KR102086830B1 - Liquid fatty composition containing polyunsaturated fatty acids derived from algae and method of manufacturing - Google Patents

Abstract

According to the present invention, a method for preparing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae comprises: (a) heating a polyunsaturated fatty acid-containing solvent oil; (b) mixing algae with the heated solvent oil to prepare a mixture; (c) heat treating the mixture; And (d) obtaining a liquid fat composition from the heat treated mixture. The use of a liquid fat composition comprising polyunsaturated fatty acids derived from algae and a method for producing the same according to the present invention is not only simple and eco-friendly, but also economically advantageous due to low manufacturing costs. In addition, the liquid fat composition comprising polyunsaturated fatty acids derived from algae according to the present invention is also extracted with chlorophyll, a natural antioxidant when extracting polyunsaturated fatty acids from algae, it is possible to prevent the oxidation of fat without the addition of additional antioxidants It has an effect.

Description

Liquid fatty composition containing polyunsaturated fatty acids derived from algae and method of manufacturing

The present invention relates to a liquid fat composition comprising a polyunsaturated fatty acid derived from algae and a method for preparing the same, and more particularly, to a liquid fat derived from algae extracted from an algae dry body using a polyunsaturated fatty acid-containing oil as a solvent. Unsaturated fatty acid-containing liquid fat composition, a preparation method and a use thereof.

With the recent increase in the health risk index due to aging and environmental changes, humankind is trying to improve the consumption of different beneficial dietary nutrients through health functional foods. These dietary nutrients also include essential polyunsaturated fatty acids such as omega-3 and omega-6.

Omega-3 and omega-6 essential fatty acids do not result in new or "new" synthesis in the human body, but the human body is highly polyunsaturated, such as DHA and ARA, even though these fatty acids are obtained at meals, even though they are very low in efficiency. Can be converted to fatty acids. Both omega-3 and omega-6 fatty acids must be part of the nutritional absorption, because the human body cannot insert double bonds closer to the omega end than the seventh carbon atom by counting from the omega end of the molecule. That is, all metabolic conversions occur without changing the omega terminus of the molecules containing omega-3 and omega-6 double bonds. Thus, because omega-3 and omega-6 acids are not interconvertible in the human body, they are two distinct groups of fatty acids.

Essential fatty acids of the omega-3 series have been reported as important compounds for preventing atherosclerosis and coronary heart disease, and anti-inflammatory and anticancer activity.Omega-6 essential fatty acids act as structural lipids in the human body and are excessive. It also acts as a precursor to many inflammatory factors, such as prostaglandins, leukotrienes, and thromboxanes.

Fatty acid means a lipophilic group having 6 or more carbon atoms and a carboxyl group (-COOH), and the lipophilic group is composed of a single bond without a double bond. Saturated, and the presence of a double bond is called unsaturated. do.

Fatty acids are classified based on the length and saturation characteristics of the carbon linkage structure, and are classified into C2 to C6, C8 to C14, and C16 to C24 depending on their length.

As a general example, DHA (docosahexaenoic acid), an omega-3 fatty acid that we know well, can be expressed as a combination of 22 carbon atoms having 6 double bonds starting from the third carbon from the end of the methyl group. Name it -3 ".

These fatty acids have one or more unsaturation points and are classified as "monounsaturated" and "polyunsaturated" in their respective terms.

The mutual concentration ratio of the two unsaturated fatty acids is important for the human intake of these two monounsaturated and polyunsaturated fatty acids, and the omega-3 and omega-6 essential fatty acids cannot be mutually converted in the human body as described above. Because of this, it is important to consume the two fatty acids in the proper ratio (1: 4).

Over the last few decades, health care professionals have recommended meals with less saturated fat and more polyunsaturated fat. Many consumers do not follow this advice, and heart disease, cancer, diabetes and other senile diseases are constantly increasing. Experts in this regard agree that the type and source of polyunsaturated fatty acids is critical to the total amount of fat in the body. In fact, the World Health Organization recommends fortifying omega-3 fatty acids in infant formula.

Commonly used polyunsaturated fatty acids are derived from vegetable oils containing significant amounts of omega-6 (linoleic acid, C18: 2n-6) but little or no omega-3 fatty acids.

