KR102688875B1 - Feed additive compound for growth promotion and manufacturing method thereof - Google Patents

Abstract

The present invention contains sugar, glucose, potassium chloride, and sodium bicarbonate in appropriate ratios, so that the compounds can produce minerals and produce microorganisms, and the mixture includes citric acid for growth promotion and plants. It relates to a feed additive compound for growth promotion that may additionally contain humic acid for rooting and a method for producing the same.

Description

Feed additive compound for growth promotion and manufacturing method thereof}

The present invention is a feed additive compound for growth promotion and a method for producing the same. More specifically, the present invention is a feed additive compound for growth promotion and a method for producing the same. More specifically, the additive compound can be fed by diluting it in water or fed with feed to promote the growth of livestock, plants, and fish and shellfish. It relates to growth-promoting feed additive compounds and their manufacturing methods.

The matters described in this background art section have been prepared to improve understanding of the background of the invention, and may include matters that are not prior art already known to those skilled in the art in the field to which this technology belongs.

Feed fed for mass farming of livestock, plants, and fish and shellfish is very important in many aspects, including nutritional content and form. In particular, plants and fish and shellfish are not only raised for human food, but are also used as feed for other livestock. Therefore, from the user's perspective, a key issue is how to promote rapid growth in order to shorten the consumption cycle of growth and results. Therefore, growth promoters may be added to feed fed to livestock, plants, fish and shellfish, etc. In general, growth promoters included in feed are used from natural resources themselves. However, for large-scale breeding, cultivation, and farming, there are inevitably cases where artificially processed growth promoters have to be used. Therefore, growth efficiency becomes an important issue in growth promoters processed as described above. Therefore, in order to use high-quality growth promoters, users had no choice but to invest excessive capital in feed costs, and as a piecemeal solution to this problem, feeding exceeding the prescribed amount of feed led to the destruction of nutrients in some cases. Problems such as this arose.

In addition, various conventional growth promoters inevitably require complex manufacturing processes and have problems in maintaining quality, so the present invention was created to overcome the above problems.

In order to solve the above problems, the feed additive compound for growth promotion according to the present invention is aimed at improving the overall growth of organisms.

In addition, by feeding it to livestock, plants, and fish and shellfish, it increases the digestibility of the feed, reduces excretion, improves the absorption rate of nutrients, promotes growth, and at the same time shortens the cycle from growth to consumption of grown livestock, plants, and fish and shellfish. There is a purpose.

Overall, it can innovate human food production methods, provide delicious and safe food, and contribute to farm income and revitalization of the local economy.

Based on the total weight of feed additive compounds, sugar more than 60% by weight and less than 70% by weight, glucose more than 5% by weight and less than 10% by weight, potassium chloride more than 0.5% by weight and less than 1% by weight, sodium bicarbonate more than 1% by weight, The method of manufacturing a feed additive compound for growth promotion containing 1.5% or less by weight includes mixing the sugar and the glucose while maintaining a weight ratio of 7:1, and adding the potassium chloride in an amount of 0.05 or more and 0.1 or less based on the weight ratio of the glucose. It may include the step of further mixing to correspond to a weight ratio of and the step of further mixing the sodium bicarbonate to correspond to a weight ratio of 0.1 or more and 0.14 or less based on the weight ratio of the glucose.

The method of manufacturing a feed additive compound for growth promotion involves boiling a mixture formed of sugar and water at a weight ratio of 1: 2-10, evaporating the water, and obtaining a sugar extract, and adding glucose and water at a weight ratio of 1: 2-10. Obtaining a glucose extract by boiling the mixture formed and evaporating the water; diluting the sugar extract and the glucose extract with water corresponding to a weight ratio of 2 to 10 times, and then mixing the sugar and glucose at a weight ratio of 7:1. A step of further mixing the potassium chloride to a weight ratio of 0.05 or more and 0.1 or less based on the weight ratio of the glucose, and the sodium bicarbonate to a weight ratio of 0.1 or more and 0.14 or less based on the weight ratio of the glucose. It may include an additional mixing step to do so.

The method of manufacturing a feed additive compound for growth promotion includes the steps of powdering sugar and glucose, diluting the sugar and glucose with water corresponding to a 2 to 10 times weight ratio, and then adding the sugar and glucose to a weight ratio of 7:1. Mixing, further mixing the potassium chloride to a weight ratio of 0.05 or more and 0.1 or less based on the weight ratio of the glucose, and adding the sodium bicarbonate to a weight ratio of 0.1 or more and 0.14 or less based on the weight ratio of the glucose. An additional mixing step may be included as appropriate.

