CN220245609U - Marine sea water desulfurization discharge water detects stationary flow edulcoration bubble edulcoration device - Google Patents

Abstract

The utility model relates to the field of water quality detection of seawater desulfurization discharge water, and discloses a steady-flow bubble and impurity removing device for detecting marine seawater desulfurization discharge water. When the water sample is conveyed into the steady flow bubble removal impurity remover, the water sample can be stabilized, the internal impurity particles are precipitated, and the bubbles in the water sample can escape for a sufficient time, so that the accuracy is higher when the water sample is detected by the water quality detector.

Description

Marine sea water desulfurization discharge water detects stationary flow edulcoration bubble edulcoration device

Technical Field

The utility model relates to the field of water quality detection of seawater desulfurization discharge water, in particular to a steady flow defoaming and impurity removing device for marine seawater desulfurization discharge water detection.

Background

The seawater has a certain alkalinity, a large amount of seawater is sprayed from top to bottom in the desulfurizing tower, and contacts with the flue gas from bottom to top in a countercurrent way, SO that a strong chemical absorption reaction occurs, and the flue gas SO is completed ₂ And (5) removing. The seawater resource is abundant, the seawater is convenient to take, the seawater is inexhaustible, and the seawater flue gas desulfurization technology is generally adopted for the marine ocean navigation ship flue gas treatment. The technology has the advantages of low investment and operation cost, convenient operation and management, high desulfurization efficiency and the like.

The desulfurized seawater is detected by a water quality detector, and is discharged into the sea after meeting the discharge standard. In operation practice, the stability and accuracy of detection data are greatly influenced by factors such as water flow speed, bubbles and impurities in a water sample and the like, and the measurement data are easily distorted by the detection of the water quality detector matched with the marine desulfurization device drainage system.

In document CN 210261195U, a bubble remover is disclosed, which comprises a tank body, wherein the upper end of the tank body is communicated with a water inlet, the lower end of the tank body is communicated with a first water outlet, the bottom of the tank body is communicated with a second water outlet, the top of the tank body is communicated with an air outlet, the upper part of the tank body is communicated with a third water outlet, the upper part of the tank body is filled with water, the lower part of the tank body is discharged with water, the retention time of a water sample in the bubble remover is short, and the bubble removal and impurity removal effects are poor. The manual valve is arranged at the top of the bubble remover, the valve is required to be opened manually and regularly for exhausting, the automation degree is low, and the operation and management are inconvenient.

For this reason, a new solution is needed to solve the above technical problems.

Disclosure of Invention

In order to solve the problems, the utility model discloses a steady flow bubble and impurity removing device for detecting marine seawater desulfurization discharge water, which has the advantages that the pressure difference in the steady flow bubble and impurity removing device is balanced, the retention time of an internal water sample is longer, the steady flow effect can be achieved, and bubbles can be detected after more time escapes.

The technical scheme of the utility model is as follows: the utility model provides a marine sea water desulfurization discharge water detects stationary flow edulcoration bubble edulcoration device, includes stationary flow bubble edulcoration ware, electric control valve, bottom inlet tube, breather valve and sampling valve, and stationary flow bubble edulcoration ware bottom is the toper, and stationary flow bubble edulcoration ware passes through water inlet and upper portion overflow pipe and is connected with desulfurizing tower bottom drainage house steward, and stationary flow bubble edulcoration ware passes through outlet pipe and water quality detector connection, and water quality detector one side is equipped with the drain pipe.

Through adopting above-mentioned technical scheme, can get rid of bubble and impurity etc. in the sea water, when the sea water enters into in the water quality testing appearance, the sea water sample that receives is more accurate and stable, improves the accuracy of detection.

Preferably, the top of the steady flow bubble removal impurity remover is provided with a breather valve, one end of the water inlet pipe is positioned at the bottom of the steady flow bubble removal impurity remover, the other end of the water inlet pipe is connected with the water draining main pipe, and the overflow pipe is positioned at the side edge of the steady flow bubble removal impurity remover.

Through adopting above-mentioned technical scheme, the breather valve can distribute away the bubble in the sea water from the stationary flow removes bubble edulcoration ware, reduces inside atmospheric pressure and bubble, and the inlet tube is got into the water in the main drainage pipe from the stationary flow removes bubble edulcoration ware bottom, and the overflow pipe is discharged the water of stationary flow removes bubble edulcoration ware top and is got into the sea again in the main drainage pipe.

