JPH11287592A - Cooling tower plant - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce a total discharge quantity of blow water by recycling the blow water discharged from the other plural cooling towers except one part of cooling towers as supply water for the one part of the cooling towers. SOLUTION: The cooling tower plant comprises a blow water-supplying pipeline 4 for supplying blow water discharged from the other cooling towers 3A-3C to one part of cooling towers 3D as supply water 11, a blow water- treating apparatus 5 for treating the blow water to a state adaptable to the supply water 11, and a blow water-inspecting apparatus 6 for inspecting the adaptation of the blow water to the supply water 11. The blow water-supplying pipeline 4 is branched via a switching valve 7 and includes a switching pipeline 4A combining into the downstream side. A blow water-heating apparatus 5 is provided through the switching pipeline 4A, and a blow water-inspecting apparatus 6 is provided through the blow water-supplying pipeline 4 between a combined point of the switching pipeline 4A and the one part of the cooling towers 3D.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cooling tower plant, and more particularly to a cooling tower plant provided with a plurality of cooling towers used for cooling chemical facilities and the like, excluding some of the cooling towers. The present invention relates to a cooling tower plant capable of reducing the total discharge amount of blow water by reusing blow water discharged from a plurality of other cooling towers as makeup water for some of the cooling towers.

[0002]

2. Description of the Related Art A cooling tower (cold water tower) is used for cooling various chemical equipment such as a reactor equipped with a heat exchanger and a distillation tower. This cooling tower is configured by forming a cooling water circulation pipe between the heat exchanger and the circulating cooling water deprived of heat from the heat exchanger and brought into direct contact with air to evaporate a part thereof, The circulating cooling water is efficiently cooled by the latent heat of evaporation.

[0003] The above-mentioned cooling tower is usually supplied with river water in order to supplement the evaporation of the circulating cooling water. The river water contains salts such as calcium and magnesium, SiO _{2 and the} like. I have. Further, various water treatment chemicals such as a corrosion inhibitor and a scale inhibitor are added to the circulating cooling water for the purpose of corrosion prevention, scale prevention and slime adhesion prevention.

[0004] The salts, SiO ₂ , water treatment agent and the like are sequentially concentrated as the circulating cooling water evaporates. Then, when the salts and SiO ₂ are concentrated, they cause scale generation and lower the heat exchange efficiency of the cooling tower. Further, when the water treatment chemical is concentrated to a predetermined concentration or more, the original water treatment effect cannot be exhibited. So, in the cooling tower,
A part of the concentrated circulating cooling water is discharged as blow water, and river water and water treatment chemicals are supplied in amounts corresponding to the discharged water.

[0005]

By the way, since the blow water discharged from the cooling tower contains various water treatment chemicals, it cannot be discarded as it is and must be subjected to a predetermined waste water treatment. For this reason, when a large number of cooling towers are used, there is a problem that the cost of drainage processing of blow water is increased, and it is desired to reduce the total amount of blow water to be discarded.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has as its object to reduce blow water discharged from a plurality of cooling towers other than some of the cooling towers. An object of the present invention is to provide a cooling tower plant capable of reducing the total discharge amount of blow water by reusing it as makeup water.

[0007]

The inventor of the present invention has conducted intensive studies to reduce the total amount of blow water discharged from a plurality of cooling towers, and as a result, collected blow water discharged from each cooling tower.
The present inventors have found that if the dirt and corrosion state of the blow water are appropriately managed, the blow water discharged can be reused as makeup water for another cooling tower, and the total discharge amount of the blow water can be reduced. Was completed.

That is, the gist of the present invention is to provide a cooling tower plant having a plurality of cooling towers each having a cooling water circulation pipe formed between the cooling tower and a heat exchanger. A blow water replenishment pipe that supplies blow water discharged from the base cooling tower as make-up water, and a blow water treatment device that treats blow water flowing through the blow water replenishment pipe in a state suitable for make-up water, A blow water inspection device for inspecting suitability of the blow water flowing through the blow water supply line as makeup water, wherein the blow water supply line branches via a switching valve and joins downstream thereof. The blow water treatment device is interposed in the switch line, and the blow water inspection device is provided in the blow water supply line between a junction of the switch line and some of the cooling towers. It is located in an interposed cooling tower plant.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A cooling tower plant according to the present invention will be described below with reference to the drawings. FIG. 1 is a piping diagram schematically showing a piping configuration of a cooling tower plant.

The cooling tower plant according to the present invention comprises a plurality of cooling towers (3A) to (3D) having a cooling water circulation pipe (2) between the heat exchanger (1) and the cooling tower. A blow water supply pipe line (4) for supplying blow water discharged from another plurality of cooling towers (3A) to (3C) to some cooling towers (3D) as makeup water; A blow water treatment device (5) for treating blow water flowing through the blow water supply pipe (4) into a state suitable for makeup water, and a blow water supply water as blow water flowing through the blow water supply pipe (4). A blow water inspection device (6) for inspecting compatibility. The blow water supply pipe (4) has a switching pipe (4A) that branches through the switching valve (7) and joins the downstream side of the switching pipe (4A). A device (5) is interposed, and the junction of the switching pipe (4A) and the cooling tower (3D)
A blow water inspection device (6) is interposed in the blow water replenishment pipe (4).