Of the monounsaturated fatty acids, oleic acid (C18: 1n-9) and palmitoleic acid (C16: 1n-7) are the most common and monounsaturated fatty acids have a positively important effect on human health from a nutrient standpoint. It is known to lower the risk of cardiovascular disease, overweight and inflammation-related diseases.

The main sources of omega-3 known to date are linseed oil and fish oil. In the past decades, the production of linseed and fish oils has shown rapid growth. Both types of oils are believed to be good dietary sources of omega-3 polyunsaturated fatty acids. Flaxseed oil does not contain EPA, DHA, DPA or ARA, but rather contains linolenic acid (C18: 3 n-3), a building block that allows the body to produce EPA. However, there are reports that metabolic turnover may be slow and unstable, especially among people with impaired health.

Fish oils vary greatly in type and content of fatty acid composition, depending on species and food. For example, farmed fish tend to have relatively lower levels of omega-3 fatty acids than wild fish. Fish oils also carry the risk of containing environmental contaminants commonly found in fish. In view of the health benefits of these omega-3 and omega-6 essential fatty acids, it may be desirable to supplement these fatty acids with food. Fish oils and certain microbial oils and the like are known to contain high levels of C18-C24 polyunsaturated fatty acids and are preserved in oil or liquid form at room temperature (20 ° C.). It is therefore desirable for use in various food applications where liquid oils may be applied.

Conventional high concentration polyunsaturated fatty acid liquid oils are generally pretreated, desolvented or deodorized, winterization (Winterization, water freezing of the oil, hereinafter wintering), chemical process refining for the safety of human consumption. It is processed by a number of steps including cold filtration and bleaching. These methods add cost-boosting factors to the manufacturing process, including time and expense, and can inject chemicals into the post-manufacturing process that is not allowed in the natural and organic markets. Therefore, there is a need for an improved oil production method to effectively cope with simplification, low cost, and wide market demand.

In addition, the polyunsaturated fatty acids are structurally unstable than saturated fatty acids and tend to be vulnerable to off-flavor generation or taste modification. The off-flavor is caused by the oxidation of fat and is caused by water, oxygen, metal elements and microorganisms mixed in foods. These causes can cause problems with food properties. To prevent this oxidation, aromas such as green tea, cucumbers, and fried foods are often used, and natural antioxidants such as beta-carotene, vitamins C and E are used. Industrial antioxidants include butylhydroxyanisole (BHA) and butylhydroxytoluene (BHT). When excessive, BHA is known to cause digestive bleeding, liver congestion, genetic abnormalities, and allergies. And it is known to cause skin hypersensitivity reactions, gene abnormalities, subcutaneous fat accumulation and allergies and has a high risk. Therefore, the replacement of industrial antioxidants for the oxidation of oil is absolutely necessary.

Under these technical backgrounds, the inventors have completed the invention of mixed oils comprising edible oils containing essential fatty acids, such as omega-3 and omega-6, chlorophyll, which acts as a natural antioxidant in oils, and dietary minerals that are beneficial to health. It became.

KR 10-1441559 B KR 10-1835686 B

It is an object of the present invention to provide a liquid fat composition comprising a dietary nutrient omega-3 and omega-6 monounsaturated fatty acids and polyunsaturated fatty acids derived from algae and a method for producing the same.

In addition, the present invention is a liquid fat containing a high concentration of polyunsaturated fatty acids that can be produced using environmentally friendly, minimal raw materials without pretreatment, deodorization, wintering, chemical process post-treatment, cold filtration, and bleaching process. The purpose is to provide a composition.

The problem to be solved by the present invention is not limited to the problem (s) mentioned above, and other object (s) not mentioned will be clearly understood by those skilled in the art from the following description.

In order to solve the above problems, according to a preferred embodiment of the present invention, a method for preparing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae, (a) heating a polyunsaturated fatty acid-containing solvent oil; (b) mixing algae with the heated solvent oil to prepare a mixture; (c) heat treating the mixture; And (d) obtaining a liquid fat composition from the heat treated mixture.

In one embodiment, the polyunsaturated fatty acid-containing solvent oil is preferably prepared by a compression method or an extraction method.

In one embodiment, the step (a), it is preferable to heat the polyunsaturated fatty acid-containing solvent oil to 40 ~ 60 ℃.

In one embodiment, the step (b), it is preferable to mix the algae and the heated solvent oil of the step (a) in a 1: 3 to 5 weight ratio.

