JPH04114727A - Apparatus for supplying supersaturated solution - Google Patents

Abstract

PURPOSE:To economically and efficiently supply a gas dissolved solution by a method wherein a liquid and gas are injected in the container of an airtight pressure-resistant tank and pressurized to dissolve the gas in the liquid and the gas dissolved solution is continuously supplied to the outside as a supersaturated solution while stored. CONSTITUTION:A gas injection means consisting of a solenoid valve 12 and a compressed gas source 5, a liquid injection means consisting of a solenoid valve 10, a liquid source 3 and a pump 7, a liquid discharge means consisting of a solenoid valve 11 and a pump 8 and a control means consisting of a pressure switch 16 and level switches 13-15 or a timer are arranged to the container 1 of an airtight pressure-resistant tank. The liquid injection means and the gas injection means are operated by the control means to inject not only a liquid in the container 1 up to a predetermined level but also gas therein so as to reach predetermined pressure and the gas is dissolved in the liquid. The gas dissolved solution is discharged to the outside of the container 1 as a supersaturated dissolved solution by the liquid discharge means. Further, the liquid and gas injection means are operated by the control means to repeatedly obtain the supersaturated dissolved solution.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to an apparatus capable of continuously supplying a liquid in which a large amount of gas is efficiently dissolved, and more specifically, an airtight and pressure-resistant device. The present invention relates to an apparatus capable of injecting liquid and gas into a pressurized tank container, applying pressure to dissolve the gas, storing the dissolved solution, and continuously supplying the solution to the outside as a supersaturated solution.

[Conventional technology]

Oxygen for animals and carbon dioxide gas for plants play an important role in their growth. Oxygen in water is D
With the development of measuring instruments such as the 0 meter, the mechanism is gradually being elucidated.

Conventional methods for supplying oxygen are mainly by attaching an air stone to an air pump, or by attaching an air stone to a blower/oxygen bottle, which sends air into the water in the form of bubbles.

In the case of carbon dioxide gas, it is not clear whether it can be used effectively, but it has been used successfully to maintain the freshness of apples, stockpile rice, promote germination of plants, and grow muskmelon in greenhouses by burning kerosene and supplying carbon dioxide gas. In addition, carbonated water is produced as drinking water by adding citric acid, acetic acid, etc. to water prepared by dissolving sodium carbonate in cola, ramune, soda, etc.

(Problem to be Solved by the Invention) However, in the conventional method with this configuration, the air bubbles are too large to be used with a blower, etc., and it is not possible to generate a large amount of air bubbles with an air pump or air stone, so an air stone is used instead of an oxygen bottle. If this occurs, air bubbles may adhere to the body surface and respiratory organs of living organisms, causing breathing problems. Regarding high-pressure water tanks, a proposal was made by the inventor on July 23, 1980, titled "High-pressure water tank device for eel, 60-16266," but large-scale high-pressure water tanks cost a lot of money, and It is not possible to make a large amount of solution.

Regarding carbon dioxide gas, when used as a gas, it is inefficient, but more economical and physiological effects can be produced by dissolving it in a solvent such as water.

(Means for Solving the Problems) Accordingly, an object of the present invention is to provide an economical and efficient gas solution supply device.

The pressurized supersaturated solution supply device according to the present invention is divided into a pressurizing section and a water storage section. , a control means using a low level switch and a pressure switch disposed outside, a compressor or compressed gas source disposed on the outside of the pressurized tank, a pump, a gas injection means consisting of a solenoid valve, and a liquid source. , a liquid injection means consisting of a pump and a solenoid valve, a liquid discharge means consisting of a pump and a solenoid valve, and electrically connected to a level switch, a pump and a solenoid valve of the liquid injection means, a pressure switch, a gas injection means, and a liquid discharge means. This relates to a configuration connected to a solenoid valve.

In the water storage section, a control means is provided with a level switch inside an airtight and pressure-resistant storage connected to the liquid discharge means, and a solution discharge means is provided with a pump and a flow rate adjustment valve or a pressure adjustment valve on the side of the storage. Consisting of means,
The level switch is connected to a solenoid valve in the liquid discharge means of the pressurizing section.

First, the liquid and gas injection means are activated, and after the liquid and gas are injected into the pressurized tank container at a predetermined water level and a predetermined pressure, the solenoid valve of the liquid injection means is closed by the control means level switch. The pressure switch closes the solenoid valve of the gas injection means and opens the solenoid valve of the liquid discharge means. The lower level switch operates, the solenoid valve of the liquid discharge means closes, liquid discharge is completed, the solenoid valve of the liquid injection stage opens, and the pressure switch opens the solenoid valve of the gas injection means, and gas is injected. , pressurization is performed again. The dissolved solution discharged from the pressurized tank container is stored in a storage and is continuously provided as a supersaturated dissolved solution to an external water receiving tank such as a rearing tank by a flow rate regulating valve. The lower level switch may be replaced by an in-storage level switch.

(Operation) According to Henry's law, under conditions of constant temperature, the mass of a gas that dissolves in a certain amount of solvent is proportional to the pressure of the gas at the time of dissolution. Therefore, the more pressure you apply, the more the dissolved amount will increase, but the dissolved solution discharged from the storage will return to the normal pressure, so some of it will volatilize, becoming supersaturated, and the amount of dissolved solution will gradually increase. . However, during this time, a supersaturated solution that cannot be obtained under normal pressure can appear, which continuously
What we have achieved is an abnormal state from the perspective of nature.

