KR101204515B1 - Micro control apparatus for user facility of dehumidified cooling system for district cooling - Google Patents

Abstract

The present invention relates to a micro flow rate control device for a user facility of a district cooling dehumidification cooling system, and in particular, the main temperature control valve for controlling the flow rate of hot water discharged from the heat exchanger according to an external control; Fine control temperature control valves connected in parallel with upper and lower ends of the main temperature control valve through branch pipes, and finely controlling a flow rate of hot water discharged from the heat exchanger according to external control; And receiving the water supply temperature from the temperature sensor of the heat exchanger and adjusting the opening and closing degree of the main temperature control valve according to a preset value when the water supply temperature is equal to or lower than the first reference temperature value. Adjust the flow rate to the reference heat amount, and when the water supply temperature is equal to or greater than the second reference temperature value, the main temperature control valve is closed, the fine control temperature control according to a predetermined value in the state of opening the fine control temperature control valve It characterized in that it comprises a temperature controller for adjusting the opening and closing degree of the valve to a reference heat amount.
According to the present invention as described above, by installing a separate temperature control valve for the micro-flow control in parallel with the temperature control valve and by using the alternating with each other depending on the season or demand, it is possible to control the normal micro flow rate, and furthermore, By installing it, it is possible to finely adjust the flow rate to meet the demand of the load, thus preventing the vibration and noise caused by the decrease in the cooling performance of the dehumidifying air conditioner and the pulsation of the fluid.

Description

MICRO CONTROL APPARATUS FOR USER FACILITY OF DEHUMIDIFIED COOLING SYSTEM FOR DISTRICT COOLING}

The present invention relates to a micro flow rate control device for a user facility of a district cooling dehumidification cooling system, and in particular, to install a separate micro flow rate control temperature control valve in parallel with the temperature control valve and alternately used according to season or demand The present invention relates to a micro flow rate control device for a user facility of a regional cooling dehumidification cooling system which enables normal micro flow rate control.

In general, the district heating system is a system in which a group energy supplying company supplies group energy through a pipe for heating and hot water supply to a plurality of individual users, which is different from an individual heating system in which a user has heating facilities.

In other words, district heating is not equipped with heating facilities in various buildings such as houses, malls, offices, schools, hospitals, and factories within a city or a certain area, but a large-scale heat production facility, that is, a cogeneration plant, is heated and heated. It is one of the group energy supply system that produces the hot water (80 ~ 120 ℃) necessary for the production and supply to each customer through the heat transportation pipe.

Meanwhile, a dehumidification cooling system using hot water of district heating has been developed.

As shown in FIG. 1, the dehumidification and cooling system includes a heat source 110, a heat exchanger 120, a circulation pump 130, a heat pipe 140, a user heat exchanger 150, and a dehumidification air conditioner 160. It consists of

First, the heat source 110 produces hot water of 60 ~ 120 ℃. Here, the heat source 110 is any one selected from a cogeneration plant, a heat-only boiler, a microturbine, a small gas engine, and a small gas turbine so as to use both hot water of large-scale district heating or small district heating. Here, the heat source 110 is preferably provided with a heat storage tank 111 for storing hot water.

Then, the heat exchanger 120 heats and delivers the hot water produced from the heat source 110.

In addition, the circulation pump 130 circulates the hot water heat exchanged in the heat exchanger (120).

In addition, the heat pipe 140 is connected to the circulation pump 130 to transport and recover hot water to the heat supply target area (A).

On the other hand, the user heat exchanger 150 is installed in the management room of the heat supply target area (A), etc., is connected to the heat pipe 140 to transfer the hot water of the heat pipe 140 to the heat supply target area (A).

Then, the dehumidifying air conditioner 160 is introduced into each generation of the heat supply target area A, connected to the hot water pipe 151 connected to the user heat exchanger 150, and installed in each generation, and supplied from the hot water pipe 151. Hot water is used to remove the moisture in the air to handle the latent heat load, and the water is evaporated in the dehumidified air to lower the air temperature to supply cooling. Here, the dehumidifying air conditioner 160 performs a cooling by using a regenerative evaporative cooler (REC), in which a part of the air passing through the gun channel is a wet channel in a repetitive structure of the dry channel and the wet channel. It is configured to pass through the water, and water is evaporated and cooled on the surface of the wet channel, and the air passing through the dry channel by absorbing heat from the air of the relatively high temperature dry channel is cooled to the maximum dew point temperature without increasing humidity.

On the other hand, the user facilities of the heat supply target area (A), as shown in Figure 2, including various primary piping facilities (DHWS, DHWR), heating heat exchanger, secondary side piping facilities (temperature control valve (TCV-1) Valves (PDCV, DPV, CV, BPV), Temperature Sensor (TE), Thermometer (TI), Pressure Sensor (PI), Flow Meter (FM), Temperature Controller (TC1), Supply Pipe (HWS), Recovery Pipe (HWR) Etc.).

