KR101433887B1 - Control method of Night purge system - Google Patents

Abstract

The control method of the night purge system according to the present invention is a method of preliminarily constructing data on the night purge start time and the night purge ambient temperature, which have the lowest energy consumption, The night purge time of the night purge operation is determined and night purge is performed by determining the ambient purge setting temperature for the optimal night purge operation so that it is possible to cope with the change of the outside air and to reduce unnecessary power consumption of the fan while obtaining sufficient cooling effect of the building So that the energy efficiency can be improved.

Description

{Control method of night purge system}

The present invention relates to a control method of a night purge system, and more particularly, to a control method of a night purge system that can improve an efficiency by controlling an operation time and a set temperature in consideration of an ambient condition.

Building Energy Management System (BEMS) is a management system to improve the efficiency of energy use by minimizing excessive supply or shortage of heat or cool air during heating and cooling of buildings. The building energy management system includes night purge technology.

The night spreading method is a method of cooling a building in advance by using a cold outside air at dawn or in the morning prior to the start of mechanical cooling using an air conditioner installed in the building. A blowing fan for blowing the outside air into the room of the building is required, and only the power for operating the blowing fan is required.

However, since the conventional night spread control is performed only at a fixed set temperature, not only the outside air temperature is taken into account, but also there is no reference to the operation start time, so it relies only on the user's experience. When the blowing fan is always driven for a predetermined time regardless of the outside air temperature or the operation start time, the power consumption is unnecessarily consumed, which results in an increase in the amount of power consumption, resulting in a decrease in energy efficiency.

Japanese Patent Application Laid-Open No. 10-246490 discloses a technique relating to a night purge control system.

It is an object of the present invention to provide a control method of a night purge system in which energy efficiency can be improved.

The method of controlling the night purge system according to the present invention includes the steps of: constructing night purge start time data having the lowest energy consumption according to the change of the minimum ambient temperature through experiments or simulations in advance; The method comprising the steps of: constructing the night-fuzzy set ambient temperature data with the lowest energy consumption according to the change of the ambient air temperature; Determining an optimal night purge start time according to the optimal night purge start time from the night purge set outside temperature data;

According to another aspect of the present invention, there is provided a control method for a night purge system, comprising: setting a time difference between a minimum ambient temperature minimum temperature and a night purge start time, A step of preliminarily constructing night purge start time data having the lowest energy consumption according to a change in the minimum ambient temperature through experiments or simulations, and a step of generating night purge start time data with a minimum energy consumption according to a change in night purge start time The method includes the steps of: constructing purge setting outside temperature data in advance; confirming a time that is the lowest temperature of outside air to be scheduled to perform night purging from a weather station; and determining a time obtained by subtracting the time difference from the minimum outside temperature Determining a time, When the night purge start time, if the difference between indoor temperature and outdoor air temperature is below the preset first predetermined temperature, and from the night purge start time data to be set at the best night purge start time according to the outside air a minimum temperature again.

The control method of the night purge system according to the present invention is a method of preliminarily constructing data on the night purge start time and the night purge ambient temperature, which have the lowest energy consumption, The night purge time of the night purge operation is determined and night purge is performed by determining the ambient purge setting temperature for the optimal night purge operation so that it is possible to cope with the change of the outside air and to reduce unnecessary power consumption of the fan while obtaining sufficient cooling effect of the building So that the energy efficiency can be improved.

1 is a schematic diagram of a night purge system according to an embodiment of the present invention.
2 is a flowchart showing a control method of a night purge system according to an embodiment of the present invention.
3 is a graph showing night purge time data according to the present invention.
4 is a graph showing the outdoor air temperature data according to the present invention.
5 is a flowchart showing a control method of a night purge system according to another embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1, a night purge system includes a blowing fan 4 installed on a wall of a building 2 to introduce cool cold air of morning or morning into the building 2, .

Referring to FIG. 2, a control method of a night purge system according to an embodiment of the present invention is as follows.

First, when the night purge system is to be driven, the temperature information on the day to perform the night purge is acquired from the weather station. (S10) In general, it is preferable to acquire the temperature information from the weather station the day before the night purge system is driven. The temperature information is the minimum ambient temperature (t).

