KR19980086807A - Salt production method from sea water - Google Patents

Abstract

The present invention is a natural salt containing calcium and magnesium, which are important for the human body, by utilizing the heat of flue gas or steam discharged from a combustor such as a boiler, and easily and economically from seawater, and furthermore, a stable salt. A method of manufacturing, comprising a rotary drum type dryer in the middle of a flue gas path from a combustor such as a boiler, while detecting the temperature of the dryer, the flow rate of the seawater is detected on the outer surface of the rotating drum body according to the detected temperature. The present invention provides a salt production method from seawater in which water is evaporated by dropping or applying with adjustment to remove salts attached to the outer surface of the drum body.

Description

Salt production method from sea water

TECHNICAL FIELD This invention relates to the method of manufacturing salt from seawater using the heat of flue gas and steam discharged | emitted from a combustor, such as a boiler.

The salt (natural salt) obtained by drying seawater in salt water all day is beneficial for human health because it contains enough ingredients consisting of calcium, magnesium, and about 60 kinds of trace minerals, but it is difficult to contaminate seawater or secure salt land. It is difficult, and its output declines every year.

Some methods of introducing seawater into the plant and manufacturing them by an electric method using an ion exchange resin membrane (see, for example, Japanese Patent Application Laid-Open No. 63-27290), have been employed. On the contrary, the content of the above components is extremely small, and among them, calcium and magnesium, which are the most important for the human nutrition, are particularly low, and are far behind food salts.

The present invention is to easily and economically decontaminate natural salts containing calcium or magnesium, which are important for human nutrition, from seawater by effectively utilizing the heat of flue gas and steam discharged from a combustor such as a boiler, and more efficiently from salt water. To provide a way to do this.

1 is a system configuration diagram of a first embodiment of the present invention;

FIG. 2 is a view showing a seawater discharge or a dispensing machine, a peeler, and a screw conveyor with respect to the drum body of the dryer in FIG. 1;

3 is a comparison diagram of the components of the salt obtained in Example 1 and commercially available tablet salts in Japan,

4 is a system configuration diagram of a second embodiment of the present invention;

5 is a plan view of the evaporative drying stirring conveyor used in the second embodiment,

6 is a cross-sectional view of FIG. 5.

* Explanation of symbols for main parts of the drawings

1: combustor such as boiler 2: flue gas duct

3: chimney 4: rotary drum type dryer

5: drum body 6: bearing

7: Chain Gear 8: Motor

9: chain gear 10: chain

11: seawater pump 12: filtration tank

13: preheating tank 14: water supply pump

15: seawater introduction piping 16: seawater loading or applicator

17: temperature sensor 18: inverter

19: peeler 20: steam recovery

21: cooler 22: hopper

23: screw conveyor 24: cooling pipe

25: Trap 26: Steam Drying Stirring Conveyor

27: barrel 28: stirring return wing

29: axis of rotation

In the first embodiment of the present invention, a rotary drum type dryer is arranged in the middle of a flue gas path from a combustor such as a boiler, and while detecting the temperature of the dryer, seawater is applied to the detected temperature on the outer surface of the rotating drum body. According to the flow rate adjustment, it is dripped or applied, water is evaporated, and the salt attached to the outer surface of the drum body is peeled off and collected.

For example, most seafood processing plants are equipped with combustors such as boilers and are often located offshore, but the temperature of the outer surface of the flue duct from the combustor is large at a high temperature of 100 ° C. or higher, and is large in calories. Until that heat is rarely used. In such a factory, the present invention can be carried out simply and economically by arranging a rotary drum type dryer in the middle of a flue gas path using existing equipment and introducing nearby seawater. In addition, this invention is not limited to such a place, It can use widely if it is a place which can use the heat of other flue gas.

Further, in the second embodiment of the present invention, water vapor is fed into a rotating drum type dryer as a heating medium, and the water is dropped or applied to the outer surface of the drum body in which the dryer rotates to evaporate water, The salt adhering to the outer surface is suppressed to a certain degree of dryness, and it is peeled off and put into a steam-drying stirring conveyor to which steam is fed as a heating medium, and dried while being conveyed with stirring.

In the steam-drying stirring conveyor, water vapor is fed into the hollow inside of the cylinder circumferential wall, and the salt added into the cylinder is preferably conveyed while stirring with a stirring carrier blade.

In many seafood processing plants and the like, steam generators are often installed as one of the facilities. In such places, salt water can be produced from seawater simply and economically using the existing steam generator as it is. In addition, even when a steam generator is newly installed, the steam can be easily treated, and since the high-temperature drain discharged from the drum type dryer can be used as reflux to the steam generator as it is, the decontamination coast becomes inexpensive.

In both the first and second embodiments, in order to improve the treatment efficiency, the drum body is lengthened horizontally, and the seawater is dropped or applied along the upper portion of the outer surface thereof, and the drum body is rotated from the dropping or application position in the direction of rotation of the drum body. At a distance, the salt is stripped off with the stripper following the rotation of the drum body. In addition, the seawater is filtered and preheated, and then dipped or applied to the outer surface of the drum body.