In one embodiment, the alga is preferably a dried body.

In one embodiment, in the step (c), the mixture is separated by stirring the mixture at 40 to 65 ° C. for 2 to 4 hours, and then further stirred at 50 to 65 ° C. for 10 to 14 hours.

In one embodiment, the step (d), it is preferable to centrifuge for 5 to 20 minutes at 2,500 ~ 3,500 rpm.

According to another preferred embodiment of the present invention, a liquid fat composition comprising polyunsaturated fatty acids derived from algae comprises polyunsaturated fatty acids derived from one or more algae, wherein the polyunsaturated fatty acids derived from algae are polyunsaturated. It is characterized by being extracted with a fatty acid-containing oil as a solvent.

In one embodiment, it is preferred to include 2.9 mg / 100 g to 29.8 mg / 100 g of chlorophyll.

In one embodiment, the polyunsaturated fatty acid derived from algae, preferably comprises at least one of the group consisting of palmitic acid, palmitoleic acid, oleic acid, linoleic acid, and linolenic acid.

The use of a liquid fat composition comprising polyunsaturated fatty acids derived from algae and a method for producing the same according to the present invention is not only simple and eco-friendly, but also economically advantageous due to low manufacturing costs.

In addition, the liquid fat composition comprising polyunsaturated fatty acids derived from algae according to the present invention is also extracted with chlorophyll, a natural antioxidant when extracting polyunsaturated fatty acids from algae, it is possible to prevent the oxidation of fat without the addition of additional antioxidants It has an effect.

1 is a schematic diagram illustrating a method for preparing a liquid fat composition including a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Advantages and features of the present invention, and a method of achieving the same will be apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below but may be embodied in various different forms, and only the present embodiments make the disclosure of the present invention complete, and are commonly used in the art to which the present invention pertains. It is provided to fully inform the person of knowledge of the scope of the invention. Furthermore, the invention is only defined by the scope of the claims.

Furthermore, in the following description of the present invention, if it is determined that related related arts and the like may obscure the gist of the present invention, a detailed description thereof will be omitted.

Prior to the description of the present invention, in the applicant's prior patent, "Medium algae culture medium containing lava seawater, and a method of culturing microalgae using the same (Registration No. 10-1835686, Patent Registration Date '18 .02.28.)" When culturing microalgae in a microalgal culture medium containing lava seawater and demineralized water, biomass, protein, phycocyanin, linoleic acid (C18: 2n6c) and gamma-linoleic acid (C18: 3n6) has been confirmed that the effect of increasing the content of at least one selected from the group consisting of.

In addition, in the Example of Patent Document 2, the algae oil was 44.80% monounsaturated fatty acid, 43.70% polyunsaturated fatty acid, 11.60% saturated fatty acid, it was confirmed that no trans fat and cholesterol. The composition ratio of the monounsaturated fatty acid content, the polyunsaturated fatty acid content and the saturated fatty acid content can be confirmed by controlling the mixing amount according to the use purpose.

Hereinafter, a method of preparing a liquid fat composition including a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention will be described with reference to FIG. 1.

1 is a schematic diagram illustrating a method for preparing a liquid fat composition including a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention.

Method for producing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention, (a) heating the polyunsaturated fatty acid-containing solvent oil (S100); (B) preparing a mixture by mixing algae dry body to the heated solvent oil (S200); (c) heat treating the mixture (S300); And (d) obtaining a liquid fat composition from the heat treated mixture (S400).

In the method of preparing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention, step (a) (S100) is a step of heating a polyunsaturated fatty acid-containing solvent oil.

The polyunsaturated fatty acid-containing solvent oil of step (a) (S100) may be prepared by a compression method or an extraction method.

Specifically, the polyunsaturated fatty acid-containing solvent oil may be one or more selected from the group consisting of sesame oil, perilla oil, compressed peanut oil, compressed olive oil, and compressed pepper seed oil produced by the compression method, but the type thereof is not limited. In an embodiment, the compression method may mean a method of compressing a material containing a polyunsaturated fatty acid to obtain a solvent oil.

In addition, the polyunsaturated fatty acid-containing solvent oil may include soybean oil, corn oil, rapeseed oil (canola oil), rice bran oil, safflower oil, sunflower oil, cottonseed oil, peanut oil, olive oil, palm oil, palm oil (coconut oil), mixed cooking oil, And pepper seed oil may be one or more selected from the group consisting of, but does not limit the kind. In an embodiment, the extraction method may mean a method of obtaining a solvent oil from a material containing a polyunsaturated fatty acid using a solvent.

