JP2017026180A - Process of manufacture of sherbet ice - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a process of manufacture of high concentration salt content sea water as well as sherbet ice from sea water, sherbet ice that is modified into one having superior reservation and use by further processing the former sherbet ice and a process of manufacture of salt under application of high concentration salt content sea water.SOLUTION: This invention comprises the steps for storing collected sea water in a storing tank; sterilizing the stored sea water and cooling it; producing the sherbet ice by transferring the sea water sterilized and cooled to a sherbet ice producing device; and separating the stored sea water into sherbet ice and residual sea water at a stage in which 70% or more of the stored sea water is changed into the sherbet ice.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a method for producing sherbet ice and concentrated salt seawater from seawater, and another invention relates to a method for producing sherbet ice in which the sherbet ice is further processed to improve storage and use. The present invention relates to a method for producing a salt using the concentrated salt water.

It is known to produce sherbet ice using seawater.
For example, in Japanese Patent No. 4124632, seawater supplied to a tank is cooled while being circulated, a part of the seawater is frozen to produce seawater ice, and then the cooled seawater in the tank is drained and drained. It is disclosed that seawater ice is produced while maintaining the salinity of the seawater by pumping and cooling the seawater in response to the seawater being produced, and maintaining the salinity of the seawater. Has been.

  Japanese Patent Laid-Open No. 2007-278667 contains oxygen bubbles in an amount corresponding to the respiration rate of live fish to be transported during hibernation, and after being made into a sherbet, it is stirred and mixed with seawater to form a slurry. Seawater ice characterized by this is disclosed.

  Furthermore, in Japanese Patent Laid-Open No. 2013-76553, in view of the conditions of the salinity concentration range and temperature range of raw water, the raw water elements such as the salinity concentration and temperature of the raw water are controlled and controlled for a short time. A method for obtaining good sherbet ice is disclosed.

  On the other hand, producing salt from seawater has been known for a long time and technical progress has been made, but the basic principle has not changed, and salt production has been carried out to date.

Japanese Patent No. 4124632 JP 2007-278667 A JP 2013-76553 A

As mentioned above, seawater ice is produced by freezing a part of seawater, and this seawater ice can cool to the hibernating state without damaging the surface of the live fish. There is known a method for efficiently transporting a large amount of live fish without damaging the fish.
JP-A-2007-278667 contains oxygen bubbles in an amount corresponding to the respiration rate of live fish to be transported during hibernation, and after being made into a sherbet, it is stirred and mixed with seawater to form a slurry. Is.

In addition, this method uses seawater as ice, so the salt concentration of seawater gradually increases as ice making progresses, and this concentration is only equal to the concentration of seawater even if the ice melts. However, there is a problem that the salt concentration becomes inappropriate for maintaining the quality of seafood with the generation of ice.
In Japanese Patent No. 4124632, seawater ice can be produced while maintaining the salinity concentration of seawater.

Thus, conventionally, the purpose is to produce seawater ice from seawater and to use it in a state suspended in seawater to contribute to the preservation and transportation of live fish.
Therefore, the present invention aims to process seawater ice so that it can be maintained and stored so that it can be used in various ways, such as cooling the fish as ice. It is intended for effective use.

  The invention of claim 1 according to the present invention is a method for producing sherbet ice and concentrated salt seawater from seawater, the step of storing the taken seawater in a storage tank, the step of sterilizing and cooling the stored seawater, The step of transferring sterilized and cooled seawater to a sherbet ice generator to generate sherbet ice and the step of separating the sherbet ice and the remaining seawater when sherbet ice of 70% or more of the stored seawater is generated It is characterized by having.

  The invention of claim 2 is a method for producing sherbet ice, the step of fixing the sherbet ice generated and separated in the invention of claim 1 in a three-dimensional shape, and the step of depositing fresh water on the peripheral surface of the fixedly formed sherbet ice block, And the step of freezing the deposited fresh water to stably maintain the sherbet ice block.

  The invention of claim 3 is a method for producing a salt, and the seawater separated in the invention of claim 1 has a salinity concentration exceeding 10%, and is subjected to a boiling process and a dehydration process using this concentrated salty seawater It is a feature.

  According to the method for producing sherbet ice and concentrated salt seawater from seawater according to claim 1, a predetermined amount of seawater is obtained by storing the taken seawater in a storage tank, and sterilizing and cooling the stored seawater. It has the effect of sterilizing efficiently and increasing the production efficiency of sherbet ice in the next process.