In the above, the step of adding citric acid or humic acid is included, and citric acid or humic acid may be added in an amount of 0% or more and 0.05% or less, respectively, based on the total weight of the feed additive compound.

In the above, feed additive compounds for growth promotion prepared by a plurality of manufacturing methods may be disclosed, respectively.

The present invention, which utilizes means to solve the above problems, has the effect of increasing productivity in agriculture, livestock farming, fishing, etc.

In addition, it promotes the growth of livestock, plants, fish and shellfish, and increases the existing standard weight, which has the effect of contributing to increased income for workers in related fields.

In addition, the feed additive compound according to the present invention can be used as an additive to any type of feed, so it has a wide range of compatibility effects.

Overall, it can innovate human food production methods, provide delicious and safe food, and contribute to farm income and revitalization of the local economy.

Embodiments of the present specification may be better understood by referring to the following description in conjunction with the accompanying drawings, where like reference numerals designate identical or functionally similar elements.
Figure 1 is a diagram showing the sequence of a method for producing a feed additive compound for growth promotion according to an embodiment of the present invention.
Figure 2 is a diagram showing the sequence of a method for producing a feed additive compound for growth promotion according to another embodiment of the present invention.
Figure 3 is a diagram showing the sequence of a method for producing a feed additive compound for growth promotion according to another embodiment of the present invention.
Figure 4 is a diagram showing the addition of a process in which citric acid and humic acid are further included in the above-described feed additive compound manufacturing process.
Figure 5 is a diagram comparing the growth rate of strawberry seedlings with the general growth rate when a feed additive compound according to an embodiment of the present invention is used.
Figure 6 is a diagram comparing the growth rate of branch stems and roots with the general growth rate when a feed additive compound according to an embodiment of the present invention is used.
Figure 7 is a diagram comparing the growth rate of cabbage with the general growth rate when a feed additive compound according to an embodiment of the present invention is used.
Figure 8 is a diagram comparing the growth rate of pepper stems with the general growth rate when a feed additive compound according to an embodiment of the present invention is used.
Figure 9 is a diagram showing the growth of lettuce when a feed additive compound according to an embodiment of the present invention is used.
The drawings referenced above are not necessarily drawn to scale and should be understood as presenting rather simplified representations of various preferred features illustrating the basic principles of the present disclosure. The specific design features of the present disclosure, including, for example, specific dimensions, orientation, location and shape, will be determined in part by the particular intended application and usage environment.

The terminology used herein is for the purpose of describing specific embodiments only and is not intended to limit the disclosure. As used herein, singular forms are intended to include plural forms as well, unless the context clearly indicates otherwise. The terms “comprise” and/or “comprising”, when used herein, specify the presence of stated features, integers, steps, operations, elements and/or components, but also include other features. It will also be understood that this does not exclude the presence or addition of one or more of the following: fields, integers, steps, operations, elements, components and/or groups thereof. As used herein, the term “and/or” includes any one or all combinations of the associated listed items.

Throughout the specification, when a part is said to be "connected" to another part, this includes not only cases where it is "directly connected," but also cases where it is "electrically connected" with another element in between. . In addition, when a part is said to "include" a certain component, this does not mean excluding other components unless specifically stated to the contrary, but may further include other components and one or more other features. It should be understood that it does not exclude in advance the presence or addition of numbers, steps, operations, components, parts, or combinations thereof. In the case of the present invention, the weight ratio of the presented compounds, % of total weight, ratio between compounds, etc. correspond to the optimal ratio that can achieve the best effect derived through experiments. In the case of the present invention, the effect of mineral production and microorganism production can occur through the feed additive compound. Hereinafter, the present invention will be described in more detail including examples as follows.

Figure 1 is a diagram showing the sequence of a method for producing a feed additive compound for growth promotion according to an embodiment of the present invention, and Figure 2 is a diagram showing the sequence of a method for producing a feed additive compound for growth promotion according to another embodiment of the present invention. 3 is a diagram showing the sequence of a method for producing a feed additive compound for growth promotion according to another embodiment of the present invention.