When information on the minimum outside temperature (t) is obtained from the weather station, an optimum night purge start time (OST) with respect to the minimum outside temperature (t) is determined. (S11) The optimal night purge start time (OST) is a start time when the energy consumption is the smallest when the ambient temperature is the minimum temperature (t). Data on the optimal night purge start time (OST) according to the minimum ambient temperature (t) are pre-established and stored before operating the night purge system.

Data construction for the optimum night purge start time (OST) according to the minimum ambient temperature (t) can be done through experiments or simulations. In this embodiment, simulation is used to illustrate this example. The air conditioning apparatus such as a blowing fan and a freezer installed in a specific building and the specific building were modeled and energy consumption consumed in the blowing fan and the freezer was calculated by changing the minimum outside temperature, the night purge starting time, and the outside air temperature. Because the thermal environment of most buildings is similar, the simulation results for the particular building are applicable to general buildings.

FIG. 3 is a graph showing the optimal night purge start time (OST) when the night purge start time is changed according to the minimum outside temperature t, when the energy consumption is the smallest. The energy consumption refers to the energy consumption of the whole day. At this time, the nightfuge setting outdoor air temperature is set to the same temperature and the simulation is performed. In Fig. 3, a plurality of time data are displayed for one ambient temperature minimum temperature t. In other words, the time when the energy consumption is the smallest on the different day with the lowest ambient temperature (t) is obtained and displayed. For example, the lowest energy consumption is at 6:30 for the first experiment day with a minimum ambient temperature of 17 degrees, and the lowest energy consumption is 6:50 for the second experiment day when the lowest ambient temperature is 17 degrees. , And the lowest energy consumption during the third experiment day when the minimum outdoor temperature is 17 degrees may be 6:20. Therefore, the average value of three different test days can be obtained as the night purge start time.

Referring to FIG. 3, it can be seen that the night purge start time is linearly increased as the minimum ambient temperature rises and the energy consumption is small. On the other hand, when the night purge start time is earlier than the predetermined time T1, the fan power energy is consumed rather than the cooling time, so that it is found that the night purge start time has a limit to be increased. With the above data, the function of determining the optimum night purge start time (OST) according to the minimum outside temperature (t) is as follows.

Here, A is a negative number and B is a positive number. The above equation (1) is applied to a period in which the minimum ambient temperature t is less than a specific temperature t1. When the ambient temperature t1 is equal to or greater than the specific temperature t1, a certain time T1 is applied to the night purge start time OST.

The optimal night purge start time (OST) for the minimum ambient temperature (t) is determined by the above equation (1). (OPT) according to the determined night purge start time (OST) is determined when the optimal night purge start time (OST) is determined. (S12) The optimal night purge start time The outside temperature (OPT) is the outside temperature to start night purge, which has the lowest energy consumption. The data on the night purge setting outside air temperature (OPT) according to the change of the night purge start time is also constructed and stored before operating the night purge system.

The method of constructing the data for the night purge setting outside temperature (OPT) according to the night purge start time is as follows. Referring to FIG. 4, there is a graph showing a case where the energy consumption is the smallest by changing the outdoor air temperature OPT according to the night purge start time (OST). Here too, the energy consumption is the energy consumption of the whole day. As the night purge start time increases, that is, the night purge setting ambient temperature tends to decrease linearly. That is, as the night fuzzy start time is delayed, the outside temperature becomes lower and the energy consumption becomes smaller. The function of determining the night purging setting outside temperature (OPT) according to the optimum night purge start time (OST) is as follows.

Here, C is a negative number and D is a positive number.

From the above equation (2), it is possible to determine the night purge setting outdoor temperature (OPT) having the lowest energy consumption.