Since seawater is sterilized, the sherbet ice produced can be used for a variety of hygienic purposes.
Since sherbet ice is separated when 70% or more of sherbet ice in the stored seawater is produced, the remaining seawater has a salinity concentration that is more than three times the original, and the effect of obtaining seawater effective for salt production Also have.

  According to the invention of the method for producing the sherbet ice of claim 2, the sherbet ice is fixed in a three-dimensional shape, and the fresh water deposited on the peripheral surface of the fixedly formed sherbet ice block is frozen to form the sherbet ice block. Compared to the unstable sherbet ice block, it has the effect of solidifying the surrounding area with fresh water ice and maintaining the molding form stably. The effect which consists of.

  According to the invention of the method for producing a salt of claim 3, the seawater separated in the invention of claim 1 has a salinity concentration exceeding 10%. It has the effect of easily producing a salt using seawater.

It is a block diagram which shows the process of storing and disinfecting seawater. It is a block diagram which shows the process of producing | generating seawater into sherbet ice, and the process of isolate | separating into sherbet ice and the residual seawater. It is process drawing which shape | molds sherbet ice. It is process drawing which utilized the concentrated seawater for salt manufacture.

The drawings show an embodiment of the present invention, and FIG. 1 is a configuration diagram showing a step of storing the taken seawater in a storage tank and a step of sterilizing and cooling the stored seawater.
In FIG. 1, a circulation path from the storage tank 1 through the sterilization chamber 2 to the chiller 3 and back to the storage tank 1 is formed with a water supply pipe and a circulation pump 4B interposed.

The storage tank 1 is provided with a water supply pump 4A. The storage tank 1 is provided with a stirring blade 11 for homogenizing the temperature, and the sterilization chamber 2 is provided with a sterilization lamp 21 which passes therethrough. Sterilizing the seawater
Therefore, a certain amount of taken seawater is stored in the storage tank 1, and the stored seawater is circulated and sterilized and cooled.
If the seawater is cooled to about 3 ° C., it will contribute to the production of sherbet ice in the next process, and further cooling will generate ice in the storage tank 1, which may cause trouble in the transport path.

  FIG. 2 shows a process of generating sorbet ice by transferring the sterilized and cooled seawater from the storage tank 1 to a sorbet ice generator by a transport pump 4C, and sorbet ice when 70% or more of sorbet ice is generated. It is a block diagram which shows the process isolate | separated into the remaining seawater.

The sherbet ice generator comprises a supercooling tank 5 and a sherbet ice storage tank 6, and a certain amount of transferred seawater is circulated by a circulation pump 4 </ b> D, and the sherbet ice generated in the supercooling tank 5 is stored in the sherbet ice storage tank 6. It is to be stored.
The supercooling tank 5 for generating the sherbet ice can be selected from known machines, and the rotating blade 61 for stirring is provided in the sherbet ice storage tank 6.

Seawater flows from the sherbet ice storage tank 6 through the water supply pipe into the water channel of the supercooling tank 5 by the circulation pump 4D and flows in the water channel, and -2. Cool to about 5 ° C.
As a result, the seawater becomes sherbet-like flowing ice, and is further ejected from the supercooling tank 5 through the ice feed pipe by the circulation pump 4D into the sherbet ice storage tank 6 by the ejection nozzle (not shown). It floats and is stored.

When sherbet ice of 70% or more of a certain amount of transferred seawater is produced, it is separated into sherbet ice and remaining seawater.
In FIG. 2, the upper and lower tanks 7A and 7B released from above are stacked and a filtering material 71 is disposed in the middle. The sherbet ice and the remaining seawater are introduced from above to put the sherbet ice in the upper tank 7A and the lower tank. The seawater remaining in the tank 7B is separated.

The salinity of seawater is approximately 3% by weight, and when 70% or more of sherbet ice is produced, the remaining seawater has a salinity of 10% by weight or more.
Therefore, it has reached the effective concentration standard (10 wt%) of salt water for boiling out salt crystals in salt production using seawater.
Moreover, as a limit which isolate | separates into sherbet ice and the remaining seawater, the stage (85% or less) before the trouble of rotation of the rotating blade 61 for stirring is considered.

The separated sherbet ice is taken out by the conveying screw 72 and molded and used as sterilized sanitary ice, while the concentrated seawater is used for salt production.
FIG. 3 is a process diagram for molding sherbet ice.