Preferably, the lower parts of the two sides of the steady flow bubble removal impurity remover are provided with supports, and the supports are positioned on the two sides of the overflow pipe.

By adopting the technical scheme, the support can be used for installing and fixing the steady flow bubble and impurity removing device and other parts.

Preferably, the overflow pipe is connected with a main drainage pipe at the bottom of the desulfurization tower, and the water outlet pipe is positioned on the side wall of the steady flow bubble removal impurity remover below the overflow pipe.

Through adopting above-mentioned technical scheme, when the water level in the stationary flow removes bubble edulcoration ware is too high, will stationary flow remove bubble edulcoration ware in water through the overflow pipe and pass through the drainage main pipe and arrange the sea, the outlet pipe is earlier with stationary flow remove bubble edulcoration ware in water quality testing appearance, then the overflow pipe discharges.

Preferably, a manual valve and a sampling valve are arranged between the water outlet pipe and the water quality detector, and the sampling valve is positioned close to the water quality detector.

Through adopting above-mentioned technical scheme, the inflow of water quality testing appearance can be adjusted to the manual valve, when water quality testing appearance needs to carry out equipment maintenance, can close the manual valve, overhauls equipment, and the sampling valve is used for regularly taking the water sample to carry out quality of water contrast detection.

Preferably, the drain pipe is connected with the drain header pipe through a drain valve, and the water quality detector is positioned below the overflow pipe.

Through adopting above-mentioned technical scheme, after the drain valve is opened, the water in the water quality testing appearance can be through the drain pipe in the drain header pipe, then discharge to the sea, manual valve is closed, and the drain valve is opened, and the water sample in the water quality testing appearance can be emptied, makes things convenient for equipment maintenance.

Preferably, an electric regulating valve is arranged at the position of the water draining main pipe below the water inlet pipe, and the tail end of the water draining main pipe stretches into the sea water by less than 1.5 m.

By adopting the technical scheme, when the system is shut down, the electric regulating valve is opened, and water samples and impurities in the steady-flow bubble removal impurity remover are emptied by the drainage main pipe at the bottom of the desulfurization tower.

Preferably, the bottom of the steady flow bubble and impurity removing device is downwards conical, and the cross section of the steady flow bubble and impurity removing device is 800-900 times of the cross section of the water inlet pipe at the bottom.

Through adopting above-mentioned technical scheme, when the sea water flows into the stationary flow and removes bubble edulcoration ware like this, the sea water can be stored in the stationary flow removes bubble edulcoration ware, and inside velocity of flow slows down, has the effect of stationary flow, and the dwell time of sea water is prolonged, and the bubble has enough time to escape in the edulcoration ware.

The utility model has the advantages that: 1. according to the utility model, the bottom of the steady flow bubble removal impurity remover is provided with the downward cone, so that when the water is discharged into the steady flow bubble removal impurity remover by the water discharge main pipe, a part of particle impurities can be precipitated, and the particle impurities just precipitated at the bottom of the cone are convenient to drain in later period.

2. The breather valve at the top of the steady flow bubble removal impurity remover discharges bubbles escaped from the water sample, so that gas-liquid separation can be realized, the pressure in the steady flow bubble removal impurity remover is reduced, the internal pressure and the external pressure are consistent, manual operation is not needed, and the method is simple and convenient, and reduces manual work.

3. According to the utility model, when the water sample is conveyed into the steady flow bubble removal impurity remover, the water sample has enough stay time, so that the water sample can be stabilized, the internal impurity particles are precipitated, and the bubbles in the water sample can escape for enough time, and the accuracy is higher when the water sample is detected by the water quality detector.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of the steady flow bubble and impurity removing device of the present utility model;

FIG. 3 is an enlarged schematic view of the portion A of FIG. 2 according to the present utility model;

FIG. 4 is a schematic top view of the steady flow bubble and impurity removing device of the present utility model.

Wherein: 1. a water drain header; 1-1, an electric regulating valve; 2. steady flow bubble and impurity removing device; 2-1, a water inlet pipe; 2-2, overflow pipe; 2-3, a breather valve; 2-4, a support; 3. a water outlet pipe; 3-1, a manual valve; 3-2, a sampling valve; 4. a water quality detector; 5. a drain pipe; 5-1, a drain valve.

