JP2013257232A - Method and device for evaluating installation environment of water injection type compressor - Google Patents

Abstract

PROBLEM TO BE SOLVED: To simply and inexpensively grasp whether or not a surfactant is contained in the air under installation environment without utilizing a water injection type compressor irrespective of before and after installation.SOLUTION: A bubbling step of supplying the air at an installation scheduled place or an installation place of a water injection type compressor which compresses the induced air with circulation water which is circulated and reused into a container 1 which accommodates water to be permeated to water, and a confirmation step of confirming a bubbled state of water are executed.

Description

  The present invention relates to an installation environment evaluation method and apparatus for a water jet compressor.

  When impurities such as alcohol, thinner, and other organic solvents (hereinafter referred to as “surfactant”) are contained in the air, for example, if the surfactant dissolves in the circulating water of the water jet compressor, Various problems are caused by the fact that the interfacial tension of water decreases and foams.

  For this reason, conventionally, the quality of the water circulating between the water tank and the compressor constituting the water jet compressor is continuously measured without stopping the flow, and the sample is periodically sampled. (For example, refer to Patent Document 1).

  In addition, the circulating water circulating in the circulation system of the water jet compressor is introduced into a container containing an adsorbent capable of adsorbing the surface active material and passed therethrough to remove the surface active material in the circulating water. (For example, refer to Patent Document 2).

Japanese Patent No. 4650596 Japanese Patent No. 4829640

  However, in the former method, the quality of water circulating between the water tank and the compressor constituting the water jet compressor is measured. For this reason, it is impossible to grasp in advance the quality of the environment before installation, which is the quality of the air at the planned installation location of the water jet compressor that affects the water quality. Moreover, the monitoring device for measuring the water quality provided in the water jet compressor is expensive.

  In the latter method, the surface active substance in the circulating water is removed with an adsorbent. However, it is not considered at all to grasp in advance the state of air at the planned installation location of the water jet compressor that affects the quality of the circulating water. Also, no consideration is given to grasping the air condition at the installation location after installation. For this reason, the quality of the installation environment, which is the quality of the air state, cannot be grasped in advance regardless of whether the water jet compressor is installed or not.

  The present invention has been made to solve the above problems, and whether or not a surface active substance is contained in the air in the installation environment regardless of before and after the installation of the water injection compressor, the water injection type. It aims at providing the installation environment evaluation method and apparatus of a water injection type compressor which can be grasped easily and cheaply without using a compressor.

As a means for solving the above problems, the present invention provides:
How to evaluate the installation environment of a water jet compressor
A ventilation step of supplying the air at the planned installation location or the installation location of the water jet compressor that compresses the sucked air together with the circulating water to be circulated and reused into a container containing water, and venting the water;
A confirmation step for confirming the bubbling state of the water;
Is included.

  According to this, regardless of before and after the installation of the water jet compressor, it is easily and inexpensively grasped whether or not a surface active substance is contained in the air in the installation environment without using the water jet compressor. be able to.

  It is preferable that the method further includes a foam promotion step for promoting the foaming state of water in the container after the ventilation step and before the confirmation step.

  According to this, it becomes possible to easily check the bubbling state of water.

  The water in the container is preferably the same as that used as the circulating water or the water used as the circulating water.

  According to this, it can determine with the water of the same conditions as a water injection type compressor. In particular, since the determination can be made before the installation of the water jet compressor, it is possible to take measures in advance.

  The amount of water stored in the container and the amount of air supplied to the container per unit time are the amount of circulating water of the water jet compressor that is planned to be installed or is installed. And a value that is scaled down at a ratio equivalent to the ratio of the compressed air discharge rate per unit time.

  According to this, the state of water can be judged on the use conditions equivalent to the water jet type compressor which is actually used or used. In addition, the size of the container to be used can be reduced.

  The amount of water stored in the container and the amount of air supplied into the container per unit time are the amount of circulating water of the water jet compressor and the discharge amount of compressed air per unit time. The amount of water stored in the container may be set to be smaller than the amount of air supplied into the container per unit time with respect to a value scaled down at a ratio equivalent to the ratio.

  According to this, it is possible to shorten the time from the foaming of water to the judgment. It is also possible to further reduce the size of the container used.

Further, the present invention provides a means for solving the above-described problems,
An installation environment evaluation device for a water jet compressor that compresses inhaled air together with circulating water that is circulated and reused,
A container for containing water;
In the container, an air supply unit that compresses and supplies the air at the planned installation location or installation location of the water jet compressor, and vents the contained water,
With
The said container is comprised so that the bubbling state of the accommodated water can be visually recognized from the outside.

  According to this configuration, the air supply unit sucks and compresses the air at the planned installation location or installation location of the water jet compressor, supplies the air into the container, allows the stored water to vent, and from the outside of the container, Just by visually recognizing the bubbling state, it is possible to determine whether the air condition in the installation environment is good or bad (good or bad installation environment). That is, it is possible to easily and inexpensively grasp whether or not a surface active substance is contained in the air without using a water jet compressor.

