KR20140125563A - Method For Producing Crab Powder Using Mechano-Chemistry Milling - Google Patents

Abstract

The present invention relates to a method for producing crab powder. The method comprises: a washing step of washing caught crabs; a cutting step of cutting the washed crabs into 1-10 mm in size; a mechanochemical milling step of mechanochemical milling the cut pieces of the crabs under a vibration environment to gain activated crab powder of 5-20 μm size; and a drying step of drying the crab powder. According to the present invention, the method can provide crab powder with an excellent texture and with an excellent nutrition with low costs, thereby improving public food life and contributing to health promotion.

Description

Technical Field [0001] The present invention relates to a method for producing a crab powder using mechanochemical pulverization,

TECHNICAL FIELD The present invention relates to a method for preparing a crab powder by mechanochemical grinding, and more particularly, to a method for producing a finely pulverized and activated crab powder so that the chitosan ingredient can be easily eluted at the time of ingestion.

Chitin is a natural polymeric substance present in the cell walls of higher plants such as crabs, lobsters, and shrimps, as well as fungi and algae, and is the next richest source of cellulose. Chitosan is a substance prepared by deacetylation of chitin, which is not well soluble in water depending on the degree of deacetylation but is known to be soluble in a low acidic solution. Since chitin and chitosan are non-toxic, environmentally friendly and biocompatible, they are widely used in various medical fields. In recent years, they are environmentally friendly substances for agricultural production. They are used not only as insect pests and antibiotics but also for agricultural growth Has emerged as a new gun. Thanks to this, the utilization of food and medicine has been greatly expanded. In addition, it is widely used in various fields such as eco-friendly film, new industrial products, and polymer contamination by binding and precipitating with polymer proteins or heavy metals. It is considered to be a new material that has an explosive increase in demand in the future.

It is known that chitosan is abundant in fresh water crabs, seaweed crabs, gill crabs, etc. In general crab related products, liquid crab related products processed by grinding with general grinder are the mainstream, It is absent.

On the other hand, most of the chitosan is formed by dissolving calcium carbonate from the shell of aquatic crustacean to obtain free chitin and then forming it by diacetylation, and the chitosan is recovered and dried. The problem in recovering chitosan from crustaceans is that it is very difficult to obtain uniform and high quality chitosan. In addition, conventional techniques for extracting chitosan have a disadvantage in that the process is complicated because the processes include three or more steps.

For example, domestic patent No. 1206855 discloses a process for crushing crustacean shells, a decolorizing process for extracting astaxanthin contained in crushed crustacean shells with alcohol, a decolorizing crustacean crust for decolorizing process in an extraction tank containing lactic acid (K ₂ CO ₃ ) into a extraction tank containing potassium carbonate (K ₂ CO ₃ ), and extracting and separating proteins to obtain chitin. Which is obtained by neutralizing chitin obtained by washing the obtained chitin with distilled water and then introducing the chitin into a fermentation tank and inoculating the microorganism in the fermentation tank to obtain chitosan by deacetylation.

However, most of the conventional techniques for extracting chitosan from such crustaceans are chemical extraction methods using a solvent, resulting in a low production efficiency and a poor texture of the extract.

Korea Patent No. 1206855

Disclosure of the Invention The present invention has been proposed in order to solve the above-mentioned problems, and it is an object of the present invention to provide a crab powder which is excellent in texture with only a pulverization process and is activated so that chitosan component can be easily eluted at the time of ingestion.

According to an aspect of the present invention, there is provided a method for cleaning a crab, comprising: washing a crab collected; cutting the crab to a size of 1 to 10 mm; A mechanochemical grinding step of chemically grinding to obtain an activated crab powder having a size of 5 to 20 mu m and a drying step of drying the crab powder.

Preferably, the mechanochemical grinding step includes a grinding step of pulverizing the crab piece through a ball mill under a vibrating environment, and a primary activating step of increasing the specific surface area of the ground crab powder to activate the crab piece.

The primary activation step includes a rod milling step of performing the rod milling of the pulverized crab powder under a vibrational environment and a step of rotating the rod-milled crab powder between two tubes rotating under a vibrating environment, And a tube processing step for increasing the surface area.