The sherbet ice S1 taken out by the conveying screw 72 is distributed to the molding container 8 and molded and fixed in a fixed three-dimensional shape by the crimping means 81.
Next, fresh water W1 is injected into the molding container 8 that accommodates the sherbet ice block S2 that is molded and fixed in a three-dimensional shape, and the fresh water W1 is attached to the peripheral surface of the sherbet ice block S2, and the molding container 8 is stored in the freezer 9 as it is. The fresh water W1 thus deposited is frozen and the fresh water ice W2 covers the sherbet ice block S2.

  Therefore, compared with the sherbet ice block S2 in which the maintenance of the molding form is unstable, the periphery can be solidified with fresh water ice W2 and the molding form can be stably maintained, and the sherbet ice block S2 is not collapsed during storage and transportation. In addition, if the surface fresh water ice W2 is melted during use, it can easily return to the sherbet ice block S2 and further to the sherbet ice S1.

FIG. 4 shows a process in which the seawater separated from the sherbet ice S1 and concentrated is used for salt production, and salt is obtained through a boiling process and a dehydration process.
As described above, if the salt concentration of the concentrated seawater is 3%, the remaining seawater becomes 10% by weight when 70% of the sherbet ice is produced. Further, when 85% sherbet ice is produced, the remaining seawater has a salinity concentration of 20% by weight, and any concentration is satisfied by the seawater concentration step in the conventional salt production method using seawater.

Therefore, the salt can be efficiently obtained through the subsequent steps, the boiling step and the dehydration step.
In the simmering step, the concentrated seawater separated in the lower tank 7B is stored in the kettle 101 by the transport pump 4E and boiled by the burner 102 to evaporate the water.

Next, it moves to a dehydration process, salt is taken out from the pot 101 with the moving grain 103, transferred to the salt reservoir 104, cooled, and the water is removed to obtain seawater bittern N.
Seawater bittern N is used for the production of tofu.
Further, it is dehydrated by the centrifugal separator 105 to become a target salt.

  The embodiments of the present invention have been specifically described with reference to the drawings. However, the present invention is not limited to the above-described embodiments, and can be applied to other embodiments without departing from the spirit of the invention. It is.

DESCRIPTION OF SYMBOLS 1 Storage tank 2 Sterilization room 3 Chiller 4 Pump 5 Supercooling tank 6 Ice storage tank 7A, 7B Tank 8 Molding container 9 Freezer 101 Pot 104 Salt reservoir 105 Centrifugal separator S1 Sherbet ice block S1 Sherbet ice block W1 Fresh water W2 Fresh water ice

The present invention relates to a method for producing sherbet ice in which sherbet ice and concentrated salt seawater are produced from seawater, and the sherbet ice is further processed to improve storage and use .

It is known to produce sherbet ice using seawater.
For example, in Japanese Patent No. 4124632, seawater supplied to a tank is cooled while being circulated, a part of the seawater is frozen to produce seawater ice, and then the cooled seawater in the tank is drained and drained. It is disclosed that seawater ice is produced while maintaining the salinity of the seawater by pumping and cooling the seawater in response to the seawater being produced, and maintaining the salinity of the seawater. At that time, the seawater to be drained and the pumped seawater are heat exchanged. Has been.

  Japanese Patent Laid-Open No. 2007-278667 contains oxygen bubbles in an amount corresponding to the respiration rate of live fish to be transported during hibernation, and after being made into a sherbet, it is stirred and mixed with seawater to form a slurry. Seawater ice characterized by this is disclosed.

  Furthermore, in Japanese Patent Laid-Open No. 2013-76553, in view of the conditions of the salinity concentration range and temperature range of raw water, the raw water elements such as the salinity concentration and temperature of the raw water are controlled and controlled for a short time. A method for obtaining good sherbet ice is disclosed.

  On the other hand, producing salt from seawater has been known for a long time and technical progress has been made, but the basic principle has not changed, and salt production has been carried out to date.

Japanese Patent No. 4124632 JP 2007-278667 A JP 2013-76553 A

As mentioned above, seawater ice is produced by freezing a part of seawater, and this seawater ice can cool to the hibernating state without damaging the surface of the live fish. There is known a method for efficiently transporting a large amount of live fish without damaging the fish.
JP-A-2007-278667 contains oxygen bubbles in an amount corresponding to the respiration rate of live fish to be transported during hibernation, and after being made into a sherbet, it is stirred and mixed with seawater to form a slurry. Is.

