RU2204088C1 - Method of operation of heat supply system - Google Patents

Abstract

FIELD: heat power industry. SUBSTANCE: according to proposed method of operation of open heat supply system heating system water is fed from source of heat to users over feeding line and is discharged to source of heat over return line of heat supply system. Loss of heating system water is compensated with replenishment water. Pressure in return line is maintained by means of replenishment controller. Flow rate of heating system water is used for correction of pressure in return line. EFFECT: increased operational reliability of heat supply system thanks to prevention of emptying of local heating system when water distribution is maximum. 1 dwg

Description

 The invention relates to the field of power engineering and can be used in heat supply systems.

 Analogs are known - the methods of operation of heat supply systems, in which the network water from the heat source is supplied to consumers through the supply line and taken to the heat source via the return line of the heat network, the losses of the network water are compensated by make-up water, the pressure in the return line of the heat network on the heat source is maintained using a constant charge controller , based on ensuring the cavitation-free regime of network pumps (see Sokolov E. Ya. Heating and heat networks: Textbook for universities. - 5th ed., revised. - M.: Energoizda 1982, Figure 5.10, s.149-150).

 This analogue is adopted as a prototype.

 The disadvantage of analogues and prototype is the low reliability of heat supply systems, due to the possibility of emptying local heating systems at maximum drawdown.

 The technical result achieved by the present invention is to increase the reliability of the heating system.

 To achieve this result, a method of operation of a heat supply system is proposed, in which the network water from the heat source is supplied to consumers through the supply line and taken to the heat source via the return line of the heating network, the losses of the network water are compensated by make-up water, the pressure in the return line is maintained using the make-up regulator.

 The difference of the proposed method is that when regulating the pressure in the return line, the pressure is adjusted according to the flow rate of the network water.

 Carrying out the correction of pressure in the return line of the heating network for the flow of network water can improve the reliability of the heat supply system by preventing the emptying of the local heating system at maximum water intake.

 The drawing shows a schematic diagram and a piezometric graph of a heat supply system that explain the proposed method.

 The heat supply system contains local heating systems 1, connected to the supply 2 and return 3 highways, and a heat source, including a heat treatment plant 4, a network pump 5 and a make-up pump 6 connected to the storage tank 7. A regulating body 8 is installed behind the make-up pump 6 make-up regulator associated with a flow sensor 9 installed in front of the network pump 5.

 Consider an example implementation of the claimed method.

 After the heat treatment plant 4, the network water is supplied to the supply line 2 of the heat network, through which the network water is supplied to the local heating systems 1 and is taken along the return line 3 to the heat source. At the same time, in the return line of the heating network 3 at local heating systems 1, a pressure head is provided that exceeds the height of the connected buildings by at least 5 meters of water column, i.e. provide excessive pressure (line 2 on the piezometric graph). At the time of maximum water drawdown, local heating systems 1 are emptied with the lowest excess pressure, i.e. the pressure of the network water drops in the return line 3 (line 2 'on the piezometric graph). The increase in flow rate captures the flow sensor 9 and sends a signal to the regulator 8, which is located on the make-up pipe of the heating network, as a result of which the make-up pump 6 increases the supply of water from the storage tank 7 to the heating network until the local heating systems are completely filled 1 , i.e. until the pressure rises to a value that ensures the minimum excess head in the return line of the heat network 3 (line 2 "on the piezometric graph).

 The reliability of the heat supply system is increased by preventing the local heating system from being emptied at maximum water extraction.

Claims (1)

 The method of operation of the heat supply system, in which the network water from the heat source is supplied to consumers through the supply line and taken to the heat source through the return line of the heating network, the losses of the network water are compensated by make-up water, the pressure in the return line is supported by the make-up regulator, characterized in that when regulating the pressure in the return line, pressure correction is performed according to the flow of network water.