The amount of water stored in the container and the amount of air supplied to the container per unit time are planned to be installed, or the amount of circulating water in the water jet compressor that is installed And a value that is scaled down at a ratio equivalent to the ratio of the compressed air discharge rate per unit time,
It is preferable that the container has a size capable of accommodating a set amount of water and confirming a foamed state.

  According to this configuration, the installation environment can be evaluated under conditions corresponding to the circulating water in the water jet compressor.

The amount of water stored in the container and the amount of air supplied into the container per unit time, the amount of circulating water of the water jet compressor, and the discharge amount of compressed air per unit time The amount of water stored in the container is set to be smaller than the amount of air supplied into the container per unit time with respect to a value scaled down at a ratio equivalent to the ratio of
It is even more preferable that the container has a size that can accommodate a set amount of water and can confirm a foamed state.

  According to this configuration, it is possible to determine foaming as a stable state in a short time by suppressing the amount of water stored in the container.

  According to the present invention, whether or not a surface active substance is contained in the air simply by supplying the air at the planned installation location of the water jet compressor or the air at the installation location into a container containing water and allowing the air to vent. I can understand. Further, since it is only necessary to supply air to the container, it is possible to easily and inexpensively evaluate the installation environment without using a water jet compressor.

It is the schematic which shows the installation environment evaluation apparatus of the water injection type compressor which concerns on this embodiment.

  Embodiments according to the present invention will be described below with reference to the accompanying drawings.

  FIG. 1 is a schematic diagram showing an installation environment evaluation apparatus for a water jet compressor according to this embodiment. The installation environment evaluation apparatus includes a container 1 that can store water, a tube 2 that communicates the inside and outside of the container 1, and an air pump 3 that sends air into the container 1 through the tube 2.

  The container 1 is capable of containing water, and has a bottomed cylindrical shape having a configuration in which water stored from outside, specifically, a state after air has been vented as will be described later, can be viewed from the outside. For the container 1, for example, a PET bottle made of polyethylene terephthalate (PET) having an inner volume of 2 liters or less and having translucency can be used. However, other resin materials other than this, and other materials such as glass can also be used. Moreover, even if it is material which does not have translucency, such as wooden and metal, it can be used if it comprises so that the inside can be visually recognized by forming a window etc. except. Moreover, the cross-sectional shape of the container 1 is not limited to a circle, and may be a polygon or the like. In short, any configuration may be used as long as water is contained and a foamed state can be visually recognized from the outside.

  The tube 2 may be made of an inflexible material such as a glass tube in addition to a flexible material such as vinyl or rubber, and the cross-sectional shape thereof can be freely set. The tube 2 is inserted into the container 1 and attached so that the tip opening is immersed in the water accommodated in the container 1.

The air pump 3 only needs to be able to supply several liters to several tens of liters of compressed air per minute, and is widely used for ornamental fish, household, medical instruments, health instruments, industrial machines, and the like. Small ones can be used.
Here, the air supply unit according to the present invention is configured by the air pump 3 and the tube 2 connected thereto.

The installation environment evaluation apparatus having the above configuration is used as follows.
That is, the air pump 3 is arranged so that air can be sucked from the installation planned location or installation location of the water jet compressor which is the installation environment. The tube 2 is connected to the air pump 3, and the distal end portion is inserted into the container 1. Water is accommodated in the container 1, and the tube 2 is positioned with respect to the container 1 so that the tip of the inserted tube 2 is located in the water.

  Then, the air pump 3 is driven to suck air from the planned installation location or the installation location, and is supplied into the container 1 through the tube 2. At this time, the amount of water accommodated in the container 1 and the amount of air supplied through the tube 2 are set as follows. That is, the ratio of the amount of circulating water of a water jet compressor that is planned to be installed or installed and the discharge amount per unit time that is compressed and discharged by this water jet compressor (compressed water / The ratio of the amount of water stored in the container 1 to the discharge air ratio) and the ratio of the amount of air supplied into the container 1 through the tube 2 per unit time are the same and are downsized. And Thereby, the size of the container 1 can be suppressed and the portability can be improved.

  The driving of the air pump 3 continues for a predetermined time (here, 5 hours) (aeration step). Thereafter, the container 1 is shaken. The foaming state is promoted by shaking the container 1 like a shaker (foaming promotion step). Although the foaming can be promoted by shaking the container 1, this foaming promotion step is not always necessary. Then, the foaming state in the container 1 is confirmed visually (confirmation step).

  When the surfactant supplied in the air supplied into the container 1 does not contain a surface active substance, large bubbles are generated in the water even if it is ventilated (aerated), and then the bubbles are immediately shed and disappear. On the other hand, when a surface active substance is contained in the air supplied into the container 1 and is dissolved in the water in the container 1, numerous countless bubbles are formed in layers on the water surface.