As can be seen with reference to Figures 1 to 3, the feed additive compound according to an embodiment of the present invention contains 60% or more, 70% or less of sugar, 5% or more of glucose, 10%, based on the total weight of the feed additive compound. % by weight or less, 0.5% or more and 1% or less of potassium chloride, and 1% or more and 1.5% or less of sodium bicarbonate. The feed additive compound may further contain other ingredients in addition to the above ingredients. As an example, the feed additive compound may further include molasses or vitamin C. As an example, molasses is 1% or more and 2% or less of the total weight, and vitamin C is 0% or more and 0.03% of the total weight. It may contain the following.

Among the ingredients of the feed additive compound of the present invention, sugar can supply energy to the body and promote the growth of microorganisms. In addition, glucose is highly soluble in water and can be absorbed into body cells and metabolized as a source of energy necessary for cell function. In order to prevent excessive supply of sugar and glucose, the optimal weight % was derived through experiments as described above. Additionally, potassium chloride can be used to replenish moisture or electrolytes, and can help with tissue formation as well as enhance the absorption of nutrients. Sodium bicarbonate can contribute to the activation of digestion and can act as an antacid to neutralize acidity.

The method for producing a feed additive compound according to an embodiment of the present invention may begin with the step (S100) of mixing sugar and the glucose while maintaining a weight ratio of 7:1. Next, a step (S200) of additionally mixing the potassium chloride to correspond to a weight ratio of 0.05 or more and 0.1 or less based on the weight ratio of the glucose may be initiated. Next, a step (S300) of additionally mixing the sodium bicarbonate to correspond to a weight ratio of 0.1 or more and 0.14 or less based on the weight ratio of the glucose may be initiated. At the end of the above step, the manufacturing step of the feed additive compound according to an embodiment of the present invention is completed. Overall, as described above, based on the total weight of the feed additive compound, each additive maintains a % weight within a specified range, but can be mixed in the corresponding ratio. Therefore, the user can obtain a compound manufactured according to the method for manufacturing a compound for adding feed for growth promotion according to an embodiment of the present invention.

A method for producing a feed additive compound for growth promotion according to another embodiment of the present invention includes boiling a mixture formed by mixing sugar and water at a weight ratio of 1: 2 to 10, evaporating the water, and then obtaining a sugar extract (S50). can do. Through this step, it is possible to obtain a sugar extract with a thicker and higher density than existing sugar. Similarly, the step (S60) of obtaining a glucose extract after boiling a mixture formed by boiling a mixture of glucose and water at a weight ratio of 1:2 to 10 and evaporating the water may be subsequently initiated. Through this step, it is possible to obtain a glucose extract with a thicker viscosity and higher density than existing glucose.

Next, the sugar extract and the glucose extract may be diluted with water corresponding to a weight ratio of 2 to 10 times, and then the step (S110) of mixing the sugar and glucose at a weight ratio of 7:1 may be initiated, and then A step (S210) of additionally mixing potassium chloride to correspond to a weight ratio of 0.05 or more and 1 or less based on the weight ratio of glucose may be initiated. Finally, a step (S310) of additionally mixing the sodium bicarbonate to a weight ratio of 0.1 or more and 0.14 or less based on the weight ratio of the glucose is performed, and finally, the step of manufacturing the feed addition compound can be completed. Therefore, the user can obtain a compound manufactured according to the method for manufacturing a compound for adding feed for growth promotion according to another embodiment of the present invention.

A method for producing a feed additive compound for growth promotion according to another embodiment of the present invention may begin with the step (S51) of powdering sugar and glucose, respectively. Sugar and glucose are powdered so that they can be more easily mixed with the feed additive compound. Next, after diluting the sugar and glucose with water corresponding to a weight ratio of 2 to 10 times, a step (S120) of mixing the sugar and glucose at a weight ratio of 7:1 may be initiated, and the potassium chloride is mixed with the glucose. Based on the weight ratio, an additional mixing step (S210) may be initiated to correspond to a weight ratio of 0.05 or more and 0.1 or less. The manufacturing step is completed with the step 310 of additionally mixing the sodium bicarbonate to a weight ratio of 0.1 or more and 0.14 or less based on the weight ratio of the glucose. Therefore, the user can obtain a compound manufactured according to the method for manufacturing a compound for adding feed for growth promotion according to another embodiment of the present invention.

Figure 4 is a diagram showing the addition of a process in which citric acid and humic acid are further included in the above-described feed additive compound manufacturing process.

