RU2474764C1 - Method to control mode of heating system operation - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: in the method to control a mode of heating system operation they set a period of control of coolant supply into a heating system, ambient air temperature is measured, as well as flow and temperature of the coolant in a supply manifold, flow rate and temperature of the coolant in a return manifold. Thermal capacity of the heating system in a heated room is calculated, as well as the quantity of consumed thermal energy, and change of thermal capacity of a source of heat is estimated. The coolant is supplied into a heating system is carried out in each period in the form of a pulse, with duration that is less or equal to the period of control of coolant supply into the heating system, the pulse duration is corrected with account of the ratio between the set temperature and actual temperature of air in the heated room, ambient air temperature and change of thermal capacity of a source of heat.

EFFECT: provision of reliability and efficiency of air temperature control in a heated room.

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Description

The invention relates to heat engineering and can be used to control heat consumption in heating systems of buildings and structures.

A known method of automatically controlling the heat load of a building and a device for its implementation (RF Patent No. 2415348, F24D 31/02, 2009), which includes maintaining a given heat load of the building taking into account the actual temperature of the outdoor air, and the heat load is regulated by a corresponding change in water flow through the heating system, depending on the instant change in weather conditions below the point of break of the temperature graph by changing the elevator injection and additionally with a correction pump during operation of the system We heat up the break point temperature schedule.

The disadvantage of this method is the high energy intensity and cost, as well as the significant complexity of the implementation, due to the use of a correction pump and a special control valve, which requires a significant reconstruction of the thermal unit.

Closest to the claimed is the "Method of regulating the mode of operation of the heating system" (USSR Author's Certificate No. 1241029, F24D 3/00, 1984), adopted for the prototype, which consists in periodically supplying and stopping the flow of coolant into the heating system, depending on the ratio set temperature and actual air temperature in a heated room.

The disadvantage of this method is the occurrence in the heating system of uncontrolled self-oscillations of the air temperature in a heated room, which reduces its reliability due to the need for regular checking and adjusting the settings of the relay controls for air temperature in a heated room. In addition, the use of a circulation pump significantly complicates and increases the cost of implementing this method, and also does not take into account the effect of changes in outdoor temperature on the regulation process.

The technical result of the proposed method is to ensure the reliability and efficiency of air temperature control in a heated room.

The technical result is achieved by the fact that in the method of regulating the mode of operation of the heating system, which consists in periodically supplying and stopping the supply of the coolant to the heating system, depending on the ratio of the set temperature and the actual temperature of the air in the heated room, the control period for the flow of coolant into the heating system is set, the temperature is measured outdoor air, flow rate and temperature of the coolant in the supply line, flow rate and temperature of the coolant in the return line; calculates the thermal power of the heating system of the heated room, the amount of thermal energy consumed and evaluate the change in thermal power of the heat source; the coolant is supplied to the heating system in each period in the form of a pulse with a duration shorter than or equal to the period of regulation of the coolant's supply to the heating system, the pulse duration is adjusted taking into account the ratio of the set temperature and the actual temperature of the air in the heated room, the temperature of the outdoor air and the change in the thermal power of the heat source .

Figure 1 shows a block diagram of a device that implements the proposed method for regulating the mode of operation of the heating system.

The device comprises a heat source 1, the output of which through a series-connected unit for measuring the flow rate and temperature of the coolant in the supply line 2, an electromagnetic valve 3, a water-jet elevator 4, a heated room 5 and a unit for measuring the flow rate and temperature of the coolant in the return line 6 is connected to the input of the heat source 1 The first output of the heated room 5 is connected to the second input of the water-jet elevator 4. The second output of the unit for measuring the flow and temperature of the coolant in the supply line 2 is connected the first input of the heat meter 7, the second input of which is connected to the second output of the flowmeter and the temperature of the coolant in the return line 6, and the output of the heat meter 7 is connected to the first input of the control unit 8, connected to the second input of the electromagnetic valve 3. The second output of the heated room 5 through the actual air temperature meter 9 in the heated room 5 is connected to the second input of the control unit 8, the third input of which is connected to the output of the outdoor air temperature meter 10.

The method is as follows.