The temperature control valve TCV-1 in the user's facility senses the water supply and return temperature from the temperature sensor TE and the flow rate from the flow meter FM, calculates it as the amount of heat, and then calculates the flow rate based on the amount of heat. Since the capacity is designed on a winter basis, there is a problem in that the flow rate control ability for the portion that is reduced below the valve use limit is lost due to the out of use range due to the decrease in flow rate during the summer.

In addition, the temperature control valve of the rated capacity has a characteristic that can not control when the flow rate is below a certain opening amount, and for this reason, it is impossible to control the minute flow rate according to the demand of the load. Energy waste can occur and other problems cause vibration and noise due to pulsation of the fluid.

The present invention is to solve the above problems, by installing a separate temperature control valve for the flow control in parallel with the temperature control valve and by using the alternating with each other depending on the season or the demand for local cooling Its purpose is to provide a micro flow rate control device for a user facility of a dehumidification cooling system.

In addition, the present invention is possible to control the flow rate of the minute by installing the temperature control valve for fine flow rate adjustment to reduce the cooling performance of the dehumidifying air conditioner, energy waste due to excess flow, vibration and noise due to pulsation of the fluid Another object is to provide a microfluidic flow control device for a user facility of a district cooling dehumidification cooling system that can be prevented in advance.

According to an aspect of the present invention,

A main temperature control valve controlling the flow rate of hot water discharged from the heat exchanger according to external control; Fine control temperature control valves connected in parallel with upper and lower ends of the main temperature control valve through branch pipes, and finely controlling a flow rate of hot water discharged from the heat exchanger according to external control; And receiving the water supply temperature from the temperature sensor of the heat exchanger and adjusting the opening and closing degree of the main temperature control valve according to a preset value when the water supply temperature is equal to or lower than the first reference temperature value. Adjust the flow rate to the reference heat amount, and when the water supply temperature is equal to or greater than the second reference temperature value, the main temperature control valve is closed, the fine control temperature control according to a predetermined value in the state of opening the fine control temperature control valve It characterized in that it comprises a temperature controller for adjusting the opening and closing degree of the valve to a reference heat amount.

Here, the main temperature control valve is further provided with a first and second blocking valves to block the hot water flow of the main temperature control valve when the fine control temperature control valve is used at the top and the bottom thereof.

Here, the first reference temperature value is a temperature value lower than the second reference temperature value.

Here, the first reference temperature value is 1-20 ° C. lower than the second reference temperature value.

Here, the temperature controller simultaneously adjusts the opening and closing degree of the main temperature control valve and the fine control temperature control valve when the water supply temperature falls within the overlap range between the first reference temperature value and the second reference temperature value. .

According to the micro flow rate control device for the user facility of the present invention, the local cooling dehumidification cooling system configured as described above, install a separate micro flow rate control temperature control valve in parallel with the temperature control valve and alternate use depending on the season or demand By doing so, it may be possible to control the normal microfluidic flow rate.

In addition, according to the present invention by installing a temperature control valve for controlling the flow rate, it is possible to finely control the flow rate to the demands of the load to reduce the energy waste due to the excess flow rate, and to reduce the cooling performance of the dehumidifying air conditioner and vibration due to pulsation of the fluid It is possible to prevent the occurrence of excessive noise.

1 is a schematic diagram schematically showing a dehumidification cooling system using hot water of a general district heating.
FIG. 2 is a system diagram illustrating a user facility of a heat supply target region in FIG. 1.
Figure 3 is a block diagram schematically showing the configuration of a micro flow rate control device for a user facility of the district cooling dehumidification cooling system according to the present invention.

Hereinafter, with reference to the accompanying drawings, the configuration of a micro flow rate control device for a user facility of the district cooling dehumidification cooling system according to the present invention will be described in detail.

In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The following terms are defined in consideration of the functions of the present invention, and may be changed according to the intentions or customs of the user, the operator, and the like. Therefore, the definition should be based on the contents throughout this specification.

Figure 3 is a block diagram schematically showing the configuration of a micro flow rate control device for a user facility of the district cooling dehumidification cooling system according to the present invention.

3, the micro flow rate control device 1 for the user facility of the district cooling dehumidification cooling system according to the present invention, the main temperature control valve 10, the fine control temperature control valve 20, and the temperature It consists of a controller 30.

First, the main temperature control valve 10 controls the flow rate of hot water discharged from a heating heat exchanger (not shown) according to the control of the temperature controller 30 to be described below. Here, the main temperature control valve 10 is the first and second shut-off valves 11 and 13 to block the hot water flow of the main temperature control valve 10 in the use of the fine control temperature control valve 20 on the top and bottom thereof. Is further provided, and the first and second shut-off valves 11 and 13 are of manual or automatic type.

In addition, the fine control temperature control valve 20 is connected in parallel through the upper and lower ends of the main temperature control valve 10 and the branch pipe 21, and the flow rate of the hot water discharged from the heat exchanger under the control of the temperature controller 30 Fine tune.