The heat exchanger (1) is, for example, a heat exchanger installed in a chemical plant such as a reactor or a distillation column. This heat exchanger (1) and each cooling tower (3A) to (3D)
A cooling water circulation pump (P) is interposed in each of the cooling water circulation pipes (2).

In the cooling water circulation line (2) between the cooling tower (3D) and the heat exchanger (1), the cooling tower (3D)
A switching pipe (2) that branches off from the pipe to the heat exchanger (1) via the switching valve (8) and merges downstream therefrom.
A) is provided. And this switching pipeline (2A)
Is provided with a circulating water treatment device (9) similar to the blow water treatment device (5), and a cooling water circulation line between the junction of the switching line (2A) and the heat exchanger (1). (2) includes a circulating water inspection device (1) similar to the blow water inspection device (6).
0) is interposed.

Each of the cooling towers (3A) to (3D) has a casing in which a fan is installed at an upper portion and a ventilation opening is opened at a side surface. A sprinkler is installed at the upper stage in the casing, a cooler is installed at the middle stage, and a sink for cooling water is installed at the lower stage. And the cooling tower (3A) ~
The starting end of the cooling water circulation pipe (2) is connected to the receiving tray of (3D), and the end is connected to a sprinkler.

The casings of the cooling towers (3A) to (3D) for injecting various water treatment chemicals such as a corrosion inhibitor and a scale inhibitor into the cooling water circulating in each of the cooling water circulation pipes (2). Are connected to a chemical tank (12) via a chemical pipe (11), respectively. A pump (P) for sending a chemical solution is interposed in each of the chemical solution pipes (11).

Further, in order to discharge the concentrated blow water in each of the cooling towers (3A) to (3D), each of the cooling towers (3A)
Blow water discharge pipelines (13) are connected to the trays in (3D). A pump (P) for discharging blow water is interposed in each blow water discharge pipe (13). The blow water discharge line (13)
May be connected to the upstream side of the cooling water circulation line (2) via a blow control valve.

Further, in order to supply cooling water to the other cooling towers (3A) to (3C) except for the cooling tower (3D), a casing of each of the cooling towers (3A) to (3C) has a makeup water pipe. The branch pipes (14A) to (14D) of (14) are connected respectively. And each branch pipe (14A)-(1
4D), a pump (P) for supplying makeup water is interposed.

The blow water supply pipe (4) is connected to blow water discharge pipes (10) of the other cooling towers (3A) to (3C) except for the cooling tower (3D). The end of the blow water supply pipe (4) is connected to a casing of the cooling tower (3D).

The blow water treatment device (5) and the circulating water treatment device (9) are specifically constituted by a filtration filter device, a water treatment chemical device, or a device using both of them. On the other hand, the blow water inspection device (6) and the circulating water inspection device (10) are specifically composed of a corrosion measuring device and a dirt measuring device.

The corrosion measuring device as the blow water inspection device (6) and the circulating water inspection device (10) is not particularly limited as long as the corrosion state of the blow water can be measured. An apparatus using a measuring method (polarization resistance method, impedance method, electric resistance method, electrochemical noise method, etc.) is preferably used. The corrosion measuring apparatus using the electrochemical noise method measures a coupling current between a plurality of electrodes immersed in blow water, electrochemical current noise, electrochemical potential noise, and the like.

On the other hand, the dirt measuring devices as the blow water inspection device (6) and the circulating water inspection device (10) circulate blow water through a built-in tube, and heat the outside of the tube by a heater to blow water. Measure the heat transfer status.

The measurement data of the corrosion measuring device or the measurement data of the dirt measuring device using the electrochemical noise method is sent to, for example, a personal computer (15). The personal computer (15) processes the measurement data according to its hardware configuration and program software stored on a hard disk as hardware. And this personal computer (15) is based on the measurement data of a corrosion measuring device,
The corrosion rate (corrosion rate) and the type of corrosion are determined and displayed on a monitor screen. Similarly, a dirt coefficient is calculated based on the measurement data of the dirt measuring device and displayed on a monitor screen.

The switching valves (7) and (8) are manual switching type or electromagnetic switching type three-way switching valves. In the case of an electromagnetic switching valve, the switching operation can be performed in accordance with the output signal of the personal computer (15).

In the cooling tower plant of the present invention, when blow water is discharged from each of the other cooling towers (3A) to (3C) except the cooling tower (3D) through each blow water discharge pipe (13). Then, the blow water is collected by the blow water supply pipe (4) and supplied to the cooling tower (3D) as make-up water. that time,
A blow water inspection device (6) inspects the suitability of the blow water flowing through the blow water supply pipe (4) as makeup water, that is, a corrosion state or a dirt state. Then, the inspection result is displayed on the monitor screen of the personal computer (15), for example, as a corrosion rate, a corrosion form, or a dirt coefficient.