If the night purge start time OST and the night purge setting outside air temperature OPT are determined as described above, the optimal night purge start time OST is obtained. If the outside air temperature is the optimum night purge setting outside air temperature OPT The night purge can be started immediately. However, in the present embodiment, if the optimum night purge setting outside air temperature OPT is higher than the outside air correction temperature which is a sum of the correction values Tc preset to the current outside air temperature OT, Let's start with an example. The correction value is a correction temperature for heat generation of the blowing fan 4 according to the amount of outside air blowing. That is, when the blowing fan 4 is driven, the temperature of the outside air around the blowing fan 4 rises by the heat of the blowing fan 4. Therefore, the outside air correction temperature, which is the sum of the correction temperatures Tc for the heat generation of the blowing fan 4, is compared with the night purge setting outside air temperature OPT, and the night purge setting outside air temperature OPT is compared with the outside air correction temperature , The night purge is started (S14)

As described above, by determining the night purge start time and the night purge setting outside air temperature in consideration of the change in the outside air temperature, the fan power can be minimized and the energy consumption can be reduced while obtaining a sufficient cooling effect.

Referring to FIG. 5, a control method of a night purge system according to another embodiment of the present invention will be described.

5, when it is desired to drive the night purge system, temperature information on a day to perform a night purge is acquired from a weather station (S20). Generally, temperature information is acquired from a weather station the day before the night purge system is driven . The temperature information includes a minimum outside temperature (t) and a minimum outside temperature (t).

If it is determined that the outdoor temperature is the minimum ambient temperature, a time obtained by subtracting a predetermined time difference from the ambient temperature minimum temperature is determined as an optimal night purge start time (OST2). (S21) Value. In the experiment, the energy consumption is measured while changing the time at the set interval before the time of the minimum ambient temperature, and the night purge start time with the lowest energy consumption is obtained. The time difference calculates the time difference between the minimum ambient temperature and the night purge start time with the lowest energy consumption. For example, when the minimum temperature of outside air is 7 o'clock, the night purge time is changed every 6 minutes from 5 o'clock to 7 o'clock 2 hours before 7 o'clock. When the energy consumption is measured, We found that energy consumption was the smallest at 4:30, 30 minutes ago. In this case, the time difference can be set to 1 hour and 30 minutes.

If the optimal night purge start time OST2 is determined, the difference between the room temperature IT and the outside air temperature OT is compared with a preset first set temperature Ts1. (S22) Is the room temperature of the optimal night purge start time. When the night purge is started at a time obtained by subtracting a predetermined time difference from the minimum ambient temperature, there is a cooling effect when the difference between the room temperature IT and the outside air temperature OT is larger than the first set temperature Ts1. Therefore, the difference between the room temperature IT and the outside air temperature OT is compared with a preset first set temperature Ts1. The first set temperature Ts1 is about three degrees, for example, to be described.

If the difference between the room temperature IT and the outside air temperature OT is greater than the first set temperature Ts1, the outside air correction temperature is compared with the room temperature. (S23) And the correction value is a correction temperature for the heat generation of the blowing fan 4 according to the amount of outside air blowing.

If the outside air correction temperature is lower than the room temperature, it is determined whether the outside air correction temperature is within a preset range. (S24) The setting range includes a second preset temperature Ts2 and an indoor cooling preset temperature IST, Set Temperature). If the outside air correction temperature is lower than the second set temperature, a cold draft phenomenon may occur in which cold air is lowered depending on the outside air temperature and the room temperature difference. It is preferable that the second set temperature is set to a temperature at which the cold draft phenomenon does not occur. In the present embodiment, the second set temperature is set to 16 degrees Celsius, for example.

If the outside air correction temperature is higher than 16 degrees Celsius and lower than the indoor cooling set temperature, night purge is started (S25)

On the other hand, if the difference between the room temperature IT and the outside air temperature OT is less than the first set temperature Ts1, the optimal night purge start time OST1 is determined again and the optimal night purge setting outside temperature OPT). (S26) (S27)

The optimal night purge start time (OST1) and the optimal night purge setting outside air temperature (OPT) determination method are the same as those in the above embodiment, and detailed description thereof will be omitted.

If the optimal night purge start time OST1 and the optimal night purge setting outside air temperature OPT are determined, the optimal night purge setting outside air temperature OPT is compared with the outside air correction temperature at step S28.

