract, turpentine, orange flower oil, modified soybean phospholipid, sodium alginate, wood vinegar, cellulase and deionized water.

2. The deodorant of claim 1, wherein the mass fraction of the deodorant is 5% -10% of modified tea leaves, 3% -8% of ginger extract, 3% -6% of rhizoma cyperi extract, 4% -6% of fructus amomi extract, 4% -8% of herba schizonepetae extract, 4% -6% of sweet wormwood extract, 2% -5% of turpentine, 2% -5% of orange flower oil, 8% -12% of modified soybean phospholipid, 4% -8% of sodium alginate, 10% -13% of wood vinegar, 3% -5% of cellulase and the balance of deionized water to 100%.

3. The deodorant according to claim 1 or 2, wherein the modified tea leaf residue is prepared from tea leaf waste or low-grade tea leaves by washing and drying the tea leaf waste or the tea leaves after being washed with alcohol, grinding and pulverizing the washed and dried tea leaves, adding photosynthetic bacteria, soaking the ground and pulverized tea leaves in petroleum ether, and drying the soaked and dried tea leaves under vacuum.

4. A preparation method of a deodorant for poultry farms is characterized by comprising the following steps:

1) mixing the modified tea leaves with sodium alginate, adding yeast, soaking with petroleum ether, performing ultrasonic oscillation treatment, standing, and filtering;

2) adding modified soybean lecithin and wood vinegar, mixing, stirring uniformly, and performing ultrasonic oscillation treatment to obtain a mixed solution A;

3) grinding rhizoma Zingiberis recens extract, rhizoma Cyperi extract, fructus Amomi extract, herba Schizonepetae extract and herba Artemisiae Annuae extract, mixing, adding deionized water and sodium alginate, mixing, stirring, homogenizing, dispersing, aging, and filtering to obtain mixed solution B;

4) mixing and stirring the mixed solution B, the turpentine, the neroli oil and the cellulase, and carrying out ultrasonic oscillation treatment to obtain a mixed solution C;

5) and mixing and stirring the mixed solution A, the mixed solution B and the mixed solution C, carrying out homogenizing and dispersing treatment, aging and filtering to obtain the deodorant product.

5. The preparation method of the deodorant according to claim 4, wherein the mixing ratio of the modified soybean tea leaves in the step 1) to the sodium alginate is 2-2.5: 1.

6. The method for preparing a deodorant according to claim 5, wherein the petroleum ether in the step 1) is soaked for 10 to 12 hours.

7. The method for preparing a deodorant according to claim 4, wherein the ginger extract, the cyperus rotundus extract, the amomum villosum extract, the schizonepeta tenuifolia extract and the artemisia apiacea extract are ground in step 3) to obtain powder with a pore size of less than 0.7 mm.

8. The method for preparing a deodorant according to claim 4 or 5, wherein the time for the homogeneous dispersion treatment in the step 4) and the step 5) is 60 to 80 seconds.