KR102040145B1 - Manufacturing method of eco-friendly snow removal agent composition containing porous structure from starfish - Google Patents

Abstract

Disclosed is a method for preparing an environmentally friendly snow removing composition comprising a starfish-derived porous structure, and more particularly, a starfish washing step for removing salts by washing the starfish, and the starfish from which salts are removed through the starfish washing step. The enzymatic digestion step of decomposing by reacting with an aqueous hydrolytic enzyme, a porous structure recovery step of recovering the porous structure separated from the starfish through the enzymatic digestion step, and chloride, melting performance diffusion agent in the porous structure recovered through the porous structure recovery step It consists of a chloride mixing step of mixing the corrosion inhibitor and the dehumidifying agent.
The snow removal composition prepared through the above process contains a porous structure derived from starfish that adversely affects the ecosystem and thus adsorbs chloride ions contained in the snow removal composition. It has less effect of contaminating the back.

Description

Manufacturing method of eco-friendly snow removing composition comprising starfish-derived porous structure {MANUFACTURING METHOD OF ECO-FRIENDLY SNOW REMOVAL AGENT COMPOSITION CONTAINING POROUS STRUCTURE FROM STARFISH}

Disclosed is a method for preparing an environmentally friendly snow removal composition comprising a starfish-derived porous structure, and more specifically, a porous structure derived from starfish, which adversely affects an ecosystem, contains an adsorbed chloride ion contained in the snow removal composition. Therefore, the present invention relates to a method for preparing an environmentally-friendly snow removal composition comprising a starfish-derived porous structure with less side effects such as corrosion of roads, facilities, and vehicles, or contamination of soil and rivers.

Calcium chloride, which is sprayed to remove snow on roads or roads in winter, is a chemical composed of one calcium ion and two chloride ions. It is solid at room temperature, soluble in water, and white. Calcium chloride not only dissolves well in water at low temperatures but also absorbs moisture contained in air, and thus is used to remove moisture in a closed space or moisture contained in pure gas.

In addition, calcium chloride should be used as limited as necessary when there is a lack of labor required for snow removal or it is not easy to remove snow due to physical conditions on the road, but in reality, more than necessary amount is used due to the urgency of work. This increase in the use of calcium chloride causes corrosion of roads, automobiles, and steel structures, salting the soil, causing death of roadside trees, and penetrating into rivers to contaminate water quality.

In order to solve the above problems, efforts have been made to develop an environment-friendly snow removing agent that can replace a snow removing agent containing calcium chloride as a main component, and in Korea Patent No. 10-1176574, metal corrosion resistance is low and environmentally friendly. Phosphorus solid snow removal agent is disclosed, which is 46 to 56 parts by weight of sodium chloride, 15 to 25 parts by weight of calcium chloride, 4 to 6 parts by weight of sodium phosphate, 6 to 10 parts by weight of urea, and sodium acetate, based on 100 parts by weight of the total. It contains 5-7 weight part, calcium acetate 4-6 weight part, and potassium acetate 4-6 weight part.

In addition, Korean Patent No. 10-1405138 discloses an environmentally friendly solid snow removing agent formed of granules having a low metal corrosiveness and a certain size, which is 40.5 to 56% by weight of calcium chloride, 36 to 51% by weight of sodium chloride, sodium citrate It comprises 3.1 to 7.5% by weight, dibasic calcium phosphate 0.1 to 0.9% by weight, sodium acetate 0.2-2.5% by weight and urea 0.2-2.0% by weight, consisting of granules of 2-5mm in diameter.

However, since the snow removal agents disclosed in the above-listed patents still contain a large amount of calcium chloride, there is a problem that can not fundamentally solve the problems caused when using the snow removal in excess.

On the other hand, starfish inhabiting the offshore seas are marine wastes with a budget of 400 to 500 million won per year, and have high reproduction power and regeneration capacity, while adversely affecting the marine life ecosystem, thus reducing the yield of farms. In other words, research is being made on how to use them as another resource because they are only a headache for fishermen. These starfish are currently dried and sprinkled on farmland to be used in part to increase the harvest or to manufacture fertilizers of calcium carbonate, and have recently been used as additives for cosmetics.

The disclosed contents contain porous structures derived from starfish that adversely affect the ecosystem to adsorb chloride ions contained in the snow removal composition, so that the starfish-derived porous has less side effects that contaminate corrosion or rivers in roads, facilities, and vehicles. It is to provide a method for producing an environment-friendly snow removal composition comprising a structure.

