SU1153200A1 - Heat supply system of ventilation plants - Google Patents

Abstract

To the heating system of the ventilation installations, containing the supply air channel with the heating heater and the fan, the circulation circuit of the intermediate heat carrier with supply and return lines, the heat exchanger-heat exchanger with the supply and removal lines of the secondary heat carrier, the circulation pump and the surface template and the temporal heat source, and the secondary heat source and the heat source of the secondary heat source, and the secondary heat source and the heat source of the heat source and return heat source and return heat source, and the secondary heat source. supply and removal of heat carrier heat network, which are installed in the circulation circuit, while the heater is connected to the circulation circuit of the direct and reverse pipe The heat exchanger-heat exchanger has a bypass channel, and flow controllers are installed on the heat network coolant exhaust line and on the bypass channel, characterized in that, to increase reliability and efficiency, the pa6oTbij system is equipped with a second preheater heater, which is located in the intake air channel behind the heater of the first heating along the air course, temperature sensors of the intermediate heat carrier in the return line of the circulation circuit and the outdoor temperature, which are connected to the regulator Hur otvoO flow on the line) and the heat medium heating network and flow regulator in a bypass channel, and an additional flow regulator connected to the outlet of the second calorimeter C. Fehr heating and bonded to additionally placed in the supply air temperature sensor settee tours.

Description

2. System pop. 1 from L and J1D and the fact that the second preheater heater is connected to the circulation circuit.

3. The system according to claim 1, characterized in that it is

It is equipped with an additional circulating circuit of the intermediate coolant to which the second preheater heater is connected.

The invention relates to the technique of ventilation and air conditioning and can be used, in particular, in heat supply systems of ventilation systems with the use of secondary thermal energy resources.

The aim of the invention is to increase the reliability and efficiency of the heat supply system of ventilation systems.

FIG. 1 is a schematic diagram of the proposed heat supply system for ventilation systems with one circulation loop; in fig. 2 - the same, with two circulation circuits.

The heat supply system of the ventilation systems consists of the supply air channel 1 (Fig. 1) with the first heating heater 2 and the second heating heater 3 located in the channel 1 successively along the air flow and the supply air fan 4.

The circulating circuit of the intermediate coolant consists of supply and return lines 5 and 6.

In the circulation circuit, heat exchanger-heat exchanger 7 is installed along the intermediate heat carrier with lines 8 and 9 for supply and removal of secondary heat carrier and bypass channel 10, circulation pump I1, surface heat exchanger 12 with lines 13 and 14 for heat supply and removal of heat carrier .

The heaters 2 and 3 are connected in parallel with the flow and return lines 5 and 6 of the circulation circuit.

On line 14 of the coolant discharge from the thermal slti and on the bypass channel 10, flow regulators 15 and 16 are installed, each of which is connected respectively to sensor 17 or

18 of the temperature of the intermediate coolant in the return line 6 of the circulation circuit and with the sensor 19 of the outdoor air temperature.

At the outlet of the heater 3, an additional flow rate regulator 20 is installed, which is connected to the supply air temperature sensor 21 placed in channel 1.

The heat supply system of the ventilation units can be made with an additional circulation loop 22 (Fig. 2e), while the second heating coils 3 are connected to the additional circulation loop 22, the bypass channel 10 of the additional circuit 22 is made from the entrance to the heat exchanger-utilizer 7 to The output from the circulation pump P is an additional circuit 22, and a pressure sensor 23 is installed on the bypass channel of the additional circuit 22, which is connected to the flow controller 24.

The heat supply system of ventilation systems operates as follows.

If the system contains one intermediate coolant circuit, the intermediate coolant flows from the supply line 5 to the heaters 2 and 3, in which the supply air is sequentially processed to the specified parameters and supplied to the room 4 by the fan (and ).

