RU54140U1 - BOILER INSTALLATION - Google Patents

Abstract

The utility model relates to a power system and can be used in heating and hot water systems of residential and public buildings.

The technical result of the proposed utility model is to increase the heat transfer in the circuit of a hot water boiler - heat exchangers, reduce material consumption, reduce the footprint, save energy.

The boiler installation contains a hot water boiler, a heat network heat exchanger inside the boiler, pipelines of the heat network, a pump with valves and a check valve to ensure water circulation in the network. Inside the boiler there is also a heat exchanger of the hot water supply network, which is connected by pipelines to the pump of the hot water supply network.

According to a utility model, heat exchangers are located in the body of the boiler and are made of steam and water.

Description

The utility model relates to a power system and can be used in heating and hot water systems of residential and public buildings.

A well-known boiler installation (see. Autonomous heat supply sources. Album of technical solutions. Thermohydraulic schemes (scheme No. 2) M., ABOK, 2000, p. 10), containing a hot water boiler, a heat exchanger connected to it by pipelines, forming a boiler circuit, which to ensure circulation of the working medium (water), contains a pump. The heat exchanger is also connected to the heating network, forming a network circuit, which also contains a pump to circulate the network water.

Hot water from the boiler is pumped to the heat exchanger, where it transfers heat to the water in the network circuit.

The boiler installation also contains a hot water supply network (DHW), which includes a heat exchanger connected by pipelines to the boiler and forming a boiler circuit, which contains a pump for circulating boiler water in it. The heat exchanger is also connected to the DHW network, which contains a pump that circulates hot water in the hot water circuit.

The heat transfer from the water of the boiler circuit takes place in the heat exchanger of the hot water supply network similarly to the transfer of heat in the heat exchanger of the heating network.

The well-known boiler installation is the closest in combination of essential features to the claimed utility model and is selected by the applicant as the closest analogue (prototype).

A disadvantage of the known boiler installation is the need for forced circulation of the water heated in the boiler in the hot water circuits

the boiler is heat exchangers, for which it is necessary to have pumps in these circuits, which, in turn, requires space for their placement, pipelines and valves to connect to the boiler and ballasts. In addition, a significant amount of electrical energy is required to ensure the continuous operation of the pumps.

The technical result of the proposed utility model is to increase heat transfer in heat exchangers, reduce material consumption, reduce footprint, save energy.

The specified technical result is achieved by the fact that in a boiler installation containing a hot water boiler, heat exchangers of a heating network and a hot water supply network connected by pipelines to a boiler, a heat network and a hot water supply network, and also pumps providing water circulation in a heating network and a hot water supply system, according to a utility model , heat exchangers are placed in the body of the boiler and are made steam and water.

Steam-water heat exchangers are placed in the boiler body, therefore, they do not need space in the boiler room, boiler circuit pumps are not required, which leads to energy savings, they do not require pipelines and shutoff valves to connect to the boiler. In addition, since the heat transfer coefficient during condensation of water vapor in the boiler on heat exchanger tubes is approximately two times higher than the heat transfer coefficient in water-water heat exchangers, the mass and dimensions of the steam-water heat exchangers built into the boiler are less than the mass and dimensions of water-water heat exchangers.

Due to the indicated embodiment of the boiler installation, an increased heat transfer is achieved in the boiler circuits — heat exchangers, reducing the material consumption of the equipment, reducing the space occupied by the equipment, and also reducing the energy consumption.

The essence of the utility model is represented by the boiler plant diagram.

The boiler installation contains a boiler 1, a heat exchanger 2 of the heating network with valves 3 located inside the boiler, pipelines 4 of the heating network and, to ensure water circulation in the network, a pump 5 with valves 6 and a check valve 7.

In the boiler 1 there is also a heat exchanger 8 of the domestic hot water network with valves 9, pipelines 10 of the domestic hot water network, pump 11 with valves 12 and non-return valves 13 and 14.

The operation of the boiler installation is as follows.

To ensure water circulation in the heating network and the DHW network, valves 3, 6, 9, 12 are opened and pumps 5 and 11 are turned on.

A fuel burner is launched (not shown in the diagram), while the hot gases generated by the combustion of fuel in the furnace heat the water in the boiler to a boil. Water vapor rises and, in contact with the cold surface of the tubes of the heat exchangers 2 and 8, gives off heat to the water passing through the tubes of the heat exchangers and condenses. Condensate flows down into boiling boiler water, where the heat transfer process is repeated.

The water heated in the heat exchanger 2 is pumped to the heating network by the pump 5, where it transfers its heat to the air in the heated room through air-water heat exchangers. The water heated in the heat exchanger 8 is supplied by the pump 11 to the domestic hot water network, where it is disassembled by consumers of hot water.

Thus, due to the indicated embodiment of the boiler installation, an increased heat transfer is achieved in the circuits of the hot water boiler — heat exchangers, reducing the material consumption of the equipment, reducing the space occupied by the equipment, and also reducing the energy consumption.

Claims (1)

A boiler installation comprising a hot water boiler, heat exchangers of a heat network and / or hot water supply network (DHW) connected by pipelines to a boiler, a heat network and a hot water network, pumps providing water circulation in a heat network and a hot water network, characterized in that the heat exchangers DHW networks and networks are located in the body of the boiler and are made steam and water.