In addition, this method uses seawater as ice, so the salt concentration of seawater gradually increases as ice making progresses, and this concentration is only equal to the concentration of seawater even if the ice melts. However, there is a problem that the salt concentration becomes inappropriate for maintaining the quality of seafood with the generation of ice.
In Japanese Patent No. 4124632, seawater ice can be produced while maintaining the salinity concentration of seawater.

Thus, conventionally, the purpose is to produce seawater ice from seawater and to use it in a state suspended in seawater to contribute to the preservation and transportation of live fish.
Therefore, the present invention aims to process seawater ice so that it can be maintained and stored so that it can be used in various ways, such as cooling the fish as ice. It is intended for effective use.

The invention of claim 1 according to the present invention includes a step of storing the taken seawater in a storage tank, a step of sterilizing and cooling the stored seawater, and transferring the sterilized and cooled seawater to a sherbet ice generating device. A step of generating ice, a step of separating the sherbet ice and the remaining seawater when 70% or more of sherbet ice of the stored seawater is generated, a step of fixing the generated and separated sherbet ice in a three-dimensional shape, A method for producing sherbet ice, comprising: a step of depositing fresh water on a peripheral surface of a molded sherbet ice block; and a step of freezing the deposited fresh water to stably maintain the sherbet ice block .

  According to the method for producing sherbet ice from seawater according to claim 1, a certain amount of seawater is efficiently sterilized by a step of storing the taken seawater in a storage tank and a step of sterilizing and cooling the stored seawater. Also, it has the effect of increasing the production efficiency of the sherbet ice in the next step.

Since seawater is sterilized, the sherbet ice produced can be used for a variety of hygienic purposes.
Since sherbet ice is separated when 70% or more of sherbet ice in the stored seawater is produced, the remaining seawater has a salinity concentration that is more than three times the original, and the effect of obtaining seawater effective for salt production Also have.

  Then, the sherbet ice was fixed in a three-dimensional shape, and the fresh water deposited on the surface around the fixed sherbet ice block was frozen into a sherbet ice block. It has the effect that it can be hardened with ice and can maintain its molding form stably. It does not collapse during storage and transportation, and it can easily become sherbet ice if the surface ice melts.

It is a block diagram which shows the process of storing and disinfecting seawater. It is a block diagram which shows the process of producing | generating seawater into sherbet ice, and the process of isolate | separating into sherbet ice and the residual seawater. It is process drawing which shape | molds sherbet ice. It is process drawing which utilized the concentrated seawater for salt manufacture.

The drawings show an embodiment of the present invention, and FIG. 1 is a configuration diagram showing a step of storing the taken seawater in a storage tank and a step of sterilizing and cooling the stored seawater.
In FIG. 1, a circulation path from the storage tank 1 through the sterilization chamber 2 to the chiller 3 and back to the storage tank 1 is formed with a water supply pipe and a circulation pump 4B interposed.

The storage tank 1 is provided with a water supply pump 4A. The storage tank 1 is provided with a stirring blade 11 for homogenizing the temperature, and the sterilization chamber 2 is provided with a sterilization lamp 21 which passes therethrough. Sterilizing the seawater
Therefore, a certain amount of taken seawater is stored in the storage tank 1, and the stored seawater is circulated and sterilized and cooled.
If the seawater is cooled to about 3 ° C., it will contribute to the production of sherbet ice in the next process, and further cooling will generate ice in the storage tank 1, which may cause trouble in the transport path.

  FIG. 2 shows a process of generating sorbet ice by transferring the sterilized and cooled seawater from the storage tank 1 to a sorbet ice generator by a transport pump 4C, and sorbet ice when 70% or more of sorbet ice is generated. It is a block diagram which shows the process isolate | separated into the remaining seawater.

The sherbet ice generator comprises a supercooling tank 5 and a sherbet ice storage tank 6, and a certain amount of transferred seawater is circulated by a circulation pump 4 </ b> D, and the sherbet ice generated in the supercooling tank 5 is stored in the sherbet ice storage tank 6. It is to be stored.
The supercooling tank 5 for generating the sherbet ice can be selected from known machines, and the rotating blade 61 for stirring is provided in the sherbet ice storage tank 6.

Seawater flows from the sherbet ice storage tank 6 through the water supply pipe into the water channel of the supercooling tank 5 by the circulation pump 4D and flows in the water channel, and -2. Cool to about 5 ° C.
As a result, the seawater becomes sherbet-like flowing ice, and is further ejected from the supercooling tank 5 through the ice feed pipe by the circulation pump 4D into the sherbet ice storage tank 6 by the ejection nozzle (not shown). It floats and is stored.