Further, it is more preferable that the dried crab powder further includes a secondary activation step of activating the dried crab powder by mechanochemical processing.

The vibration environment may be provided by a combination of a vibration using a centrifugal force by rotation and a vibration by a vibration ultrasonic wave.

Further, it is more preferable that the mechanical chemical grinding step is continuously performed in one milling apparatus.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a powdery meal which is excellent in texture and nutrition at low cost, thereby contributing to the improvement of the diet and health of the people.

1 is a process diagram for explaining a method for producing a crab powder according to the present invention.
2 shows a structure of a milling apparatus for producing a crab powder according to a first embodiment of the present invention.
3 shows a structure of a milling apparatus for producing crab powder according to a second embodiment of the present invention.

Hereinafter, the method for producing the crab powder of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the collected crabs are washed to remove foreign matter on the crab surface (S10), and the crab is cut into a size of 1 to 10 mm (preferably 5 mm) (S20). When the crab is cut to a size of 10 mm or more, there is a problem that the grinding process time is delayed and the grinding efficiency is lowered, and when the crab is cut to 1 mm or less, the time required for the cutting process becomes long.

Then, the cut crab piece is put into the milling apparatus 1 and mechanically pulverized (S30). The mechanochemical pulverization is carried out in detail by a pulverizing step (S31) for obtaining pulverized material having a size of 5 to 20 mu m through ball milling, a primary activation step (S32) for activating the pulverized material by increasing the specific surface area of the pulverized material, ).

The mechanochemical grinding process according to the present invention will be described in detail through the milling apparatus 1 of Fig.

Fig. 2 is a milling apparatus 1 according to a first embodiment of the present invention, in which three grinding steps can be carried out continuously in one apparatus. A milling apparatus 1 according to the present invention includes a main body 2 having a raw material input portion 3 and a pulverized water discharge portion 4, a ball milling unit 10, a rod milling unit 20, A tube processing unit 30, and centrifugal vacuum providing means 40, 50 for applying vibration to the milling apparatus 1, and the configuration for rotating the main body is omitted in the figure.

The inside of the main body 2 is divided into three units of a ball milling unit 10, a rod milling unit 20 and a tube processing unit 30. A partition 5 is provided between each unit, A plurality of openings 6 are formed so that the introduced raw material can be introduced into the next unit after processing in the current unit.

In the ball milling unit 10, a plurality of beads are accommodated therein, and the beads are freely dropped during rotation of the main body 2, and pulverized by pulsation of the impact or rotation of the beads.

The rod milling unit 20 is provided with a steel rod so that the crushed material is crushed while being frictioned with the rod in the body, and at the same time, the specific surface area is increased to provide energy activation.

The tube processing unit 30 rubs the outer circumferential surface of the inner tube and the inner circumferential surface of the outer tube by centrifugal force so that the specific surface area of the pulverized water particles is increased.

In the ball milling unit 10, mainly, a grinding process for grinding a crab piece having a size of 5 mm into particles having a size of 5 to 20 mu m is mainly performed. In the rod milling unit 20 and the tube processing unit 30, However, it mainly provides the function of activating the energy by expanding the specific surface area of the crazing by the friction between the crazing mill and the rod, the inside of the tube and the outer circumference. If the specific surface area of the powder is widened, the probability of chemical reaction becomes high. Since the chitosan is a kind of polymer compound, when the crab powder is ingested, the chitosan chain can be easily broken due to the chemical reaction with the digestive juice. So that the chitosan component can be easily eluted from the body.

The centrifugal vacuum providing means 40 and 50 are for vibrating the main body 2 to cause fine collision between the beads or the particles of the pulverized material and the rod and the tube to increase the grinding efficiency and the specific surface increasing efficiency, And a vibrating force applying means 50 for applying a vibrating force to the main body 2. Here, the vibration power applying means 50 may be a vibration motor or an eccentric vibration device.