Description of the embodiments

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in figures 1-4, the steady flow bubble and impurity removing device for detecting marine seawater desulfurization discharge water comprises a steady flow bubble and impurity removing device 2, an electric regulating valve 1-1, a bottom water inlet pipe 2-1, a breather valve 2-3 and a sampling valve 3-2, wherein the bottom of the steady flow bubble and impurity removing device 2 is conical, impurity particles can be precipitated into the conical interior, when the electric regulating valve 1-1 is opened, the impurity particles can just be discharged along with water flow, the steady flow bubble and impurity removing device 2 is connected with a water discharging main pipe 1 at the bottom of a desulfurization tower through a water inlet and an upper overflow pipe 2-2, the steady flow bubble and impurity removing device 2 is connected with a water quality detector 4 through a water outlet pipe 3, a water discharging pipe 5 is arranged at one side of the water quality detector 4, bubbles, impurities and the like in seawater can be removed, and when the seawater enters the water quality detector 4, a collected seawater sample is more accurate and stable, and the detection accuracy is improved.

The top of the steady flow bubble and impurity removing device 2 is provided with a breather valve 2-3, one end of a water inlet pipe 2-1 is positioned at the bottom of the steady flow bubble and impurity removing device 2, the other end of the water inlet pipe is connected with a water draining main pipe 1, an overflow pipe 2-2 is positioned at the side edge of the steady flow bubble and impurity removing device 2, the breather valve 2-3 can emit bubbles in seawater from the steady flow bubble and impurity removing device 2, internal air pressure and bubbles are reduced, the water in the water draining main pipe 1 is discharged from the bottom of the steady flow bubble and impurity removing device 2 through the water inlet pipe 2-1, and the uppermost water of the steady flow bubble and impurity removing device 2 is discharged into the water draining main pipe 1 and then discharged into the sea through the overflow pipe 2-2.

The lower parts of the two sides of the steady flow bubble and impurity removing device 2 are provided with the supports 2-4, the supports 2-4 are positioned on the two sides of the overflow pipe 2-2, and the supports 2-4 can be used for installing and fixing the steady flow bubble and impurity removing device 2 and other parts.

The overflow pipe 2-2 is connected with the drainage header pipe 1 at the bottom of the desulfurization tower, the water outlet pipe 3 is positioned on the side wall of the steady flow bubble and impurity removing device 2 below the overflow pipe 2-2, when the water level in the steady flow bubble and impurity removing device 2 is too high, water in the steady flow bubble and impurity removing device 2 is discharged into the sea through the drainage header pipe 1 by the overflow pipe 2-2, and the water in the steady flow bubble and impurity removing device 2 is firstly discharged into the water quality detector 4 by the water outlet pipe 3 and then discharged through the overflow pipe 2-2.

A manual valve 3-1 and a sampling valve 3-2 are arranged between the water outlet pipe 3 and the water quality detector 4, the sampling valve 3-2 is positioned at a position close to the water quality detector 4, the water outlet pipe 5 is connected with the water outlet header pipe 1 through the water outlet valve 5-1, and the water quality detector 4 is positioned below the overflow pipe 2-2. The manual valve 3-1 can adjust the inflow of water quality testing appearance 4, when water quality testing appearance 4 needs to carry out the equipment maintenance, can close manual valve 3-1, overhaul equipment, sampling valve 3-2 is used for regularly taking the water sample and carries out quality of water contrast detection, after drain valve 5-1 opens, the water in the water quality testing appearance 4 can be through drain pipe 5 in arranging drain manifold 1, manual valve 3-1 closes, drain valve 5-1 opens, the water sample in the water quality testing appearance 4 can be emptied, the convenient equipment maintenance.

An electric regulating valve 1-1 is arranged at the position of the water draining main pipe 1 below the water inlet pipe 2-1, the tail end of the water draining main pipe 1 stretches into the sea water below 1.5m, when the system is stopped, the electric regulating valve 1-1 is opened, and water samples and impurities in the steady-flow bubble removal impurity remover 2 are emptied by the water draining main pipe 1 at the bottom of the desulfurizing tower.