The exhaust steam evaporated above the drum body contains no salt and is recovered in a steam recovery unit. The steam is cooled by a cooler using sea water as a refrigerant to obtain fresh water.

(Example)

Next, an embodiment of the present invention will be described with reference to the drawings.

1 and 2 show a first embodiment of the present invention. In Fig. 1, in a seafood processing plant or the like, the flue gas from the combustor 1 such as a boiler is normally exhausted from the chimney 3 to the outside through the flue duct 2, but in such a place, the flue duct In the horizontally cylindrical drum body 5 of the rotary drum type dryer 4, the exhaust gas from the combustor 1 is interposed between the rotary drum type dryer 4 at the point where 2 is horizontal. The drum body 5 is heated by exhausting it to the chimney 3 through.

Both ends of the drum body 5 of the dryer 4 are supported so that they can rotate freely by the bearing 6 in the middle of the flue duct 2, and the chain gear 7 provided on the outer periphery of one end of the drum body 5; By winding the chain 10 between the chain gear 9 on the motor 8 side, the motor 8 rotates in the direction of the arrow.

Meanwhile, the seawater is pumped up from the sea with the seawater pump 11 and filtered in the filtration tank 12, and preheated in the preheating tank 13, and then the dryer is supplied through the seawater introduction pipe 15 to the water supply pump 14. We introduce seawater in (4). As a heat source of the preheating tank 13, it is good to use heat, such as a part of flue gas from the combustor 1, hot water discharged from a factory.

As shown in Fig. 1 and Fig. 2, a horizontally long seawater dripping or applicator 16 is disposed parallel to the axis of the drum body 5 on the periphery of the drum body 5 of the dryer 4. . The seawater dropper or the applicator 16 is dropwise or applied to the upper portion of the outer surface of the drum body 5 by dropping or applying the seawater delivered by the water pump 14, for example, In the case of coating, for example, a heat-resistant infiltrating member is provided in the groove of the pipe, and the infiltrating member is provided on the outer surface of the drum body 5. Slip it together. Since the dropping amount or the amount of seawater to be applied is automatically adjusted according to the surface temperature of the dryer 4, the temperature sensor 17 is arranged at or near the exhaust gas inlet side of the drum body 5 outer periphery. The water feed pump 14 is controlled through the inverter 18 by the signal of. In addition, although the installation position of the temperature sensor 17 is not limited to the above places, it is preferable that the position which is not affected by the drop of the seawater by the seawater dropping or the applicator 16, or the temperature reduction by application | coating as much as possible is preferable. .

Above the drum body 5, a steam recovery unit 20 for recovering the discharge steam by evaporation of sea water and a cooler 22 communicating therewith are disposed, and below the drum body 5, a separator 19 is provided. The screw conveyor 23 which introduce | transduces the salt which peels off and falls through the pump 22, and conveys it to a refining process part (not shown) is arrange | positioned. In addition, the contact surface between the flue duct 2, the drum main body 5, and the chimney 3 is interposed with a high temperature packing to block the leakage of smoke to the outside to prevent contamination in the factory.

In the above facilities, the seawater pumped from the sea by the seawater pump 11 is filtered in the filtration tank 12, and is preheated in the preheating tank 13, and then flows in accordance with the temperature of the dryer 4. While the temperature is lowered, the flow rate is decreased, and when the temperature is high, the flow rate is increased. Then, it is added or applied to the outer surface of the rotating drum body 5. On the drum body 5, moisture is evaporated and recovered by the steam recovery unit 20, and the salt is attached to the outer surface of the drum body 5 and dried on the drum body 5, and then the peeler 19 It is peeled off) and falls into the screw conveyor 23, and it refine | purifies as a salt in a refinement | purification process part.

A spiral cooling pipe 24 is disposed inside the cooler 21, and since the seawater flows in and out of the cooling pipe 24 as the refrigerant, exhaust steam entering the steam recovery unit 20 is cooled and fresh water. Is recovered as.

By the same method as described above, 35 Kg of salts were obtained from 1000 Kg of clean seawater in the northern part of Hokkaido, Japan. The component is shown in FIG. 3 compared with the current commercially available tablet salt.

Next, a second embodiment of the present invention will be described with reference to FIGS. 4 to 6.

In FIG. 4, the seawater pump 11, the filtration tank 12, the preheating tank 13, the water feed pump 20, and the cooler 21 are the same as the example shown in FIG. 1, but in the second embodiment, exhaust gas is exhausted. Instead, steam is used as a heating medium, and steam is sent from a steam generator not shown in the drum body 5 of the rotary drum type dryer 4.

Since the temperature of the steam is almost constant, in the example of FIG. 4, the temperature sensor 17, the inverter 18, and the water pump 14 for adjusting the flow rate of the seawater are omitted, but the temperature is changed as in the case of FIG. 1. It is a matter of course that the flow rate may be adjusted by detecting.

Water vapor fed into the drum body 5 and used for drying seawater is discharged from the drum body 5 as drain water via the trap 25.