In the step (a) (S100), the polyunsaturated fatty acid-containing solvent oil may be heated to 40 to 60 ℃, specifically, may be heated to 40 ℃. In an embodiment, when the polyunsaturated fatty acid containing solvent oil is heated to below 40 ° C., yields of liquid fat compositions comprising polyunsaturated fatty acids derived from algae (eg, spirulina) may be degraded. In addition, when a polyunsaturated fatty acid-containing solvent oil is heated above 60 ° C., a liquid fat composition comprising polyunsaturated fatty acids derived from algae (eg, spirulina) occurs by deformation of algae (eg, spirulina). The yield of may drop. Alternatively, in other embodiments, the heating temperature of the polyunsaturated fatty acid-containing solvent oil may be different.

In the method for preparing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention, step (b) (S200), the solvent oil heated in the step (a) (S100) Algae is mixed to prepare a mixture.

The step (b) (S200) may further comprise the step of preparing the mixture and then stirring, and may form a mixture of the continuous phase through the stirring step. At this time, no additional gas or fat-soluble liquid solvent for mixing may be added.

In addition, in step (b) (S200), natural antioxidants (chlorophyll, oil-based substances, etc.), dietary minerals, therapeutic ingredients, pharmaceutical ingredients, functional food ingredients may be further mixed.

In step (b) (S200), the algae and the heated solvent oil of step (a) (S100) may be mixed in a ratio of 1: 3 to 5 by weight.

When the content of the solvent oil is included in less than 3 weight ratio, there may be a problem that the mixture between the solvent oil and algae is thickened, if the content exceeds 5 weight ratio there is a disadvantage in that the content of unsaturated fatty acids extracted from algae is lowered in the above range Within is preferable.

However, the amount of the solvent oil to be added in a weight ratio of 5 or more is not limited according to the use and function of the product.

The algae may be a dried dry body, and specifically, may be a powder ground after drying.

The drying method and the grinding method are not limited.

The reason for crushing the algae is to increase the extraction efficiency.

The algae are Spirulina sp., Achnanthes sp., Amphiprora sp., Amphora sp., Ankistrodesmus sp. , Asteromonas sp., Boekelovia sp., Borodinella sp., Botryococcus sp., Brachotecocus genus ( Bracteococcus sp., Chaetoceros sp., Carteria sp., Chlamydomonas sp., Chlorococcum sp., Chlorogonium sp.), Chlorella sp., Chromonas sp., Chrysosphaera sp., Cricosphaera sp., Cryptocodynium genus ( Crypthecodinium sp.), Cryptomonas sp., Cyclotella sp., Dunaliella sp., Ellipsoidon sp., Emiliani Genus (Emiliania sp.), Genus Eremosphaera sp., Genus Ernodesmius sp., Genus sp.Euglena sp., Genus francia sp. Fragilaria sp., Gloetohamnion sp., Haematococcus sp., Halocafeteria sp., Hymenomonas sp., Isomonas sp. Isochrysis sp., Lepocinclis sp., Micractinium sp., Monaphidium sp., Nannochloris sp., Nanoclop The genus Cis (Nannochloropsis sp.), Genus Navicula sp., Genus Neochloris sp., Genus Nephrochloris sp., Genus Nephroslmis sp. (Nitzschia sp.), Ochromonas sp., Oedogonium sp., Oocystis sp., Ostreococcu s sp.), Pavlova sp., Parachlorella sp., Pascheria sp., Phaeodactylum sp., Phagus sp. , Platymonas sp., Pleurochrysis sp., Plurococcus sp., Prototheca sp., Pseudochlorella sp., Pyramimonas sp., Pyrobotrys sp., Scenedesmus sp., Skeletonema sp., Spyrogyra sp., Stycoco Stichococcus sp., Tetraselmis sp., Thalassiosira sp., Viiridiella sp., Coccomyxa sp., Sizokit Schizochytrium sp., Chrysophyceans, diatoms and mixtures thereof may be one or more selected from the group consisting of.