  Therefore, the user can easily determine whether or not a surfactant is contained in the sucked air depending on whether or not the water in the container 1 is a bubble.

  In addition, if another container containing air and water (same as water contained in the container 1) containing no surfactant is prepared in advance, foaming is caused when the surfactant is dissolved in water. The state comparison can be performed more reliably. Specifically, when comparing, shake the container like a shaker to reproduce the state after the air that does not contain the surface active substance is passed through the water (a state where large bubbles are generated and repelled). This can be used as a comparison target.

  The present invention is not limited to the configuration described in the embodiment, and various modifications can be made.

  For example, in the said embodiment, the quantity of the water accommodated in the container 1 and the quantity of the air per unit time supplied there are ratio of the compressed water of a water-injection type compressor, and the discharge air per unit time. However, the amount of water stored in the container 1 may be made smaller than this value. According to this, even when the driving time of the air pump 3 is set to a short time (for example, 1 hour with respect to the above-mentioned 5 hours), it is possible to confirm the bubbling state due to the dissolution of the surfactant. In other words, if it is desired to make the determination under the same conditions as the water jet compressor that is planned to be installed or is installed, the amount of water stored in the container 1 may be kept at the downsized value. When it is desired to make a determination in a short time, the value may be less than the downsized value.

  Further, before the compressor is installed, the foaming promotion step and the confirmation step may be performed in a plurality of times within the time during which the ventilation step is continued. According to this, at the time when foaming is confirmed, the confirmation work can be completed without waiting for a predetermined time for continuing the initially set ventilation step. In addition, after the installation of the water injection compressor, while the water injection compressor is operating, the ventilation step is continued, and the confirmation step, or the foaming promotion step and the confirmation step are repeated a plurality of times during the continuous period. You may make it carry out by dividing into. According to this, the presence or absence of the change of the installation environment after installation can be grasped | ascertained continuously. As described above, the present invention can easily grasp on the spot whether or not a surface active substance that causes foaming in the circulating water of the water jet compressor is included in the air in the installation environment. Is also extremely useful.

DESCRIPTION OF SYMBOLS 1 ... Container 2 ... Tube 3 ... Air pump

Claims (8)

A ventilation step of supplying the air at the planned installation location or the installation location of the water jet compressor that compresses the sucked air together with the circulating water to be circulated and reused into a container containing water, and venting the water;
A confirmation step for confirming the bubbling state of the water;
The installation environment evaluation method of the water-injection compressor characterized by including this.   The installation environment evaluation of the water jet type compressor according to claim 1, further comprising a foaming promotion step for promoting a foaming state of water in the container after the ventilation step and before the confirmation step. Method.   The water jet compressor according to claim 1 or 2, wherein the water in the container is the same as that to be used as the circulating water or the water used as the circulating water. Installation environment evaluation method.   The amount of water stored in the container and the amount of air supplied to the container per unit time are the amount of circulating water of the water jet compressor that is planned to be installed or is installed. The water jet according to any one of claims 1 to 3, wherein the water jet is set to a value scaled down at a ratio equivalent to a ratio between the compressed air and a discharge amount per unit time of compressed air. Method for evaluating the installation environment of a compressor.   The amount of water stored in the container and the amount of air supplied into the container per unit time are the amount of circulating water of the water jet compressor and the discharge amount of compressed air per unit time. The amount of water stored in the container is set to be smaller than the amount of air supplied into the container per unit time with respect to a value scaled down at a ratio equivalent to the ratio of The installation environment evaluation method for the water-jet compressor according to any one of claims 1 to 3. An installation environment evaluation device for a water jet compressor that compresses inhaled air together with circulating water that is circulated and reused,
A container for containing water;
In the container, an air supply unit that compresses and supplies the air at the planned installation location or installation location of the water jet compressor, and vents the contained water,
With
An installation environment evaluation device for a water-jet compressor, wherein the container is configured so that a bubbled state of the contained water can be visually recognized from the outside. The amount of water stored in the container and the amount of air supplied to the container per unit time are planned to be installed, or the amount of circulating water in the water jet compressor that is installed And a value that is scaled down at a ratio equivalent to the ratio of the compressed air discharge rate per unit time,
The installation environment evaluation device for a water-jet compressor according to claim 6, wherein the container has a size capable of accommodating a set amount of water and confirming a bubbling state. The amount of water stored in the container and the amount of air supplied into the container per unit time, the amount of circulating water of the water jet compressor, and the discharge amount of compressed air per unit time The amount of water stored in the container is set to be smaller than the amount of air supplied into the container per unit time with respect to a value scaled down at a ratio equivalent to the ratio of
The installation environment evaluation device for a water-jet compressor according to claim 6, wherein the container has a size capable of accommodating a set amount of water and confirming a bubbling state.