The bottom of the steady flow bubble and impurity removing device 2 is downwards conical, the cross section of the steady flow bubble and impurity removing device is 800-900 times of the cross section of a water inlet pipe at the bottom, so that when seawater flows into the steady flow bubble and impurity removing device, the seawater can be stored in the steady flow bubble and impurity removing device, the internal flow velocity is slow, the steady flow effect is achieved, the stay time of the entered seawater in the steady flow bubble and impurity removing device 2 is long due to the large cross section area, the stay time can be 15-20min, and thus the bubbles have enough time to escape from the impurity removing device.

Working principle: the water sample is conveyed into the steady flow bubble and impurity removing device 2 from the water inlet pipe 2-1 by the water draining main pipe 1 at the bottom of the desulfurizing tower, then the cross section area of the steady flow bubble and impurity removing device 2 is larger, after seawater enters, the steady flow bubble and impurity removing device can be stored for a certain time, the steady flow effect is achieved, when the water level becomes high, the water enters the water quality monitoring instrument 4 from the water outlet pipe 3, water quality detection is carried out, when the water level reaches the height of the overflow pipe 2-2, the water enters the water draining main pipe 1 from the overflow pipe 2-2 and is drained into the sea, after the detection of the water quality detection instrument 4 is finished, the water draining valve 5-1 is opened, the water enters the water draining main pipe 1 from the water draining tank 5 and is drained into the sea, and when the maintenance is needed, the electric regulating valve 1-1 can be opened, and therefore the water in the steady flow bubble and impurity removing device 2 can be drained into the sea.

It will be appreciated by persons skilled in the art that the embodiments of the utility model described above and shown in the drawings are by way of example only and not limitation, and that the objects of the utility model have been fully and effectively achieved. The functional and structural principles of the present utility model have been shown and described in the examples and embodiments of the utility model may be modified or practiced without departing from the principles described.

Claims (8)

1. The utility model provides a marine sea water desulfurization discharge water detects stationary flow edulcoration device of bubble removal, includes stationary flow bubble removal edulcoration ware, electric control valve, bottom inlet tube, breather valve and sampling valve, its characterized in that: the bottom of the steady flow bubble and impurity removing device is conical, the steady flow bubble and impurity removing device is connected with a drainage main pipe at the bottom of the desulfurization tower through a water inlet and an overflow pipe at the upper part, the steady flow bubble and impurity removing device is connected with a water quality detector through a water outlet pipe, and a drainage pipe is arranged on one side of the water quality detector.

2. The marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device according to claim 1, wherein the marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device is characterized in that: the top of the steady flow bubble removal impurity remover is provided with a breather valve, one end of the water inlet pipe is positioned at the bottom of the steady flow bubble removal impurity remover, the other end of the water inlet pipe is connected with the water draining main pipe, and the overflow pipe is positioned at the side edge of the steady flow bubble removal impurity remover.

3. The marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device according to claim 1, wherein the marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device is characterized in that: the lower parts of two sides of the steady flow bubble removal impurity remover are provided with supports, and the supports are positioned on two sides of the overflow pipe.

4. The marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device according to claim 1, wherein the marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device is characterized in that: the overflow pipe is connected with a water draining main pipe at the bottom of the desulfurization tower, and the water outlet pipe is positioned on the side wall of the steady flow bubble removal impurity remover below the overflow pipe.

5. The marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device according to claim 1, wherein the marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device is characterized in that: a manual valve and a sampling valve are arranged between the water outlet pipe and the water quality detector, and the sampling valve is positioned close to the water quality detector.

6. The marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device according to claim 1, wherein the marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device is characterized in that: the drain pipe is connected with the drain header pipe through the drain valve, and the water quality detector is located below the overflow pipe.

7. The marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device according to claim 1, wherein the marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device is characterized in that: the electric regulating valve is arranged at the position of the water draining main pipe below the water inlet pipe, and the tail end of the water draining main pipe stretches into seawater by less than 1.5 m.

8. The marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device according to claim 1, wherein the marine seawater desulfurization discharge water detection steady flow defoaming and impurity removal device is characterized in that: the bottom of the steady flow bubble and impurity removing device is downwards conical, and the cross section of the steady flow bubble and impurity removing device is 800-900 times of the cross section of the water inlet pipe at the bottom.