Specifically, the Spirulina sp. Is Spirulina maxima, Spirulina platensis, Spirulina geitleri, Spirulina siamese, Spirulina maya major ), Spirulina subsalsa, Spirulina princeps, Spirulina laxissima, Spirulina curta and Spirulina spirulinoides (Spirulina spirulinoides) It may be one or more species, more specifically Spirulina maxima (Spirulina maxima), but the type is not limited.

In addition, it may further include a large seaweed (seaweed, macroalgae), and specifically may correspond to all groups of green algae (Green Algae), brown algae (Brown Algae) and red algae (Red Algae). More specifically, the green algae is at least one selected from the group consisting of a single seaweed, a falcon, and a green seaweed, and the brown algae is one selected from the group consisting of Ecklonia cava, wakame, gompi, rhubarb, kelp, steamed rice, moss, and mortar. Above, the red algae may be one or more selected from the group consisting of laver, barley fern, bracken, starfish, bracken, jindubal, stone, and silk grass, but the type of algae that can be used for food is not limited. .

They can be composed of a single or a mixture because they contain natural pigments with different functionalities among similar evolutionary relationships and oil-based components of algae and seaweeds.

In the method for preparing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention, step (c) (S300) is a step of heat-treating the mixture.

The step (c) (S300) may be performed using an incubator, a shaker, a shaker, an agitator, and the like, which is capable of temperature control, but is not limited thereto.

Step (c) (S300), the mixture is separated by stirring the mixture at 40 ~ 65 ℃ for 2 to 4 hours, it may be further stirred for 10 to 14 hours at 50 ~ 65 ℃, specifically, The mixture may be separated by stirring for 3 hours while heating the temperature from 40 ° C to 65 ° C. When the phase separation is complete, the mixture can be stirred for 12 hours at 50 ° C.

In the method for preparing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention, step (d) (S400), the step of obtaining a liquid fat composition from the heat-treated mixture ( S400).

Step (d) (S400) is a step obtained by centrifuging the heat treated mixture.

The step (d) (S400) may be obtained by centrifugation at 2,500 to 3,500 rpm for 5 to 20 minutes, specifically, by centrifugation at 3,000 rpm for 10 minutes.

As described above, using a method for preparing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention, pretreatment, deodorization, and solvent winter of a high concentration polyunsaturated fatty acid production process that have been conventionally performed It is possible to provide a liquid fat composition containing polyunsaturated fatty acid only through a desolvent process, without undergoing a ring, chemical process post-treatment, cold filtration, or bleaching process.

Liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention, the polyunsaturated fatty acid derived from one or more algae, the polyunsaturated fatty acid derived from the algae contains a polyunsaturated fatty acid It is characterized in that the oil is extracted with a solvent.

A liquid fat composition comprising polyunsaturated fatty acids derived from algae according to an embodiment of the present invention may include 2.9 mg / 100 g to 29.8 mg / 100 g of chlorophyll.

The polyunsaturated fatty acid derived from algae may comprise one or more of the group consisting of palmitic acid, palmitoleic acid, oleic acid, linoleic acid, and linolenic acid, and specifically the liquid fat composition may comprise 7% palmi Tic acid, about 43% oleic acid, at least about 35% linoleic acid, at least about 8% linolenic acid.

Liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention may be pH 7.47, acid value 0.06, peroxide value 17.63 meq / Kg, iodine 120, TBA 0.26, benzopyrene 0.1 ㎍ / kg concentration In addition, since the measurement of the component pH, acid value, and concentration of the liquid fat composition is well known in the art, a description of the measurement method is omitted.

The liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention is below a reference value as a result of measuring the concentration of heavy metals such as arsenic, cadmium, chromium, lead, mercury, and selenium.

The calorific value of a liquid fat composition comprising polyunsaturated fatty acids derived from algae according to an embodiment of the present invention is 900 cal (calories) per 100 g.

Liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention has a concentration and content of cholesterol and fiber of 1.00 mg or less, 1.00% or less per 100 g, respectively.

The protein content of the liquid fat composition comprising the polyunsaturated fatty acid derived from algae according to an embodiment of the present invention is 0.5% or less.

The total sugars, moisture, and ash content of the liquid fat composition comprising polyunsaturated fatty acids derived from algae according to an embodiment of the present invention is 0.10% or less.

Liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention contains vitamin D in a concentration of 0.10 μg (mcg) or less per 100 g.