Preliminarily, in the control unit 8, a period for regulating the supply of the coolant to the heating system of the heated room 5 is set depending on the permissible switching frequency of the electromagnetic valve 3 and the thermal inertia of the heating system of the heated room 5 and the value of the pulse duration of the coolant supply in the first regulation period is less than or equal to the flow control period coolant in the heating system of the heated room 5.

In the initial state, the electromagnetic valve 3 is open, and the coolant from the heat source 1 through a series-connected unit for measuring the flow and temperature of the coolant in the supply line 2 and the electromagnetic valve 3 enters the water-jet elevator 4, where it is mixed with part of the coolant from the return line and fed into the heating system a heated room 5, after which it returns to the heat source 1 through the unit for measuring the flow and temperature of the coolant in the return pipe 6.

After a period of time equal to the duration of the coolant supply pulse set by the control unit 8, the electromagnetic valve 3 closes, and the coolant does not enter the heated room 5 until the next period for regulating the coolant supply to the heating system of the heated room 5, after which the electromagnetic valve 3 opens and the coolant supply in the heating system of the heated room 5 is renewed.

The duration of the coolant supply pulse, not exceeding the period for regulating the coolant supply to the heating system of the heated room 5, is adjusted taking into account the ratio of the set temperature and the actual air temperature in the heated room 5, the outdoor temperature and the heat output of the heat source 1.

If the actual air temperature in the heated room 5, controlled by the actual air temperature meter 9, is less than the set temperature, the control unit 8 increases the pulse duration of the coolant supply to the heating system of the heated room 5 until the actual air temperature in the heated room 5 is equal to the set temperature.

Similarly, if the actual air temperature in the heated room 5 is greater than the set temperature, the control unit 8 reduces the pulse duration of the coolant supply to the heating system of the heated room 5.

The control unit 8 provides prompt correction of the pulse duration of the coolant supply to the heating system of the heated room 5 as a function of the outdoor temperature controlled by the outdoor temperature meter 10. When the temperature of the outdoor air increases, the duration of the coolant supply pulse to the heating of the heated room 5 decreases, and when the temperature decreases outside air, the duration of the pulse of the coolant supply to the heating system of the heated room 5 is increased is.

The heat meter 7 calculates the thermal power of the heating system of the heated room 5 and the amount of heat energy consumed by it according to the information received from the flow and temperature unit in the flow line 2 and the flow and temperature measurement unit in the return line 6, which allows you to quickly evaluate the change in the source power heat 1 and adjust the pulse duration of the coolant supply to the heating system of the heated room 5 when changing the power source floor 1 in order to restore the thermal power of the heating system of the heated room 5.

For example, a decrease in the power of the heat source 1 causes a decrease in the temperature and (or) pressure of the coolant in the supply line, therefore, the heat meter 7 will record a decrease in the thermal power of the heating system of the heated room 5. In this case, the control unit 8 increases the duration of the pulse supply of the coolant to the heating system of the heated room 5, which will increase the thermal power of the heating system of the heated room 5. Similarly, with an increase in the power of the heat source 1, the control unit 8 decreases a coolant supply pulse duration in the heated space heating system 5, and hence reduces the thermal capacity of the heating system heated space 5.

In case of inoperability of the device that implements the proposed method of regulating the mode of operation of the heating system, the coolant supply to the heating system of the heated room 5 will be saved through a normally open electromagnetic valve 3.

Thus, given the low energy intensity of the electromagnetic valve and the control unit, the implementation of the proposed method allows for high reliability and cost-effectiveness of regulating the temperature of the air in a heated room.

Claims (1)

The method of regulating the operating mode of the heating system, which consists in periodically supplying and stopping the supply of the coolant to the heating system, depending on the ratio of the set temperature and the actual temperature of the air in the heated room, characterized in that the control period for supplying the coolant to the heating system is set, the outdoor temperature is measured, flow rate and temperature of the coolant in the supply line, flow rate and temperature of the coolant in the return line; calculate the heat output of the heating system of the heated room, the amount of heat consumed and evaluate the change in heat output of the heat source; the coolant is supplied to the heating system in each period in the form of a pulse with a duration shorter than or equal to the period of regulation of the coolant's supply to the heating system, the pulse duration is adjusted taking into account the ratio of the set temperature and the actual temperature of the air in the heated room, the outdoor temperature and the change in the heat source power heat.