If the blow water supplied to the cooling tower (3D) lacks compatibility as makeup water, the switching valve (7) is operated to change the blow water supply line (4). Switch to (4A) side. Then, the blow water treatment device (5) filters the blow water flowing through the switching pipe (4A) or adds a water treatment chemical to the blow water to process the blow water into a state suitable for makeup water.

On the other hand, in the cooling water circulation pipe (2) between the cooling tower (3D) and the heat exchanger (1), the cooling tower (3D)
The circulating water inspection device (10) inspects the state of corrosion or dirt of the circulating cooling water flowing from D) to the heat exchanger (1).
Then, the inspection result is displayed on the monitor screen of the personal computer (15) as a corrosion rate, a corrosion form, or a dirt coefficient, as described above.

Therefore, if the circulating cooling water supplied from the cooling tower (3D) to the heat exchanger (1) lacks compatibility, the switching valve (8) is operated to switch the cooling water circulating pipe (2). Switch to the switching pipe (2A) side. Then, the circulating water treatment device (9) filters the circulating cooling water flowing through the switching pipe (2A), or adds a water treatment agent to treat the circulating cooling water to a suitable state. In this case, the switching valve (7)
To switch the blow water supply line (4) to the switching line (4A).
The blow water supplied to the cooling tower (3D) as make-up water may be processed by the blow water treatment device (5) to a state suitable for make-up water.

According to the cooling tower plant of the present invention, blow water discharged from a plurality of cooling towers (3A) to (3C) can be reused as makeup water for some of the cooling towers (3D). . As a result, the total amount of blow water discharged from the entire cooling tower plant can be reduced. As a result, it is possible to reduce the wastewater treatment cost of blow water and reduce the amount of makeup water used.

The blow water treatment device (5) is interposed in the switching pipe (4A) of the blowing water supply pipe (4), and a part of the blow water flowing through the switching pipe (4A). Since only processing is required, the size of the apparatus can be reduced.

In the cooling tower plant of the present invention, instead of providing the switching valve (7) in the blow water supply pipe (4), a flow control valve may be provided in the switching pipe (4A). . In this case, the opening of the flow control valve is adjusted according to the degree of suitability of the blow water supplied to some of the cooling towers (3D) as makeup water.

Further, in the cooling tower plant of the present invention,
The circulating water treatment device (9) and the circulating water inspection device (10) provided in the cooling water circulation line (2) between some of the cooling towers (3D) and the heat exchanger (1) are not necessarily required. not,
It can be omitted as appropriate.

[0031]

As described above, according to the cooling tower plant of the present invention, the blow water supply pipe collects blow water discharged from a plurality of cooling towers other than some of the cooling towers. Supply water to some cooling towers. At this time, the blow water inspection device checks the suitability of the blow water supplied to some of the cooling towers as makeup water. When the blow water lacks compatibility as makeup water, the blow water treatment device switches the blow water supply line to the switching line side by operating the switching valve, and the blow water treatment device converts the blow water flowing through the switching line into makeup water. Process to a suitable state.

That is, according to the cooling tower plant of the present invention, blow water discharged from a plurality of cooling towers other than some of the cooling towers can be reused as makeup water for some of the cooling towers. As a result, the total amount of blow water discharged from the entire cooling tower plant can be reduced. As a result, it is possible to reduce the wastewater treatment cost of blow water and reduce the amount of makeup water used.

Further, the blow water treatment apparatus is provided in the switching pipe of the blow water supply pipe, and it is sufficient to treat only a part of the blow water flowing through the switching pipe. Is possible.

[Brief description of the drawings]

FIG. 1 is a piping diagram schematically showing a piping configuration of a cooling tower plant.

[Explanation of symbols]

 1: heat exchanger 2: cooling water circulation line 2A: switching line 3A to 3C: other cooling towers 3D: some cooling towers 4: blow water supply line 4A: switching line 5: blow water treatment device 6 : Blow water inspection device 7: Switching valve 8: Switching valve 9: Circulating water treatment device 10: Circulating water inspection device 11: Chemical liquid line 12: Chemical liquid tank 13: Blow water discharge line 14: Supply water line 14A to 14C: Branch line 15: Personal computer

Claims (1)

[Claims] 1. A plurality of cooling towers (3A) to (3D) having a cooling water circulation pipeline (2) formed between the cooling tower and a heat exchanger (1).
A cooling tower plant comprising a cooling tower (3
B) A blow water supply pipe (4) for supplying blow water discharged from other cooling towers (3A) to (3C) to D) as make-up water
A blow water treatment device (5) for treating blow water flowing through a blow water supply pipe (4) into a state suitable for makeup water;
A blow water inspection device (6) for checking the suitability of the blow water flowing through the blow water supply line (4) as make-up water; and the blow water supply line (4) includes a switching valve (7). A switching pipe (4A) that branches off and merges downstream of the switching pipe (4A). A blow water treatment device (5) is interposed in the switching pipe (4A), and the junction of the switching pipe (4A) And cooling tower (3D)
A blow water inspection device (6) interposed in the blow water supply pipe (4) between the cooling tower plant and the cooling tower plant.