The liquid fat composition comprising polyunsaturated fatty acids derived from algae according to one embodiment of the present invention comprises phosphorus at a concentration of 0.02 mg or less per 100 g.

Liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention comprises calcium at a concentration of 0.44 mg per 100 g.

Liquid fat composition comprising a polyunsaturated fatty acid derived from algae according to an embodiment of the present invention comprises iron in a concentration of 0.17 mg per 100 g.

A liquid fat composition comprising polyunsaturated fatty acids derived from algae according to one embodiment of the present invention comprises sodium at a concentration of 0.05 mg or less per 100 g.

According to another embodiment of the present invention, it is possible to provide a pharmaceutical composition comprising the liquid fat composition described above, wherein the pharmaceutical composition comprises a pharmaceutically acceptable excipient and / or an added pharmaceutical active (i.e., therapeutic or Pharmaceutically active ingredient or combinations thereof). This embodiment is particularly advantageous in the case of pharmaceutical actives having low solubility in water. Such pharmaceutical products have the advantage of providing a therapeutically active ingredient with beneficial nutrients such as unsaturated fatty acids.

Examples of such pharmaceutically acceptable excipients include water, phosphate buffered saline, Ringer's solution, dextrose solution, serum-containing solution, Hank's solution, and other aqueous physiologically equilibrated solutions. , Oils, esters, and glycols, but are not limited to these.

Pharmaceutically active agents of the present invention include, but are not limited to, statins, antihypertensives, antidiabetic agents, antidementants, antidepressants, antiobesity agents, appetite suppressants and agents that enhance memory and / or cognitive function.

According to another embodiment of the present invention, it is possible to provide a food product comprising the liquid fat composition as described above, which food product may be used alone or in combination with a food ingredient such as a functional food ingredient, food additive or other ingredient. It may further include.

For example, the liquid fat composition may be added in the production of various products such as baked foods, vitamin supplements, dietary supplements, powdered drinks and the like. Many processed or semi-processed powdered food products can be produced using liquid fat compositions.

Example 1

First, 10 g of spirulina was dried at 30 ° C. for 6 hours to prepare a dry body.

Next, canola oil, perilla extract omega-3 oil, and pressed sunflower oil were mixed at a ratio of 9: 9: 2 to prepare 300 ml of solvent oil.

Next, 300 ml of solvent oil was heated to 40 ° C., and then 10 g of spirulina was added to the mixture and stirred for 3 hours while the temperature was raised from 40 ° C. to 65 ° C. After stirring for 3 hours, it was confirmed that the solvent oil and the spirulina dry matter were separated into layers, and the temperature of the solvent oil was measured at 50 ° C.

After confirming the separation of the solvent oil and spirulina dry body, the mixture was stirred for 12 hours.

Finally, after stirring was completed, a liquid fat composition containing polyunsaturated fatty acids derived from algae was prepared by centrifugation at 3,000 rpm for 10 minutes using a centrifuge.

Experimental Example 1

The content of fatty acids contained in the liquid fat composition prepared according to Example 1 is shown in Table 1 below.

The fatty acid content of Example 1 was analyzed according to the Association of Official Analytical Chemists (AOAC 2006 Official methods of analysis of the Association of official Analytical Chemists 17th ed AOAC, Arlington, VA).

TABLE 1

The liquid fat composition according to Example 1 was found to include 44.80% monounsaturated fatty acid, 43.70% polyunsaturated fatty acid, 11.60% saturated fatty acid, no transfat and cholesterol, monounsaturated fatty acid, The composition ratio of polyunsaturated fatty acid and saturated fatty acid was found to be adjustable by adjusting the ratio of the solvent oil and algae dry body according to the final use.

Experimental Example 2

Prepared in the same manner as in Example 1, by setting the ratio of the spirulina dry body and the solvent oil as shown in Table 2 below to prepare a liquid fat composition comprising a polyunsaturated fatty acid derived from algae to analyze the chlorophyll content according to the ratio It is shown in Table 2 below.