As an example, the present disclosure provides a starfish washing step of washing starfish to remove salts, and an enzymatic digestion step of decomposing the salted starfish by reacting with an aqueous solution of protease through the starfish washing step. Comprising a porous structure recovery step of recovering the porous structure separated from the starfish through the decomposition step and a chloride mixing step of mixing chloride, melting performance diffusion agent, corrosion inhibitor and dehumidifying agent to the porous structure recovered through the porous structure recovery step. It describes a method for producing an environmentally friendly snow removal composition comprising a starfish-derived porous structure characterized in.

Preferably, the enzymatic digestion step may be performed by reacting 300 to 500 parts by weight of a proteolytic enzyme solution at a temperature of 40 to 50 ° C. for 24 to 72 hours to 100 parts by weight of starfish from which salts are removed through the starfish washing step. .

More preferably, the aqueous protease solution may be made of a mass concentration of 0.00005 to 0.00015%.

More preferably, the protease may consist of pepsin.

Even more preferably, the chloride mixing step is 0.1 to 40% by weight of the porous structure, 47 to 98.4% by weight chloride, 0.5 to 5% by weight of the melting performance diffusion agent, 0.5 to 5% by weight corrosion inhibitor and 0.5 to 3% by weight dehumidifier It can be made by mixing.

Even more preferably, the chloride may consist of one or more selected from the group consisting of calcium chloride, sodium chloride and magnesium chloride.

Even more preferably, the porous structure may be made of calcium carbonate.

As described above, the method for preparing an environment-friendly snow removal composition comprising a starfish-derived porous structure contains a porous structure derived from starfish that adversely affects the ecosystem, thereby adsorbing chloride ions contained in the snow removal composition. An excellent effect of providing a snow removal composition having less side effects such as corrosion of vehicles or contaminating soil and rivers, and the like.

1 is a flow chart illustrating a method for manufacturing an environmentally friendly snow removal composition comprising a starfish-derived porous structure according to one embodiment disclosed.
Figure 2 is a flow chart illustrating a method for manufacturing an environmentally friendly snow removal composition comprising a starfish-derived porous structure according to another embodiment disclosed.

In the following, preferred embodiments of the present invention and the physical properties of each component will be described in detail, which is intended to explain in detail enough to be able to easily carry out the invention by one of ordinary skill in the art, This does not mean that the technical spirit and scope of the present invention is limited.

The method for preparing an environmentally-friendly snow removal composition comprising the disclosed starfish-derived porous structure is a starfish washing step (S101) to remove salts by washing the starfish, and the starfish from which salts are removed through the starfish washing step (S101) is an aqueous solution of proteolytic enzyme. Decomposed by the reaction with the enzyme decomposition step (S103), the porous structure recovery step (S105) and the porous structure recovery step (S105) recovered to recover the porous structure separated from the starfish through the enzyme decomposition step (S103) It consists of a chloride mixing step (S107) of mixing the chloride, melting performance diffusion agent, corrosion inhibitor and dehumidifying agent to the porous structure.

The starfish washing step (S101) is a step of removing the salt by washing the starfish, and washing the bunga with purified water to remove the salt remaining in the starfish, if the salt remaining in the starfish salinity in the porous structure extracted from the starfish The adsorption capacity of chloride ions in the snow removal agent of the porous sphere may be reduced by being adsorbed.

The enzymatic digestion step (S103) is a step of decomposing the starfish from which the salt is removed through the starfish washing step (S101) with a proteolytic enzyme solution to decompose the salt, and removing the salt from the starfish washing step (S101). It is made by reacting 300 to 500 parts by weight aqueous solution of protease at 24 to 72 hours at a temperature of 40 to 50 ℃, more specifically 100 parts by weight of starfish and a solution of protease 300 in a reactor equipped with a stirring device To 500 parts by weight is added, and the reaction is carried out for 24 to 72 hours while stirring at a rate of 50 to 100rpm while the temperature of the reactor is raised to a temperature of 40 to 50 ℃.

If the content of the protease solution is less than 300 parts by weight, the separation of the porous structure contained in the starfish does not proceed properly, and if the content of the protease solution exceeds 500 parts by weight, the separation effect of the porous structure is greatly improved. Without increasing the manufacturing cost.