As can be seen with reference to FIG. 4, the plurality of manufacturing methods may include a step (S400) in which citric acid or humic acid is further included. Citric acid is an additive for promoting growth, and humic acid is an additive for rooting plants. Therefore, when the feed additive compound is used for livestock and fish, only citric acid can be added, and when used for plants, citric acid or humic acid, citric acid and humic acid can be added. A substance called humic is collected from sedimentary layers where plant remains have been deposited and decomposed over tens of millions of years. It is a high-molecular organic substance and is divided into humic acid, fulvic acid, and humin. Humic acid acts directly on the soil, so it can actually affect soil quality just like using chemical fertilizers in chemical agriculture, and because it contains trace elements and organic nutrients, it can play a sufficient role as a nutrient. In the case of the present invention, it is particularly preferable to use humic acid separated from the leonardite layer of the sediment layer. As another example, fulvic acid may be added to the feed additive compound corresponding to one embodiment of the present invention. Unlike humic acid, which acts on soil, fulvic acid can directly serve as a nutrient for plants.

As an example, the citric acid or humic acid may be added in an amount of 0% or more and 5% or less, respectively, based on the total weight of the feed additive compound. This can be interpreted as the optimal range derived through experimentation to prevent oversupply of nutrients. Therefore, the user can obtain a compound prepared according to the method for producing a compound for adding feed for growth promotion containing citric acid or humic acid according to an embodiment of the present invention.

When the feed additive compound according to the present invention is used on crops, bird secretions, etc. may be further included in the feed additive compound. Bird secretions are rich in nutrients such as phosphorus, nitrogen, and potassium, and can improve the soil and provide necessary nutrients to crops. As an example, chicken secretions, etc. can be used, and the feed additive compound can be added in an amount of 5% or more and 10% or less by weight based on the total weight. When the feed additive compound according to the present invention is used on crops, coffee grounds may be further included in the feed additive compound. Coffee grounds can promote plant growth by improving soil aeration and providing minerals such as magnesium and calcium. As an example, coffee grounds may be added in an amount of 5% or more to 10% or less based on the total weight of the feed additive compound.

When the feed additive compound according to the present invention is used on animals, protein supplements may be further included in the feed additive compound. Since most livestock require vegetable protein, supplements made from powdered soybeans, peanuts, etc. can be used. As an example, the feed additive compound may be added in an amount of 5% or more and 10% or less based on the total weight. When the feed additive compound according to the present invention is used on animals, a fat supplement may be further included in the feed additive compound. As an example, corn oil, soybean oil, etc. may be used, and may be added in an amount of 5% or more and 10% or less by weight based on the total weight of the feed additive compound. Additionally, probiotics and prebiotics may be added to maintain the health of the digestive system. This provides beneficial bacteria to the digestive system of livestock, promoting digestion, preventing digestive problems, and promoting growth.

Figure 5 is a diagram comparing the growth rate of strawberry seedlings with the general growth rate when using a feed additive compound according to an embodiment of the present invention, and Figure 6 is a diagram showing the growth rate of strawberry seedlings when using a feed additive compound according to an embodiment of the present invention. 7 is a diagram comparing the growth rate of branch stems and roots with the general growth rate, and Figure 7 shows the growth rate of cabbage compared to the general growth rate when using the feed additive compound according to an embodiment of the present invention. It is a drawing, and Figure 8 is a diagram comparing the growth rate of pepper stems with the general growth rate when using a feed addition compound according to an embodiment of the present invention, and Figure 9 is a view showing the addition of feed according to an embodiment of the present invention. This is a diagram showing the growth of lettuce when the compound is used.

Examples of manufacturing experiments of feed additive compounds used in the experiment are as follows.

<Experiment example>

1) Prepare 1400g of sugar, 200g of glucose, 13g of potassium chloride, 20g of sodium bicarbonate, 80g of humic acid, 80g of citric acid, and 3kg of water.

2) Boil 3kg of water, then pour in 1400g of sugar, stir and boil until completely dissolved.

3) Next, add 200g of glucose, stir and boil until completely dissolved.

4) Next, add 13g of potassium chloride and heat to over 180 degrees Celsius and boil until completely dissolved.

5) After cooling the temperature to below 20 degrees Celsius, mix 20g of sodium bicarbonate with 200g of water and add more. This is to prevent the carbonic acid from vaporizing and generating a lot of bubbles when the sodium bicarbonate temperature exceeds 20 degrees Celsius.