In addition, the temperature controller 30 receives the water supply temperature measured from the temperature sensor (TE of FIG. 1) of the heating heat exchanger, and closes the fine control temperature control valve 20 when the water supply temperature is equal to or less than the first reference temperature value. By controlling the opening and closing degree of the main temperature control valve 10 in accordance with the preset value in the state to control the flow rate to the reference heat amount, if the water supply temperature is more than the second reference temperature value close the main temperature control valve 10 In the state in which the microadjustment temperature control valve 20 is opened, the opening and closing degree of the microadjustment temperature control valve 20 is adjusted according to a preset value to adjust the reference heat amount. Here, a 1st reference temperature value is a temperature value lower than the said 2nd reference temperature value, Preferably it is a value lower than 1-20 degreeC. Here, the temperature controller 30 may open and close the main temperature control valve 10 and the fine control temperature control valve 20 when the water supply temperature corresponds to an overlap range between the first reference temperature value and the second reference temperature value. Adjust the degree at the same time.

Hereinafter, with reference to the accompanying drawings, the operation of the micro flow rate control device for the user facility of the district cooling dehumidification cooling system according to the present invention will be described in detail.

4 to 6 is a flow chart illustrating the operation of the micro flow rate control device for the user facility of the district cooling dehumidification cooling system according to the present invention.

<< water supply temperature is below the 1st reference temperature value >>

First, the temperature controller 30 receives a water supply temperature from a temperature sensor (TE in FIG. 1) and checks whether the water supply temperature is equal to or less than a first reference temperature value (eg, 64 ° C.).

Thus, the temperature controller 30 closes the fine control temperature control valve 20 when the water supply temperature discharged from the heating heat exchanger is equal to or less than the first reference temperature value.

At the same time, the temperature controller 30 opens the main temperature control valve 10 and controls the flow rate by adjusting the opening and closing degree according to a predetermined value to adjust the reference heat amount.

<< water supply temperature more than 2nd reference temperature value >>

On the contrary, the temperature controller 30 receives the water supply temperature from the temperature sensor (TE in FIG. 1) and checks whether the water supply temperature is equal to or greater than the second reference temperature value (eg, 66 ° C.).

Thus, the temperature controller 30 closes the main temperature control valve 10 when the water supply temperature discharged from the heating heat exchanger is equal to or greater than the second reference temperature value, opens the fine control temperature control valve 20, and then finely adjusts the temperature. The temperature control valve 20 is adjusted to a reference heat amount by controlling the flow rate by adjusting the opening and closing degree according to a predetermined value. At this time, the temperature controller 30 controls and closes the first and second shut-off valves 11 and 13 when they are the automatic type.

《When the water supply temperature is between the first reference temperature value and the second reference temperature value》

On the other hand, the temperature controller 30 is used for fine control with the main temperature control valve 10 when the water supply temperature corresponds to an overlap range (eg, 64 to 66 ° C.) between the first reference temperature value and the second reference temperature value. The degree of opening and closing of the temperature control valve 20 is adjusted at the same time.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is to be understood, however, that the invention is not to be limited to the specific forms thereof, which are to be considered as being limited to the specific embodiments, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims. .

10: main temperature control valve 20: fine control temperature control valve
30: temperature controller

Claims (5)

A main temperature control valve controlling the flow rate of hot water discharged from the heat exchanger according to external control;
Fine control temperature control valves connected in parallel with upper and lower ends of the main temperature control valve through branch pipes, and finely controlling a flow rate of hot water discharged from the heat exchanger according to external control; And
When the water supply temperature is input from the temperature sensor of the heat exchanger and the water supply temperature is equal to or less than the first reference temperature value, the flow rate is controlled by adjusting the opening and closing degree of the main temperature control valve according to a preset value in a state in which the microadjustment temperature control valve is closed. Control to adjust to the reference heat amount, when the water supply temperature is equal to or greater than the second reference temperature value, the main temperature control valve is closed, the fine control temperature control valve according to a predetermined value in the state of opening the fine control temperature control valve Microfluidic control device for a user facility of the regional cooling dehumidification cooling system, characterized in that it comprises a temperature controller for controlling the opening and closing degree of the reference heat quantity. The method of claim 1,
The main temperature control valve,
The first and second blocking valves are further provided to block hot water flow of the main temperature control valve when the temperature control valve for fine adjustment is used at the upper and lower ends thereof. Flow control device. The method of claim 1,
The first reference temperature value is,
A micro flow rate control device for a user facility of the district cooling dehumidification cooling system, characterized in that the temperature value lower than the second reference temperature value. The method of claim 3, wherein
The first reference temperature value is,
A micro flow rate control device for a user facility of the district cooling dehumidification cooling system, characterized in that the value is 1 ~ 20 ℃ lower than the second reference temperature value. The method of claim 4, wherein
The temperature controller,
When the water supply temperature falls within the overlap range between the first reference temperature value and the second reference temperature value, the regional cooling and dehumidification of the main temperature control valve and the fine control temperature control valve are simultaneously controlled. Micro flow control device for the user facilities of the cooling system.

Images