Regarding the dissolution of oxygen in the water, it was not in the form of bubbles, but in a dissolved state, and had no adverse effect on living organisms, and a large number of aerobic bacteria were observed to breed. Oxygen and carbon dioxide gas have a great effect on animals and plants that live underwater, and they can continue to maintain that environment.

(Examples) Hereinafter, the present invention will be described with reference to embodiments shown in the accompanying drawings.

The drawing is a system diagram showing an embodiment of the pressurized supersaturated solution supply device according to the present invention.The pressurized tank container l of this embodiment is related to an airtight and pressure-resistant structure, and is made of iron, F, R, ri, matsuki glass fiber processed, stainless steel,
It can be appropriately selected from materials such as acrylic resin.

A compressor 5 and a solenoid valve 12 are disposed as air injection means on the side of the pressurized tank container l, and the solenoid valve 12 is electrically connected to a pressure switch 16 provided in the pressurized tank container l. connected to. As an injection means, a water storage tank 3, a pump 7, and a solenoid valve 10 are connected to the pressurized tank container 1. The switch 13.14 is electrically connected to the switch 13.14. As drainage means, a solenoid valve 11 connected to a pressure switch 16 and a pump 8 are arranged in the pressurized container 1 and connected to an airtight and pressure-resistant surge tank 2. The surge tank 2 can be made of a material such as a pressurized tank container, and has a level switch 15 therein.
is electrically connected to the solenoid valve 11. The upper pressure limit of the surge tank should not exceed the upper limit of the pressure tank container l. Furthermore, the surge tank 2 includes a pump 9 and a flow rate adjustment valve 6.
The dissolved water is transferred to breeding tank 4 while controlling the flow rate.
supply to.

In the supersaturated solution supply device having the above configuration, water is first supplied to the water tank 3, and the amount of water is adjusted using a pole tap or the like. The solenoid valve IO of the injection means is opened, the pump 7 is operated, water is injected until the level switch 13 reaches the top level, and then the solenoid valve IO is closed and the pump 7 stops operating.

The solenoid valve 12 of the air injection means opens until the pressure switch 16 reaches a predetermined atmospheric pressure, increasing the pressure in the pressurized tank container l. When a predetermined pressure is reached, the pressure switch 16 is turned off and the solenoid valve 12 is closed. After adjusting the time using a timer or the like, the electromagnetic valve 11 is opened and the solution in the pressurized tank l is discharged. When the level switch 14 in the pressurized tank l reaches the bottom level, the solenoid valve 10 is opened and water is poured into the pressurized tank l.

The pressure switch 16 opens the electromagnetic valve 12, and water starts to be poured into the pressurized tank container 1 from the water tank 3. After that, pressurization, melting, and evacuation are repeated. The pump 9 is always operated, and the flow rate regulating valve 6 measures and fixes the oxygen concentration in the breeding tank. A pressure regulating valve may be used instead of the flow regulating valve.

(Effects) As described above, the supersaturated solution supply device of the present invention can withstand high pressure, efficiently and repeatedly
It is possible to create a supersaturated dissolved state by dissolving a gas and repeatedly supplying a supersaturated solution.
Plants are a hot topic, and they also promote the growth and vitality of terrestrial organisms.
It can have a great influence, and by repeating the examples, it can be made possible to culture and grow organisms that were previously impossible to cultivate and grow.

[Brief explanation of drawings]

The drawing is a system diagram showing an embodiment of the supersaturated solution supply device according to the present invention. ■・・・・・・・・・Pressure tank container 2・・・・・・・・・Surge tank 3・・・・・・Water tank 4・・・・・・ Breeding tank 5...Compressor 6...Flow rate adjustment valve 7...Pump 8...Pump 9... ......Pump 10...Solenoid valve 11...Solenoid valve 12...Solenoid valve 13... ...Level switch 14...
...Level switch l5... Level switch I6... Pressure switch

Claims (2)

[Claims] (1) a gas injection means consisting of a solenoid valve and a compressed gas source; a liquid injection means consisting of a solenoid valve, a liquid source and a pump;
A liquid discharge means consisting of a solenoid valve and a pump, and a control means consisting of a pressure switch, a level switch, or a timer are arranged in an airtight and pressure-resistant pressurized tank container, and the control means controls the liquid injection means and the gas injection means. The liquid is injected into the pressurized tank container to a predetermined water level, and the gas is injected until the predetermined pressure is reached, the gas is dissolved, and then the liquid is discharged to the outside of the pressurized tank as a supersaturated solution. Discharge as. Furthermore, the supersaturated solution supply device is characterized in that the control means operates the liquid and gas injection means to again inject and pressurize the liquid and gas into the pressurized tank container, thereby repeatedly providing the supersaturated solution. (2) An airtight and pressure-resistant water storage tank is connected to the liquid discharge means, and the water storage tank is provided with a flow rate adjustment valve or a pressure adjustment valve, and the dissolved liquid discharged from the pressurized tank is Claim 1, characterized in that the supersaturated solution is stored in the water storage tank container, and the supersaturated solution is discharged to the outside of the water storage tank while adjusting the flow rate pressure of the solution using the flow rate regulating valve or the pressure regulating valve. Supersaturated solution supply device related to.