At this time, the aqueous protease solution is made of a mass concentration of 0.00005 to 0.00015%, it is preferable to use pepsin (pepsin) as a protease.

The porous structure recovery step (S105) is a step of recovering the porous structure separated from the starfish through the enzymatic digestion step (S103), and through the enzymatic digestion step (S103), a large light yellow calcium carbonate extracted by the starfish The porous structure has a high specific gravity and precipitates, and a low specific gravity enzymatic starfish mass floats to the top of the reactor.

The starfish is a organism composed of protein and calcium carbonate. The porous structure recovered through the above process is composed of calcium carbonate and shows the form of a three-dimensional porous structure, which physically adsorbs the clusters of water molecules through the three-dimensional porous structure. And chemical adsorption due to electrical attraction inside the structure, thereby adsorbing chloride ions contained in the snow removing agent.

At this time, the reaction liquid in the reactor after the removal of the starfish lump rising to the top of the reactor can be used in the process of enzymatic decomposition of the starfish

The chloride mixing step (S107) is a step of mixing chloride, melting performance diffusion agent, corrosion inhibitor and dehumidifying agent to the porous structure recovered through the porous structure recovery step (S105), the chloride 47 to 0.1 to 40% by weight of the porous structure To 98.4% by weight, 0.5 to 5% by weight of the melting performance diffusion agent, 0.5 to 5% by weight of the corrosion inhibitor and 0.5 to 3% by weight of the dehumidifying agent is preferable.

When the content of the porous structure is less than 0.1% by weight, it is difficult to show the effect of preventing the corrosion of the chloride ion contained in the snow removing agent is too low, when the content of the porous structure exceeds 40% by weight The content of chloride ions contained is too low to lower the melting performance of the snow removing agent.

At this time, the chloride is contained 47 to 96.9% by weight, consisting of one or more selected from the group consisting of calcium chloride, sodium chloride and magnesium chloride, acts as a melting agent to lower the freezing point of water and release heat while reacting with water to remove snow The freezing point of the agent composition is lowered. This chloride is an excellent action as Snow removal but chloride ion (Cl ^-) upon contact with water to be generated, In addition, water is also hydrogen (H ⁺⁾ and hydroxyl groups (OH ^-) is separated by a so corrosion of the metal proceeds do.

Starfish is a creature that can be secured in large quantities without any cost because of its high propagation power and regeneration ability, and a snow removing agent including a porous structure obtained from starfish as an active ingredient can be mass-produced at low cost.

The melting performance diffusion agent is preferably 0.5 to 5% by weight, the corrosion inhibitor is 0.5 to 5% by weight and desiccant 0.5 to 3% by weight, the melting performance diffusion agent to increase the penetration rate of the snow removing agent and the penetration depth and It serves to increase the diffusivity, it is possible to use a viscous material such as glycerin, propylene glycol and sorbitol, it is preferable to use glycerin.

When the content of the melting performance diffusion agent is less than 0.5% by weight, the effect of improving the penetration and diffusion performance of the snow removing agent is insignificant, and when the content of the melting performance diffusion agent exceeds 5% by weight, the surface of the road remains in the melt during snow removal. May cause slippery.

The corrosion inhibitor is coated on a metal and reacts with the chloride ions to prevent corrosion of the metal, at least one selected from the group consisting of sodium hexametaphosphate, sodium diphosphate, calcium oxalate, sodium citrate and sodium gluconate It is preferable to consist of it, and it is more preferable to consist of sodium hexametaphosphate.

When the amount of the corrosion inhibitor is less than 0.5% by weight, the effect of corrosion is prevented. When the content of the corrosion inhibitor exceeds 5% by weight, the performance of corrosion protection is improved, but the snow removal performance of the snow removal agent by excessive addition of the corrosion inhibitor, etc. This can be degraded.

The dehumidifying agent serves to absorb moisture in the air, preferably made of diatomaceous earth. Diatomaceous earth is a kind of sedimentary rock formed by sedimentation of the Dead Sea of diatom, seaweed, and it is eco-friendly enough to be used in foods such as sugar, soy sauce, etc., and has high porosity to absorb moisture in the air when humidity is high.

In addition, in addition to the melting performance diffusion agent, corrosion inhibitor and dehumidifying agent listed above, the disclosed snow removing composition may further include an additive injection step (S109) of mixing a known additive as necessary. For example, the organic acid salt may be further contained, and when the organic acid salt is further contained, 0.5 to 5% by weight based on 100 parts by weight of the snow removing agent is preferably contained.