6) Next, add an additional 80g each of citric acid and humic acid, mix, stir, and cool to room temperature to harden.

7) Lastly, the solidified feed additive compound is pulverized and added to the feed.

The following tables record the observation of the growth status of different crops for a certain period of time at different experimental locations after administering the feed additive compound prepared in the above experimental example.

Target strawberry period 20.07.06
~20.09.06 Experiment location Iksan Crop Class test results (1) Compound administration date: July 6
(2) Test results - comparison with crops not administered feed additive compounds
1) Samples of one bottle each of feed additive compounds were provided to 8 of the 40 farms in the crop group.
2) It is difficult to confirm the effect of rooting, but the stems and leaves become thicker and more numerous. Improved overall growth and nutritional status

In the case of Table 1, the experimental results of thicker stems and an increased number of leaves can be judged as an increase in growth rate, and as the number of leaves increases, a positive effect is continuously expressed in the energy acquisition process through photosynthesis. It is judged that it will be

Target egg plant period 20.03.24
~20.04.04 Experiment location Jinan-gun test results (1) Compound administration date: March 24
(2) Test results - comparison with crops not administered feed additive compounds
1) Crop length
- Total input: 11cm
- Total not entered: 7cm
2) Leaf condition and number
- Input: dark light green, 8 pieces
- Not included: light green, 5 pieces
3) Root condition
- Insertion: Length 3.5cm
- Not included: Length 2.5cm
(3) Opinion
1) Check the effect of rooting when comparing during the planting period
2) The stems become thicker, the leaves become more numerous, and the color becomes darker.
3) Improved overall growth and nutritional status

In Table 2, the condition of leaves (maturity and number according to color), root length, and crop length showed much improvement in branches administered feed additive compounds.

Target Lettuce period 2019.12
~2020.09 Experiment location Iksan Crop Class test results (1) Compound administration date: Regular administration after December 2019
(2) Test results - comparison with crops not administered feed additive compounds
1) It was confirmed that the results were good when processing lettuce planted on August 1st.
2) After composting in December last year, lettuce, watermelon, and lettuce were continuously cultivated and harvested 5 times.
3) Especially in high temperature and humidity and lack of sunlight, 3 to 4 boxes more are harvested than other farms.
(3) Opinion
1) Most people grow lettuce while growing melons or watermelons in the spring, and we strongly request participation in the auxiliary project as it is expected that it will be effective in addition to lettuce.
2) Support by recommending products to strawberry and melon farming classes

In the case of Table 3, the growth status of lettuce that was regularly administered feed additive compounds for a long period of time was reviewed. Even in high temperature and humidity and insufficient sunlight, the fact is that 3 to 4 boxes more were harvested than farmers who did not use the feed additive compounds. Considering this, it can be interpreted that it has created a great effect on growth.

Target pepper period 18.03.23
~18.06.17 Experiment location Gochang Crop Class test results (1) Compound administration date: March 23 (seedlings), May 8 (formal planting), May 28
(2) Test results - comparison with crops not administered feed additive compounds
1) Compared to the untreated group, crops grew an average of 10 cm taller, and the stems also became thicker.
2) When calculating the number of peppers formed, the current pepper harvest is expected to be about 30% more than the untreated group.
3) Despite the somewhat late planting date, it is showing good growth, and there have been no disease-related symptoms so far.
3) However, in the untreated group, aphids occurred.

Target pepper period 20.03.24
~20.04.04 Experiment location Jinan-gun test results (1) Compound administration date: March 24
(2) Test results - comparison with crops not administered feed additive compounds
1) Crop length
- Total input: 9㎝
- Total not included: 5.5cm
2) Leaf condition and number
- Input: dark light green, 8 pieces
- Not included: light green, 6 pieces
3) Root condition
- Input: 2 thick roots, 4cm long
- Not included: 1 red root, 1.5cm long
(3) Opinion
1) Check the effect of rooting when comparing during the planting period
2) The stems become thicker, the leaves become more numerous, and the color becomes darker.
3) Improved overall growth and nutritional status

In Tables 4 and 5, the feed additive compound of the present invention showed a great effect on the growth of peppers (plants), and it was found that it could prevent not only the growth of roots, stems, and leaves, but also disease-related symptoms.

