SU1508047A1 - Boiler unit - Google Patents

Abstract

The invention can be used in utilization plants operating on hot gases after internal combustion engines and industrial furnaces. The purpose of the invention is to increase efficiency and reliability. The circuit 1 includes a separator 2, a discharge pipe 3 with a circulation pump 15 and a heating surface 4. Warm box 8 is connected to the feed pipe 9 through the feed pump 10 and the control valve 11 to the separator 2, and the condenser 5 through the condensate pump 6, the discharge pipe 7, heat exchangers 12, 13, 14 to the zone 16 of the feed pipe 9 after the control valve 11 along flow and to the discharge pipe 3 before the circulation pump 15. The heat exchanger 13 is connected to the warm box 8 through the condenser condenser 17. The supply of the main part of the condensate to the separator 2 through the heat exchangers 12, 13, 14, in addition to the warm box 8, prevents the condensate from being saturated with oxygen, increases the reliability of the heating surface 4, and increases the utilization of heat from the hot condensate of external consumers. 1 il.

Description

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The invention relates to a power system and can be used in utilization plants operating on hot gases and after internal combustion engines and industrial furnaces.

The purpose of the invention is to increase efficiency and reliability.

The drawing shows a schematic diagram of the installation.

The boiler plant contains a separator 2 connected in series to form a circulation circuit 1, a downstream pipeline 3 and a heating surface 4, as well as a condenser 5 connected via a condensate pump 6 to a pressure pipe 7, a warm box 8 connected by a feed pipe 9 through feed pump 10 and control valve 11 to the separator 2, and heat exchangers 12-14. The installation is additionally equipped with a circulation pump 15 included in the discharge pipe 3 of the circulation circuit 1. The discharge pipe 7 is connected via heat exchangers 12-14 to zone 16 of the feed pipe 9 after the regulating valve 11 along the flow path and to the discharge pipe 3 before the circulation pump 15. The heat exchanger 13 is connected to the warm box 8 through condensate cooler 17.

During the operation of the plant, the main part of the condensate after de-aeration in the condenser 5 is directed by the condensate pump 6 through heat exchangers 12-14 to the separator 2. If necessary, the condensate can be supplied to the discharge pipe 3, which

The stability of the circulation of water in the circuit 1 of circulation and the efficiency of heat exchange in the heating surface 4 melts.

Oxygenated hot condensate from external consumers is supplied to the warm box 8 through the heat exchanger 13, where it is cooled to prevent steaming of the warm box 8. If necessary, additional cooling is carried out in the condensate cooler 17. From the warm box 8, the condensate of external consumers is sent to separator 2.

The installation makes it possible to prevent the main part of the condensate fed to the separator 2 from the condenser 5 from being saturated with oxygen, to utilize the heat of hot condensate from external consumers, and to increase the reliability of the heating surface 4.

Claims (1)

Invention Formula A boiler plant containing a separator connected in series to form a circulation loop, an overflow pipe and a heating surface, as well as a condenser connected to a pressure pipe through a condensate pump, a warm box connected by a feed pipe to a separator, and heat exchangers characterized in that, in order to increase reliability and efficiency, it is additionally equipped with a circulation pump included in the downhole circuit of the circuit In this case, the pressure pipeline is connected through the aforementioned heat exchangers to the zone of the feed pipe after the control valve downstream and to the descending pipe in front of the circulation pump.