RU2496056C1 - Heat supply system - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: heat supply system comprises a centralised base and peak sources of heat installed in the local consumer system, both are connected with supply and return network pipelines to supply and return network manifolds. The local consumer system is equipped with a controller connected to pressure sensors on supply and return network manifolds, drives of stop elements on the supply and return network pipelines of the local consumer system and with a drive of a circulating pump installed on the supply pipeline of the local heat supply system downstream the peak source of heat along with water motion, and connected with a link pipeline to the return pipeline of the local consumer system.

EFFECT: increased reliability and quality of operation of a local heat supply system due to its disconnection from supply and return network manifolds and using a peak source of heat as a base one with reduction of network water pressure in supply and return network manifolds below specified values.

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Description

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

An analogue is known - a heat supply system containing a centralized base and peak heat sources installed in the local consumer system connected by supply and return network pipelines to the supply and return network mains (see patent RU 2235249, CL F24D 3/08, 08/27/2004). This analogue is adopted as a prototype.

The disadvantages of the analogue and the prototype is the reduced reliability and quality of the heat supply system, which is due to the dependence of the peak heat sources on the temperature and hydraulic modes of the centralized base heat source. So, in emergency situations at the base heat source and pressure drop in the supply and return network lines, the peak source also becomes impossible.

The technical result achieved by the present invention is to increase the reliability and quality of the local heat supply system by disconnecting it from the supply and return mains and using a peak heat source as a base when the pressure of the supply water in the supply and return mains is lower than the specified values.

To achieve this result, a heat supply system is proposed that contains a centralized base and peak heat sources installed in the local consumer system, which are connected by supply and return network pipelines to the supply and return network mains.

The difference of the claimed heat supply system is that the local consumer system is equipped with a controller connected to pressure sensors on the supply and return network lines, shutoff actuators on the supply and return network pipelines of the local consumer system and with a circulation pump drive installed on the supply pipe of the local heat supply system behind the peak heat source along the water, and connected by a jumper pipe to the return pipe of the local heating system Bitel.

Consider an example of the implementation of the claimed heat supply system.

The drawing shows a schematic diagram of a heat supply system.

The heat supply system contains a centralized basic heat source - CHP 1 with a heating turbine 2 and network heaters 3 connected between the supply 4 and return 5 network highways, to which, using the supply 6 and return 7 network pipelines, the local system is connected through shut-off bodies 8 with drives 9 10 of the consumer, equipped with a controller 11. A peak source of 12 heat and heating devices of 13 subscribers are connected to the supply 6 and return 7 network pipelines of the local system 10 of the consumer. On the supply pipe 6 of the local consumer system 10, a circulation pump 14 is installed with a drive 15 behind the peak heat source 12 in the direction of flow of water, connected by a jumper 16 to the return pipe 7 of the local consumer system 10. The actuators 9 of the locking elements 8 and the actuator 15 of the circulation pump 14 are connected to the controller 11, which, in turn, is connected to pressure sensors 17 installed on the supply 4 and return 5 of the main line.

The heating system operates as follows.

The basic load of the heat supply system is covered at the CHPP 1 by taking off steam from the heating turbine 2, for which the network water circulating in the system is heated in two network heaters connected in series 3. Next, the heated network water is sent through the supply network pipe 4 to the supply network pipe 6 of the local system 10 consumer and further to the peak heat source 12, where they cover the peak heat load. The amount of water heating in the peak heat source 12 is regulated depending on the temperature of the heaters 13 and the needs of the subscribers.

When lowering the pressure of the supply water in the supply 4 and return 5 of the supply line, controlled by pressure sensors 17, below the specified values, the peak heat source 12 is used as the base source of heat, for which the local consumer system 10 is disconnected from the supply 4 and return 5 of the supply lines by shutoff bodies 8 with drives 9, which receives a signal from the controller 11 connected to the pressure sensors 17. Circulation of network water in the local system 10 of the consumer is carried out using a circulation pump 14, is set introduced on the supply pipe of the local heat supply system 10 behind the peak heat source 12 in the direction of movement of the water, and connected by a jumper 16 to the return pipe 7 of the local consumer system 10, to the drive 15 of which a signal is also received from the controller 11 to turn it on.

Thus, the new heat supply system can significantly improve the reliability and quality of heat supply to consumers while lowering the pressure of the mains water in the supply and return mains, by disconnecting the local consumer system from the supply and return mains and using the peak heat source as the base one, which ensures consumer heat supply from the local peak heat source during emergencies at the base source.

Claims (1)

A heat supply system comprising a centralized base and peak heat sources installed in the local consumer system, connected by supply and return network pipelines to the supply and return network pipes, characterized in that the local consumer system is equipped with a controller connected to pressure sensors on the supply and return network pipes, drives of locking bodies on the supply and return network pipelines of the local consumer system and with the drive of the circulation pump installed о on the supply pipe of the local heat supply system behind the peak heat source in the direction of movement of water, and connected by a jumper pipe to the return pipe of the local consumer system.