The salt attached to the outer surface of the drum body 5 and peeled off by the peeler 19 is, in the example of FIG. 4, into the steam-drying stirring conveyor 26 disposed below the rotary drum dryer 4. It is thrown in, it is dried while stirring in this steam-drying stirring conveyor 26, and it is returned to a refinement | purification process part. The salt is also dried on the outer circumferential surface of the drum body 5, but if excessively dried, the salt rises with the steam, and the desalination performance by the steam recoverer 20 and the cooler 21 is lowered. Drying of the salt on the outer peripheral surface is suppressed to some extent, and sufficient drying is performed by the steam-drying stirring conveyor 26. As shown in FIG.

5 and 6 show an example of the configuration of the steam-drying stirring conveyor 26. In this steam-drying stirring conveyor 26, the circumferential wall of the cross-section semi-circular cylinder 27 is made hollow and the steam is sent from the steam generator as in the drum body 5 to the inside thereof. Inside the cylinder 27, the many stirring conveyance blades 28 are attached to one rotating shaft 29 so that it may turn at the same time.

Therefore, the salinity peeled off from the outer circumferential surface of the drum body 5 and dropped into the hollow interior of the circumferential wall of the cylinder 27 is conveyed at the same time as stirring by the stirring conveyance blade 28, but is fed into the hollow interior of the circumferential wall of the cylinder 27 It is heated by steam and dried. In addition, the heat source of the preheating tank 13 can also use water vapor.

As described above, according to the invention according to claim 1, it is easy and economical to decontaminate natural salt containing nutritionally important calcium and magnesium from human body by using flue gas exhausted from seafood processing plant. can do. While detecting the temperature of the dryer, since the flow rate of the seawater is adjusted or dropped or applied to the outer surface of the drum body in accordance with the detected temperature, it is possible to obtain a stable salt without being affected by the temperature change of the flue gas.

Further, according to the invention according to claim 2, natural salts containing calcium, magnesium, and the like, which are important for the human body, can be easily and economically decontaminated from seawater using heat of steam. The salt peeled from the drum body of the rotary drum dryer is dried by being stirred and conveyed by a steam-drying agitating conveyor that supplies steam as a heating medium. Therefore, the salt can be dried economically using steam. Since the drying of the salt on the outer surface of the drum body can be suppressed to a certain degree and sufficient drying can be achieved by a steam-drying stirring conveyor, desalination can be efficiently performed because the exhaust steam from the drum body does not contain salt.

According to the invention according to claim 3, since the steam-drying stirring conveyor for drying the salts peeled from the drum body feeds water vapor into the hollow inside of the cylinder wall and conveys the salt added to the inside of the barrel with stirring agitating vanes, Drying and conveying salt can be performed efficiently.

According to the invention according to claim 4, the drum body is lengthened horizontally so that seawater is dropped or applied along the upper part of the outer surface thereof, and the salt is peeled off by the peeler in accordance with the rotational direction of the drum body from the dropping or application position. Drying of seawater and peeling of salt on the drum body can be performed efficiently.

According to the invention according to claim 5, the treatment efficiency is improved because the seawater is filtered or preheated and then dropped or applied to the outer surface of the drum body.

According to the invention according to claim 6, since the vapor evaporating above the drum body is recovered by a steam recovery unit, and the sea water is cooled by a cooler using a refrigerant as fresh water, desalination of seawater, which is a byproduct of decontamination, can also be efficiently performed. .

Claims (6)

A rotary drum type dryer is arranged in the middle of the flue gas path from a combustor such as a boiler, and the flow rate is adjusted on the outer surface of the rotating drum body according to the detected temperature while detecting the temperature of the dryer. A salt production method from seawater, characterized by dropping or applying while evaporating water to remove the salt attached to the outer surface of the drum body. Water vapor is fed into a rotating drum type dryer as a heating medium, and water is added or applied to the outer surface of the drum body in which the dryer rotates to evaporate moisture, and the salt attached to the outer surface of the drum body is dried to a certain degree. A salt production method from seawater characterized by suppressing the degree, peeling it off, putting it into a steam-drying type agitating conveyor feeding steam as a heating medium, conveying it while stirring, and drying it. The method for producing a salt from seawater according to claim 2, wherein the steam-drying stirring conveyor feeds water vapor into the hollow inside the circumferential wall of the barrel, and conveys the salt added into the barrel while stirring with a stirring carrier blade. 4. The drum body according to claim 1, 2 or 3, wherein the drum body is lengthened laterally, the seawater is dropped or coated along the upper portion of the outer surface thereof, and the drum body is separated from the dropping or applying position in the rotational direction of the drum body. A salt production method from seawater, characterized in that the salt is separated by a peeler in accordance with the rotation of the drum body in a place. The method for preparing salt from seawater according to claim 1, 2, 3 or 4, wherein the seawater is filtered and preheated, and then dipped or applied to the outer surface of the drum body. The steam evaporating above the drum body is recovered by a steam recoverer, and cooled by a cooler using seawater as a coolant. Salt production method from seawater characterized by the above-mentioned.