RU13081U1 - HEATING POWER PLANT VENTILATION SYSTEM - Google Patents

Abstract

The ventilation system of the premises of the thermal power plant, containing at least one air distributor with a stream of supply jets directed to the surface of the heat-generating equipment placed in the room under this air distributor, characterized in that the air distributor is made with a supply stream flow area of 1.20 ... 1 , 35 of the surface of the heat-generating equipment located below it.

Description

VENTILATION SYSTEM OF HEAT POWER PLANT

The utility model relates to the field of ventilation of the premises of a thermal power plant, in particular, in its main building.

The closest technical solution known is the ventilation system of the premises of a thermal power plant, containing at least one air distributor with a stream of supply jets directed to the surface of the heat-generating equipment located in the room under this air distributor (see USSR author's certificate N 1333987, class F24F 7 / 04, 1986).

A disadvantage of the known ventilation system is that it does not provide the required parameters of the air and environment at the operating elevations and in the service areas of the power plant premises, even with increased energy costs for operating this system. This disadvantage is due to the fact that in the known system there is no optimization of the surface of the flow of the supply jets of the air distributor relative to the surface of the heat-generating equipment located below it.

The purpose of the utility model is the creation of a ventilation system that provides the required parameters of the air at working elevations and in service areas

M.KL.5 F24F 7/04

power plants with moderate energy costs for the operation of this system.

In the ventilation system of the premises of a thermal power plant containing at least one air distributor with a stream of supply jets directed to the surface of the heat-generating equipment located indoors under this air distributor, the goal is achieved by the fact that the air distributor is made with a supply stream stream area of 1.20. ..1,35 of the surface of the heat-generating equipment placed under it.

Such a ratio of the flow area of the supply jets of the air distributor relative to the surface of the heat-generating equipment located under it, as shown by model studies, provides the required parameters of the air at operating elevations and in the service areas of the power plant at moderate energy costs for operating this system.

A decrease in this ratio below 1.20 leads to a sharp gas contamination and dustiness of the room (when the power plant is operating on solid fuel), as well as to an unacceptable sharp overheating of the air at low marks in the warm season and overcooling of the lower marks in the cold season. Increasing the specified ratio dramatically increases the energy consumption for the operation of the system.

The drawing conventionally shows the ventilation system of the premises of the main building of the thermal power plant.

the power plant contains at least one multi-jet air distributor 2 with a stream of supply jets directed to the surface of the fuel-generating turbine equipment 3. The turbine equipment 3 is located in the room

1 under the air distributor 2. The air distributor .2 is made with a supply air stream area of 1.20 ... 1.35 of the surface of the heat-generating equipment placed under it 3. Inspection and maintenance of the turbine equipment 3 occurs at working marks 4 and 5. The air distributor

2 is connected to the ventilation unit 6 directly or through an air heating unit 7.

In addition to room 1, the main building of the thermal power plant also includes room 8, which is separated from the room 1 by a partition 9, and room 10 with a boiler I. The partition 9 is designed to prevent dust and gases from rooms 8 and 10 from entering room 1 (during operation of the power plant solid fuel), but it is in the zone between marks 4 and 5 made with a ventilation opening 12. Boiler I has a path 13 for supplying blast air into it, which includes a blow fan 14. The air intake section 15 of the path 13 can be connected either to the top her part of the room 10 or to the outside air. On the ceiling of the room 10 installed aeration lamp 16.

The ventilation system of the premises of a thermal power plant operates as follows.

In the warm season, with the help of a ventilation unit 6, air is supplied to the air distributor 2, which forms

the flow of the supply jets directed to the heat-generating equipment 3. This provides the required parameters of the air at working marks 4 and 5. The air is removed from the room 1 through the opening 12 in the partition 9 due to the vacuum created by the blower fan 14. The air from the room 10 sent to the path 13 and then to the boiler 11 for burning fuel in it. Part of the air from the room 10 is removed through the aeration lamp 16.

In the cold season, the ventilation of room 1 and the entire main building occurs as well as in the warm season, with the only difference being that the supply air is heated to a predetermined temperature in unit 7 before being fed to the air distributor 2.

Agent of the applicant .J / L.M. Andreev /

Claims (1)

The ventilation system of the premises of the thermal power plant, containing at least one air distributor with a stream of supply jets directed to the surface of the heat-generating equipment located in the room under this air distributor, characterized in that the air distributor is made with a supply stream flow area of 1.20 ... 1 , 35 of the surface of the heat-generating equipment located below it.