When the optimum night purge setting outside air temperature OPT is higher than the outside air correction temperature, night purge is started (S25)

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

2: building 4: blowing fan

Claims (12)

Preliminarily constructing night purge start time data having the lowest energy consumption according to the change of the minimum ambient temperature through experiments or simulations;
A step of preliminarily constructing the night-fuzzy set ambient temperature data with the lowest energy consumption according to the change of the night purge start time through experiments or simulations;
Confirming the lowest ambient temperature of the day to perform the night purge from the weather station;
Determining a night purge start time according to the minimum ambient temperature from the night purge start time data;
Determining a night purge setting outside air temperature according to the night purge start time from the night purge setting outside air temperature data,
Wherein the night purge is started when the night purge setting outside air temperature is higher than the outside air purifying temperature by adding a preset correction value to the current outside air temperature. Setting a time difference between the minimum ambient temperature and the night purge start time with the lowest energy consumption according to the change of the night purge start time through experiment and simulation;
Preliminarily constructing night purge start time data having the lowest energy consumption according to the change of the minimum ambient temperature through experiments or simulations;
A step of preliminarily constructing the night-fuzzy set ambient temperature data with the lowest energy consumption according to the change of the night purge start time through experiments or simulations;
Confirming the time from the weather station to the lowest ambient temperature of the night scheduled to be performed;
Determining a night purge start time as a time obtained by subtracting the time difference from a time that is the minimum ambient temperature as identified above;
Wherein the night purge start time is set again based on the night purge start time data if the difference between the room temperature and the outside air temperature is equal to or less than a predetermined first set temperature at the night purge start time Control method. The method of claim 2,
When the difference between the room temperature and the outside air temperature exceeds the first set temperature,
Wherein the night purge is performed when the outside air correction temperature obtained by adding the preset values to the outside air temperature is lower than the room temperature and the outside air correction temperature is within a predetermined setting range. The method of claim 2,
And setting a night purge setting outside air temperature according to the night purge start time from the night purge setting outside air temperature data. The method of claim 4,
Wherein the night purge starts when the night purge is started and the outdoor air temperature is the night purge setting outdoor temperature. The method of claim 4,
Wherein the night purge is started when the night purge setting outside air temperature is higher than the outside air purifying temperature by adding a preset correction value to the current outside air temperature. The method according to claim 1 or 6,
Wherein the correction value includes a correction temperature for heat generation of the blowing fan according to an amount of outside air blowing. The method of claim 3,
Wherein the setting range includes a range between a second set temperature set in advance and an indoor cooling set temperature. The method according to claim 1 or 2,
Wherein the night purge start time having the lowest energy consumption linearly increases with an increase in the minimum outside temperature within a certain range of the minimum outside temperature. The method according to claim 1 or 2,
Wherein the night purge setting outdoor air temperature having the lowest energy consumption linearly falls in accordance with an increase in the night purge start time within a certain range of the night purge start time. Preliminarily constructing night purge start time data having the lowest energy consumption according to the change of the minimum ambient temperature through experiments or simulations;
A step of preliminarily constructing the night-fuzzy set ambient temperature data with the lowest energy consumption according to the change of the night purge start time through experiments or simulations;
Confirming the lowest ambient temperature of the day to perform the night purge from the weather station;
Determining a night purge start time according to the minimum ambient temperature from the night purge start time data;
Determining a night purge setting outside air temperature according to the night purge start time from the night purge setting outside air temperature data,
Wherein the night purge start time having the lowest energy consumption linearly increases with an increase in the minimum outside temperature within a certain range of the minimum outside temperature. Preliminarily constructing night purge start time data having the lowest energy consumption according to the change of the minimum ambient temperature through experiments or simulations;
A step of preliminarily constructing the night-fuzzy set ambient temperature data with the lowest energy consumption according to the change of the night purge start time through experiments or simulations;
Confirming the lowest ambient temperature of the day to perform the night purge from the weather station;
Determining a night purge start time according to the minimum ambient temperature from the night purge start time data;
Determining a night purge setting outside air temperature according to the night purge start time from the night purge setting outside air temperature data,
Wherein the night purge setting outdoor air temperature having the lowest energy consumption linearly falls in accordance with an increase in the night purge start time within a certain range of the night purge start time.

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