The organic acid salt is preferably salts such as ascorbic acid, citric acid, acetic acid, propionic acid, gluconic acid, formic acid, and most preferably citrate. As citrate, sodium citrate or potassium citrate can be used. Citric acid is a weak acid and weak enough to be used as a food additive, and has a weak viscosity by reacting with water. When citric acid is mixed with dibasic sodium phosphate, it may have a greater effect than that of citric acid itself. .

Hereinafter, the physical properties of the snow-removing snow removal composition comprising the disclosed starfish-derived porous structure and the manufacturing method of the snow removal composition prepared by the method will be described.

Preparation Example 1 Preparation of Starfish-derived Porous Structure

Wash 100g of starfish and remove salt on the surface. Add 1L of distilled water to the reactor equipped with stirring device and heating device, add 0.1g of pepsin with proteolytic enzyme and set the temperature of water tank at 45 ℃. After stirring for 72 hours while stirring at a rate, the porous support precipitated in the reactor was separated and washed with distilled water and then put into a dryer and dried at a temperature of 50 ℃ to prepare a porous structure in the form of light yellow powder.

The porous structure prepared through Preparation Example 1 was photographed with a scanning electron microscope, and is shown in FIG. 3 below. As shown in FIG. 3, it can be seen that the starfish-derived porous structure has porosity in all directions.

<Example 1>

91.9% by weight of chloride (calcium chloride) 0.1% by weight of the porous structure (calcium carbonate) prepared in Preparation Example 1, 3% by weight of the melting performance diffusion agent (glycerin), 3% by weight of corrosion inhibitor (sodium diphosphate) and dehumidifying agent 2 wt% (diatomaceous earth) was mixed to prepare an eco-friendly snow removing composition comprising a starfish-derived porous structure.

<Example 2>

Proceed in the same manner as in Example 1, by mixing 91.8% by weight of chloride and 0.2% by weight of the porous structure to prepare an eco-friendly snow removal composition comprising a starfish-derived porous structure.

<Example 3>

Proceed in the same manner as in Example 1, 91.5% by weight of chloride and 0.5 weight 5 of the porous structure was mixed to prepare an environmentally-friendly snow removing composition comprising a starfish-derived porous structure.

<Example 4>

Proceed in the same manner as in Example 1, by mixing 92% by weight of chloride and 1% by weight of the porous structure to prepare an eco-friendly snow removal composition comprising a starfish-derived porous structure.

Example 5

Proceed in the same manner as in Example 1, by mixing 90% by weight of chloride and 2% by weight of the porous structure to prepare an eco-friendly snow removal composition comprising a starfish-derived porous structure.

<Example 6>

Proceed in the same manner as in Example 1, by mixing 87% by weight of chloride and 5% by weight of the porous structure to prepare an eco-friendly snow removal composition comprising a starfish-derived porous structure.

<Example 7>

Proceed in the same manner as in Example 1, by mixing 82% by weight of chloride and 10% by weight of the porous structure to prepare an environmentally-friendly snow removing composition comprising a starfish-derived porous structure.

<Example 8>

Proceed in the same manner as in Example 1, 72 wt% chloride and 20 wt% of the porous structure were mixed to prepare an eco-friendly snow removing composition comprising a starfish-derived porous structure.

Example 9

Proceed in the same manner as in Example 1, by mixing 62% by weight of chloride and 30% by weight of the porous structure to prepare an eco-friendly snow removal composition comprising a starfish-derived porous structure.

<Example 10>

Proceed in the same manner as in Example 1, by mixing 52% by weight of chloride and 40% by weight of the porous structure to prepare an eco-friendly snow removal composition comprising a starfish-derived porous structure.

Comparative Example 1

Proceed in the same manner as in Example 1, to prepare a snow removing composition without mixing the porous structure.

Comparative Example 2

Sodium chloride.

Comparative Example 3

HCSM-100.

Melting performance of the snow removal composition prepared in Examples 4 to 10 and Comparative Examples 1 to 3 was measured and shown in Table 1 below.

(However, the melting performance was fixed to the funnel in a thermostat of -3 ℃ and -7 ℃, respectively, and placed on the zero balance balance with the triangular flask raised on the bottom of the fixed funnel.