When sherbet ice of 70% or more of a certain amount of transferred seawater is produced, it is separated into sherbet ice and remaining seawater.
In FIG. 2, the upper and lower tanks 7A and 7B released from above are stacked and a filtering material 71 is disposed in the middle. The sherbet ice and the remaining seawater are introduced from above to put the sherbet ice in the upper tank 7A and the lower tank. The seawater remaining in the tank 7B is separated.

The salinity of seawater is approximately 3% by weight, and when 70% or more of sherbet ice is produced, the remaining seawater has a salinity of 10% by weight or more.
Therefore, it has reached the effective concentration standard (10 wt%) of salt water for boiling out salt crystals in salt production using seawater.
Moreover, as a limit which isolate | separates into sherbet ice and the remaining seawater, the stage (85% or less) before the trouble of rotation of the rotating blade 61 for stirring is considered.

The separated sherbet ice is taken out by the conveying screw 72 and molded and used as sterilized sanitary ice, while the concentrated seawater is used for salt production.
FIG. 3 is a process diagram for molding sherbet ice.

The sherbet ice S1 taken out by the conveying screw 72 is distributed to the molding container 8 and molded and fixed in a fixed three-dimensional shape by the crimping means 81.
Next, fresh water W1 is injected into the molding container 8 that accommodates the sherbet ice block S2 that is molded and fixed in a three-dimensional shape, and the fresh water W1 is attached to the peripheral surface of the sherbet ice block S2, and the molding container 8 is stored in the freezer 9 as it is. The fresh water W1 thus deposited is frozen and the fresh water ice W2 covers the sherbet ice block S2.

  Therefore, compared with the sherbet ice block S2 in which the maintenance of the molding form is unstable, the periphery can be solidified with fresh water ice W2 and the molding form can be stably maintained, and the sherbet ice block S2 is not collapsed during storage and transportation. In addition, if the surface fresh water ice W2 is melted during use, it can easily return to the sherbet ice block S2 and further to the sherbet ice S1.

FIG. 4 shows a process in which the seawater separated from the sherbet ice S1 and concentrated is used for salt production, and salt is obtained through a boiling process and a dehydration process.
As described above, if the salt concentration of the concentrated seawater is 3%, the remaining seawater becomes 10% by weight when 70% of the sherbet ice is produced. Further, when 85% sherbet ice is produced, the remaining seawater has a salinity concentration of 20% by weight, and any concentration is satisfied by the seawater concentration step in the conventional salt production method using seawater.

Therefore, the salt can be efficiently obtained through the subsequent steps, the boiling step and the dehydration step.
In the simmering step, the concentrated seawater separated in the lower tank 7B is stored in the kettle 101 by the transport pump 4E and boiled by the burner 102 to evaporate the water.

Next, it moves to a dehydration process, salt is taken out from the pot 101 with the moving grain 103, transferred to the salt reservoir 104, cooled, and the water is removed to obtain seawater bittern N.
Seawater bittern N is used for the production of tofu.
Further, it is dehydrated by the centrifugal separator 105 to become a target salt.

  The embodiments of the present invention have been specifically described with reference to the drawings. However, the present invention is not limited to the above-described embodiments, and can be applied to other embodiments without departing from the spirit of the invention. It is.

DESCRIPTION OF SYMBOLS 1 Storage tank 2 Sterilization room 3 Chiller 4 Pump 5 Supercooling tank 6 Ice storage tank 7A, 7B Tank 8 Molding container 9 Freezer 101 Pot 104 Salt reservoir 105 Centrifugal separator S1 Sherbet ice block S1 Sherbet ice block W1 Fresh water W2 Fresh water ice

Claims (3)

  Storing the collected seawater in a storage tank; sterilizing and cooling the stored seawater; transferring the sterilized and cooled seawater to a sherbet ice generator; and generating sherbet ice; and A method for producing sorbet ice and concentrated salt seawater from seawater, comprising a step of separating sorbet ice and remaining seawater when 70% or more of sorbet ice is produced.   The step of fixing the generated and separated sherbet ice in a three-dimensional shape, the step of applying fresh water to the peripheral surface of the fixedly formed sherbet ice block, and the step of freezing the applied fresh water to stably maintain the sherbet ice block A method for producing sherbet ice.   2. The method for producing a salt according to claim 1, wherein the seawater separated in claim 1 has a salinity concentration exceeding 10%, and is subjected to a boiling step and a dehydration step using the concentrated salty seawater.

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