TABLE 2

As can be seen in Table 2, it was confirmed that the content of the natural antioxidant pigment extracted from algae can vary depending on the mixing ratio of spirulina or the dry body and the solvent oil. In addition, in the case of the chlorophyll content, it can be confirmed that when the dry body is mixed relatively much, the liquid and the dry body can be mixed without thickening. The lower the spirulina dry matter mixing ratio (spirulina: solvent oil ratio), the higher the concentration of chlorophyll. The concentration of total chlorophyll in the liquid fat composition according to the present invention ranged from at least 2.9 mg / 100 g to at most 29.8 mg / 100 g, depending on the dilution ratio of spirulina dry body and solvent oil. At this time, concentration = 31.466 ^{e-0.072 ratio} (R² = 0.9663). Chlorophyll can act as an antioxidant and when the concentration of chlorophyll is at least 2.9 mg / 100 g, the desired antioxidant effect can be achieved.

Experimental Example 3

The nutritional composition and the mineral composition of the liquid fat composition prepared according to Example 1 are shown in Table 3 below.

TABLE 3

Nutritional and Mineral Compositions in the Liquid Fat Composition of Example 1

As can be seen in Table 3, the calorie content of the liquid fat composition according to Example 1 is 900 calories per 100 g, and the concentration and content of cholesterol and fiber are 1.00 mg or less and 1.00% or less per 100 g, respectively. The total carbohydrate content of the liquid fat composition according to Example 1 is 0.00% or less, total sugars, moisture and ash content is 0.10% or less, and protein content is 0.50% or less. The vitamin D content of the liquid fat composition according to Example 1 has a concentration of 0.10 μg (mcg) or less per 100 g, phosphorus content of 0.02 mg or less per 100 g, and calcium content of 0.44 mg per 100 g. Iron content of the liquid fat composition according to Example 1 is 0.17 mg per 100 g, it can be confirmed that the sodium content is 0.05 mg or less per 100 g.

So far it has been described with respect to a liquid fat composition comprising a polyunsaturated fatty acid derived from algae and a method for producing the same according to an embodiment of the present invention, but various implementations within the scope of the present invention It is obvious that modification is possible.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

In other words, the foregoing embodiments are to be understood in all respects as illustrative and not restrictive, the scope of the invention being indicated by the following claims rather than the detailed description, and the meaning and scope of the claims and All changes or modifications derived from the equivalent concept should be construed as being included in the scope of the present invention.

S100: heating solvent oil
S200: step of preparing the mixture
S300: step of heat treating the mixture
S400: obtaining a mixture

Claims (12)

(a) heating the polyunsaturated fatty acid containing solvent oil;
(b) mixing algae with the heated solvent oil to prepare a mixture;
(c) heat treating the mixture; And
(d) obtaining a liquid fat composition from the heat treated mixture;
Method for producing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae, characterized in that in the step (b) mixing the algae and the heated solvent oil in a 1: 3 to 5 weight ratio. The method of claim 1,
The polyunsaturated fatty acid-containing solvent oil,
A process for producing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae, which is prepared by compression or extraction. The method of claim 1,
In step (a),
Method for producing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae, characterized in that the polyunsaturated fatty acid-containing solvent oil is heated to 40 ~ 60 ℃. delete The method of claim 1,
Wherein said algae is a dried dry body. The method of claim 1,
In step (c),
The mixture is separated by stirring for 2 to 4 hours at 40 to 65 ℃, and then further stirred for 10 to 14 hours at 50 to 65 ℃ liquid fat composition comprising a polyunsaturated fatty acid derived from algae Manufacturing method. The method of claim 1,
In step (d),
Method for producing a liquid fat composition comprising a polyunsaturated fatty acid derived from algae, characterized in that centrifuged for 5 to 20 minutes at 2,500 ~ 3,500 rpm. Includes polyunsaturated fatty acids derived from one or more algae,
The polyunsaturated fatty acid derived from the algae is a polyunsaturated fatty acid-containing oil as a solvent,
Liquid fatty composition comprising a polyunsaturated fatty acid derived from algae, characterized in that extracted by mixing the algae and the polyunsaturated fatty acid-containing oil in a 1: 3 to 5 weight ratio. The method of claim 8,
A liquid fat composition comprising polyunsaturated fatty acids derived from algae, comprising 2.9 mg / 100 g to 29.8 mg / 100 g of chlorophyll. The method of claim 8,
The polyunsaturated fatty acid derived from the algae,
A liquid fat composition comprising a polyunsaturated fatty acid derived from algae, comprising at least one of the group consisting of palmitic acid, palmitoleic acid, oleic acid, linoleic acid, and linolenic acid. delete A food product comprising the liquid fat composition of any one of claims 8 to 10.

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