As can be seen by looking at the above table, the feed additive compound according to an embodiment of the present invention improves growth and nutritional status, and in particular promotes the overall growth rate of plants by promoting stem growth and rooting effects. It has been shown to increase fruit yield.

In addition, when the feed additive compound according to an embodiment of the present invention was administered to eggplant, the length of the crop increased by 1.5 times and the length of the roots also increased by 1.5 times compared to the non-administered crop. When administered to broccoli, the length of the crop increased by 1.4 times, and the length of the roots also increased by 1.6 times.

The description of the present invention described above is for illustrative purposes, and those skilled in the art will understand that the present invention can be easily modified into other specific forms without changing the technical idea or essential features of the present invention. will be. Therefore, the embodiments described above should be understood in all respects as illustrative and not restrictive. For example, the feed additive compound of the present invention can be used for a variety of animals, and particularly suitable animals include poultry (chicken, duck, etc.), pigs, rabbits, and fish, and can be used widely and usefully.

The scope of the present invention is indicated by the patent claims described below rather than the detailed description above, and all changes or modified forms derived from the meaning and scope of the patent claims and their equivalent concepts should be construed as being included in the scope of the present invention. do.

Claims (8)

Feed for growth promotion containing 60% to 70% of sugar, 5% to 10% of glucose, 0.5% to 1% of potassium chloride, and 0.1% to 0.15% of sodium bicarbonate, based on the total weight of feed additive compounds. In the method of producing an additive compound,
Mixing the sugar and the glucose while maintaining a weight ratio of 7:1;
Additional mixing of the potassium chloride to correspond to a weight ratio of 0.05 or more and 0.1 or less based on the weight ratio of the glucose; and
Additional mixing of the sodium bicarbonate to a weight ratio of 0.1 to 0.14 based on the weight ratio of the glucose;
A method for producing a feed additive compound for growth promotion, comprising: Feed for growth promotion containing 60% to 70% of sugar, 5% to 10% of glucose, 0.5% to 1% of potassium chloride, and 1% to 1.5% of sodium bicarbonate based on the total weight of feed additive compounds. In the method of producing an additive compound,
Boiling a mixture of sugar and water at a weight ratio of 1:2 to 10, evaporating the water, and obtaining a sugar extract;
Obtaining a glucose extract by boiling a mixture formed of glucose and water at a weight ratio of 1:2 to 10 and evaporating the water;
Diluting the sugar extract and the glucose extract with water corresponding to a weight ratio of 2 to 10 times each, then mixing the sugar and glucose at a weight ratio of 7:1;
Additional mixing of the potassium chloride to correspond to a weight ratio of 0.05 or more and 0.1 or less based on the weight ratio of the glucose; and
Additional mixing of the sodium bicarbonate to a weight ratio of 0.1 to 0.14 based on the weight ratio of the glucose;
Method for producing feed additive compounds for growth promotion, comprising: Feed for growth promotion containing 60% to 70% of sugar, 5% to 10% of glucose, 0.5% to 1% of potassium chloride, and 1% to 1.5% of sodium bicarbonate based on the total weight of feed additive compounds. In the method of producing an additive compound,
Powdering sugar and glucose respectively;
Diluting the sugar and glucose with water corresponding to a weight ratio of 2 to 10 times each, then mixing the sugar and glucose at a weight ratio of 7:1;
Additional mixing of the potassium chloride to correspond to a weight ratio of 0.05 or more and 0.1 or less based on the weight ratio of the glucose; and
Additional mixing of the sodium bicarbonate to correspond to a weight ratio of 0.1 to 0.14 based on the weight ratio of the glucose;
Method for producing feed additive compounds for growth promotion, comprising: According to any one of claims 1 to 3,
Additional mixing of the sodium bicarbonate to a weight ratio of 0.1 to 0.14 based on the weight ratio of the glucose;
to the next
Adding citric acid or humic acid;
Included,
A method for producing a feed additive compound for growth promotion, characterized in that the citric acid or humic acid is added in an amount of 0% or more and 0.5% or less based on the total weight of the feed additive compound, respectively. A feed additive compound for growth promotion prepared by the manufacturing method of claim 1. A feed additive compound for growth promotion prepared by the manufacturing method of claim 2. A feed additive compound for growth promotion prepared by the manufacturing method of claim 3. A feed additive compound for growth promotion prepared by the manufacturing method of claim 4.