JPS6328432A - Contacting device for gas and liquid - Google Patents

Abstract

PURPOSE:To obtain the titled device wherein the number of an aeration nozzle is reduced and excess feed of gas can be prevented by connecting flexible tubes to the injection nozzles of aeration pipes. CONSTITUTION:Flexible tubes 11 are connected to the injection nozzles of aeration pipes 4. Gas 5 is pressurized by blowers 8 and controlled by a flow rate control valve 9 and injected through the flexible tubes 11 via the aeration pipes 4 from main pipelines 10. On the other hand, the liquid 1 to be treated is introduced into an aeration tank 3 through an inflow port 2 and brought into gas- liquid contact with gas injected through the flexible tubes 11. Then after the liquid is retained in the aeration tank 3 for a prescribed time, it is discharged through a drawing-out port 7. In this case, the flexible tubes 11 are vibrated by the change of momentum in accordance with the injection of gas, and foams are diffused in the lateral direction. Therefore many aeration nozzles need not be provided and excess feeding of gas can be prevented. Further a flexible tube made of vinyl resin or rubber can be used as the flexible tubes 11.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides a gas-liquid contact device suitable for gas-liquid contact operations such as oxidation of sulfite by blowing air into a liquid storage tank in a flue gas desulfurization device. Regarding.

[Conventional technology]

An example of a conventional gas-liquid contact device will be explained based on FIG. 5. In Fig. S, the liquid to be treated 1 enters a ventilation tank 5 through an inlet 2, and a ventilation pipe 4 is provided in the ventilation tank 3 for blowing gas 5 into the ventilation tank s. The ventilation pipe 4 is provided with a plurality of gas ejection nozzles 6 for ejecting the gas 5 into the liquid. Inside the aeration tank 5 (the liquid 1 to be treated that has flowed into the aeration tank 3 is subjected to gas-liquid contact treatment with the gas 5 ejected from the gas ejection nozzle 6 provided at the bottom of the aeration tank 3, stays in the aeration tank 5 for a predetermined time, and then is taken out. It passes through the lower and is discharged from the ventilation tank 5.The exhaust gas is also discharged from the inlet 2 of the liquid to be treated.The gas 5 that is blown out is passed from the blower 8 to the flow control pulp 9t. It passes through the main pipe 10 and reaches the ventilation pipe 4.

By the way, in this conventional method, in order not to reduce the processing efficiency, as a countermeasure, the ventilation flow i is made excessive.
A large number of gas jet nozzles 6 were installed to ensure processing efficiency.

[Problem that the invention seeks to solve]

The present invention aims to provide a gas-liquid contacting device that eliminates the drawbacks of conventional gas-liquid contacting devices, makes it possible to secure a predetermined processing capacity with a small ventilation flow rate, and reduces the number of ventilation nozzles. It is.

[Means for solving problems]

The present invention includes a vent pipe attached to a hollow rotating shaft extending into the liquid,
The present invention relates to a gas-liquid contact device for ejecting gas from a nozzle of the vent pipe, characterized in that a flexible tube is fully connected to the ejection nozzle of the vent pipe.

[Effect]

The present invention will be explained below based on the drawings.

FIG. 1 shows an outline of a gas-liquid contact device according to the present invention. In FIG. 1, a second flexible tube is installed at fL for spouting gas 5 into the liquid.

It is. The gas 5 is pressurized by the blower 8, controlled by the flow rate control valve 9, and is ejected from the main pipe 10 through the ventilation pipe 4 metal, through the flexible tube +1 or I), and comes into contact with the gas and liquid. Further, the liquid to be treated 1 enters the ventilation tank s from the inlet 2, comes into gas-liquid contact with the gas ejected from the flexible tube 11, and is discharged from the extraction lower part of the tank.

FIG. 2 shows that due to the change in momentum when gas flows out from the flexible tube 11, the flexible tube 11
shows how it vibrates. Note that a flexible tube made of vinyl or rubber and having an inner diameter of about 5 to 20 trsφ can be used as the flexible tube.

〔Effect of the invention〕

Since the present invention employs the above configuration, the 7 lexiple tube itself moves due to the change in momentum when gas is ejected, and the lateral diffusion of air bubbles is achieved, thereby eliminating the need to install a large number of ventilation nozzles. This also has the effect of preventing excessive supply of gas.

[Brief explanation of drawings]

FIG. 1 is a conceptual diagram of a gas-liquid contact device according to the present invention, FIG. 2 is a diagram for explaining the behavior of the flexible tube according to the present invention, and FIG. 5 is a conceptual diagram of a conventional gas-liquid contact device. shows. Sub-Agents 1) Meifuku Agent Ryo Hagiwara − Sub-Agent Atsuo Anzai

Claims (1)

[Claims] A gas-liquid contact device in which a vent pipe is attached to a hollow rotating shaft extending into a liquid and gas is ejected from a nozzle of the vent pipe, characterized in that a flexible tube is connected to the jet nozzle of the vent pipe. Device.