When the mechanochemical pulverization is completed, the pulverized material obtained is vacuum-dried at a low temperature (S40). The low-temperature vacuum drying method is a method of drying the sealed drying chamber at a relatively low temperature by promoting evaporation of water from the raw material by decompressing the raw material. Generally, the degree of reduced pressure is about 30 to 100 Torr to lower the water vapor pressure of the drying room air. Since the temperature of the drying chamber is usually 50 DEG C or lower, there is an advantage that heat denaturation of proteins in the raw materials and oxidation of lipids can be suppressed.

When a solid crab powder is obtained by vacuum drying, the mechanochemical pulverization process is performed once again, and the crab powder is secondarily activated to maximize the amount of chitosan eluate when the crab powder is ingested (S50).

Fig. 3 shows a milling apparatus 1 according to a second embodiment of the present invention. Fig. 3 differs from the first embodiment in that an ultrasonic vibrator 60 is provided on one side of the main body.

In this embodiment, ultrasonic waves are applied to the inside of the main body 2 through the ultrasonic vibrator 60 to cause minute cavities in the liquid raw material (mixture of the grinding water and the water) in the main body, thereby increasing the grinding efficiency, So that the activation energy can be further improved.

When the ultrasonic wave is applied to the liquid raw material, the pulverization efficiency is enhanced by the shock wave caused by the bubble explosion through the three-step cavitation process such as nucleation in the liquid raw material, growth of bubble, explosive rupture of the grown bubble, The activation energy is improved by the energy generated by the activation energy.

Experimental Example

The crab pieces cut into a size of 5 mm were pulverized to a size of 10 mu m using a CS650 / 1000IIIA model, which is a cutting mill manufactured by NETZSKI CORPORATION, The results of measurement of the surface area of crab powder of the same size obtained by the second embodiment by the Blaine method are shown in Table 1 below.

In this experiment, the milling apparatuses used in the comparative example and the first and second embodiments were tested under the conditions of using a 5KW motor and having a productivity of 30Kg per hour in continuous mode.

As can be seen from the following Table 1, it was found that the surface area of Example 1 was 2.27 times larger than that of Comparative Example, and 2.7 times larger than that of Example 2, which means that the powder obtained by the present invention The amount of chitosan elution was remarkably higher than that of the powder of Comparative Example.

In addition, 50 g of the crab powder obtained in the Comparative Example and the first and second Examples was put into 1 liter of water at 25 ° C, and after thoroughly stirring for 5 minutes, the solubility of calcium was examined. As a result, It was found that the calcium solubility was increased by about 90% as compared with the comparative example and that the calcium solubility of the second example was increased by 100%.

1: Milling device 2: Body
3: raw material input part 4: crushed water discharge part
5: partition wall 6: open
10: ball milling unit 11: bead
20: rod milling unit 21: rod
30: tube processing unit 31: tube
40: spring 50: centrifugal force providing means
60: ultrasonic vibrator

Claims (6)

A washing step of washing the collected crabs;
A cutting step of cutting the washed crabs into a size of 1 to 10 mm;
Mechanochemically pulverizing the cut crab piece under a vibrating environment to obtain an activated crab powder having a size of 5 to 20 mu m; And
And a drying step of drying the crab powder. ≪ RTI ID = 0.0 > 8. < / RTI >
The method according to claim 1,
The mechanochemical grinding step
A crushing step of crushing crab pieces through ball milling under a vibrating environment;
And a primary activation step of increasing the specific surface area of the pulverized crab powder to activate the pulverized crab powder.
3. The method of claim 2,
The primary activation step
A rod milling step of subjecting the ground crab powder to load milling in a vibrating environment and a tube processing step of increasing the specific surface area of the crab powder while passing the rod milled crab powder through two tubes rotating under a vibrating environment The method for producing crab powder by mechanochemical pulverization according to claim 1,
The method according to claim 1,
Further comprising a second activation step of activating the dried crab powder by mechanochemical processing. ≪ RTI ID = 0.0 > 8. < / RTI >
The method according to claim 1,
Wherein the vibration environment is a vibration using a centrifugal force and a vibration caused by an ultrasonic vibrator.
The method according to claim 1,
Wherein the mechanochemical grinding step is continuously performed in one milling apparatus.

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