The regulation of the parameters of the supply air is carried out by changing the heating capacity of the second heating element 3 using the intermediate heating medium consumption controller 20 at the command of the sensor 21 installed in the treated air flow. After heaters 2 and 3, the cooled intermediate coolant enters the return line 6 to the waste heat exchanger 7, where it is preheated using a source of secondary heat. Next, the circulation coolant pump 11 is supplied to the surface heat exchanger 12, where the intermediate heat transfer medium is finally heated to the required temperature using a primary heat source,. for example heating networks. After heating in the heat exchangers 7 and 12, the intermediate heat carrier is again directed along the flow line 5 of the circulation circuit to the heaters 2 and 3. The control of the heat output of the heat exchangers 7 and 12 is carried out respectively by regulators 16 and 15 which increase or decrease the flow intermediate heat carrier depending on the readings of the control regulators 15 and 16 of the sensors 17 and 18 of the temperature of the intermediate coolant in the return line 6. Dp eliminating overruns of primary heat regulators 15 and 16 p gathering involved in circuit-control circuit in series, for example, with an increase in the intermediate heat transfer fluid temperature in the inverse line 6 initially provides a closing regulator 15 and a full closure of the latter is incorporated in, regulation controller 16 of the intermediate heat transfer fluid flow. When the temperature of the intermediate heat carrier in the return line 6 decreases, the flow regulators 15 and 16 operate in the reverse order. The automatic control circuit additionally includes an outdoor temperature sensor 19, which provides a predetermined correction of the intermediate heat temperature of the carrier in the return line 6 depending on the variation of the outside air temperature so that the temperature of the intermediate heat transfer medium decreases and vice versa. As a result, the duration of operation of the flow rate controller 20 at the outlet of the heater 3 is increased, the operation of which is carried out using the heated supply air temperature sensor 21 installed in channel 1, thereby maintaining high accuracy of maintaining the set parameters of the supply air that is processed heater 3 at different outside temperatures. In the event that the calculated temperatures of the intermediate coolant at the output of heaters 2 and 3 of the first and second heating differ significantly in size, or if there is a secondary heat source with a lower thermal potential, it is advisable to use a heat supply system with two separate circulation circuits of the intermediate heat carrier ( Fig. 2), the first of which is intended for heating the heaters 2 of the first heating, and the second additional circuit 22 for heating the heaters 3 seconds of heating. On the bypass channel 10 of the additional circulation circuit 22 a pressure sensor 23 is installed, which controls the operation of the intermediate coolant flow controller 24. The invention allows to more fully utilize the thermal potential of the source of secondary heat. In addition, water can be used as an intermediate heat carrier in the second additional circuit. The number of heaters 2 and 3 in supply air ducts 1 and the number of concurrently operating channels 1 in the heat supply system of the ventilation systems may vary depending on the specific conditions. Maintaining the temperature of the intermediate coolant within the prescribed limits while ensuring the specified parameters of the supply air and eliminating the possibility of reducing the flow rate of the coolant through the first preheater heaters eliminates the danger of freezing them, which causes reliable operation of the entire system. The invention makes it possible to extend the boundaries of the use of water as an intermediate coolant with maximum utilization of secondary heat, which generally provides

substantial reliability and efficiency of the ventilation system heat supply system operation.

Claims (1)

1. HEATING SUPPLY SYSTEM OF VENTILATION UNITS, comprising a supply air channel with a heating coil and a fan, an intermediate heat-transfer circuit with a supply and return lines, a heat exchanger-heat exchanger with heat-transfer and secondary heat transfer lines, a circulation pump and a surface heat exchanger with a heat exchanger line and a heat exchanger line with heating network, which are installed in the circulation circuit, while the air heater is connected to the circulation circuit by direct and return piping In addition, the heat exchanger-heat exchanger has a bypass channel, and flow regulators are installed on the heat-transfer medium heat transfer line and on the by-pass channel, characterized in that, in order to increase the reliability and efficiency of operation, the system is equipped with a second heating air heater, which is located in the supply air channel for the first heating heater along the air, the temperature sensors of the intermediate coolant in the return line of the circulation circuit and the outdoor temperature, which are connected with the flow controller and on the heat-carrier coolant drainage line and with a flow regulator on the bypass channel, and an additional flow regulator connected to the output of the calorie-C sphere of the second heating and connected to a temperature sensor additionally placed in the supply air duct. Fig! . 1153200 is equipped with an additional intermediate circuit 2. System pop.! characterized in that the heater of the second heating is connected to the circulation circuit. 3. System BY paragraph 1 , about t l and - I am with I by what is she of the coolant, a preheater heater is connected. to which the second