After 3cm × 3cm × 3cm thick ice on the funnel, 1g each of the snow removing agent prepared in Examples 1 to 10 and Comparative Examples 1 to 3 uniformly sprayed on the ice, 15 minutes, 30 minutes and 60 Every minute the ice melted, the mass of the water which flowed through the funnel was measured, and the method of showing the mass of the measured water as a percentage (%) based on the snow removal agent of the comparative example 2 was used. )

TABLE 1

As shown in Table 1 above, the snow removal composition prepared through Examples 4 to 10 disclosed above was superior to the NaCl snow removal agent of Comparative Example 2 and the HSCM-100 snow removal agent of Comparative Example 3, regardless of the content of the starfish-derived porous support. The melting performance was shown, and it can be seen that the melting performance was equivalent to that of the snow removing agent of Comparative Example 1 using calcium chloride.

In addition, the metal corrosion of the snow removal composition prepared through Examples 1 to 8 and Comparative Examples 1 to 3 was measured and shown in Table 2 below.

(However, the metal corrosion degree is iron in which about 30 g of the corrosion protection film was removed from the Erlenmeyer flask after dissolving the snow removal composition prepared in Examples 1 to 8 and Comparative Examples 1 to 3 in the form of an aqueous solution having a mass concentration of 20%. After the nails were exposed to air and the aqueous solution at the same time at a temperature of 25 ° C. and a relative humidity of 70% for daily corrosion, the corroded iron nails were soaked in a 5% acetic acid solution for 5 minutes and washed to remove rust. The method used to calculate the mass loss ratio to the mass before corrosion by measuring the mass of iron nails with rust removed.

TABLE 2

As shown in Table 2 above, it can be seen that Examples 1 to 3 in which the starfish-derived porous structures contained a trace amount also exhibited superior corrosion inhibitory effects as compared to Comparative Examples 1 and 2, and in particular, Examples 7 to 8. It can be seen that exhibits an excellent corrosion inhibitory power than the environmentally friendly snow removing agent of Comparative Example 3.

Accordingly, the method for preparing an environmentally friendly snow removal composition comprising the disclosed starfish-derived porous structure contains a porous structure derived from starfish that adversely affects the ecosystem to adsorb chloride ions contained in the snow removal composition. Provided is a snow removing composition having less side effects such as corrosion of the back and contaminate soil and rivers.

S101; Starfish washing step
S103; Enzymatic digestion step
S105; Porous Structure Recovery Step
S107; Chloride Mixing Step
S109; Additive input step

Claims (7)

Starfish washing step to remove the salt by washing the starfish;
The number of proteolytic enzymes from which the salt is removed through the starfish washing step
An enzymatic digestion step of reacting with the solution to decompose;
A porous structure recovery step of recovering the porous structure separated from the starfish through the enzymatic decomposition step; And
To prepare a composition comprising 0.1 to 40% by weight of the porous structure recovered through the porous structure recovery step, 47 to 98.4% by weight chloride, 0.5 to 5% by weight glycerin and 0.5 to 5% by weight sodium hexametaphosphate by mixing Chloride mixing step; Method for producing an eco-friendly snow removal composition comprising a starfish-derived porous structure, characterized in that consisting of.
The method according to claim 1,
The enzyme decomposition step is a starfish-derived, characterized in that made by reacting 300 to 500 parts by weight aqueous solution of the protease enzyme at a temperature of 40 to 50 ℃ to 100 parts by weight of the starfish salt is removed through the starfish washing step Method for producing an environment-friendly snow removal composition comprising a porous structure.
The method according to claim 1 or 2,
The aqueous protease solution is a method for producing an environmentally-friendly snow removal composition comprising a starfish-derived porous structure, characterized in that the mass concentration is 0.00005 to 0.00015%.
The method according to claim 1 or 2,
The protease is a starfish-derived porous structure comprising a starfish-derived porous structure, characterized in that consisting of pepsin.
delete The method according to claim 1,
The chloride is a method of producing an environmentally friendly snow removal composition comprising a starfish-derived porous structure, characterized in that consisting of at least one selected from the group consisting of calcium chloride, sodium chloride and magnesium chloride.
The method according to claim 1,
The porous structure is a method for producing an environment-friendly snow removal composition comprising a starfish-derived porous structure, characterized in that consisting of calcium carbonate.

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