SU1408152A1 - Boiler plant - Google Patents

Abstract

This invention relates to the field of heat recovery. The purpose of the invention is to increase the efficiency of the installation. The air path of the hot stage 5 of the air preheater at the outlet is connected to the firebox. The water heater 6 is stirred, behind the cold stage 4 of the air heater along the gas paths and is made in the form of a foam apparatus with a failing grate 10. The apparatus is equipped with an overflow pipe 11. Step 4 is made in the form of a heat exchanger with an intermediate heat carrier, which is used with irrigation water of the water heater 6 which is connected through it with the step 4 through the holes of the failure grate 10 and the overflow pipe 11. In the water heater 6, an additional decrease in the temperature of gases and moisture condensation takes place. The use of such an installation by performing step 4 in the form of a heat exchanger with an intermediate heat carrier allows the heat of sulfur-containing fluorescent gases to be utilized during cooling from t 40-50 ° C and reducing the intensity of the installation. 1 il. Q (L

Description

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The invention relates to the field of heat recovery and can be used in fuel combustion devices.

The purpose of the invention is to increase the efficiency of increasing the degree of heat utilization of gases.

The drawing shows schematically the boiler plant.

The boiler plant contains a furnace that is connected to the chimney 2 through the duct 3, equipped with a two-stage air heater with cold and hot stages 4 and 5, and a contact heater 6. The air path of the air heater is connected to the chimney 2 by pipe 7 and the furnace I pipe 8. The heater 6 is equipped with a spray 9 spray water, placed behind a cold stage 4 air heater along the gas paths and is designed as a foam apparatus with a conventional grille 10 equipped with an overflow pipe J11. Hood stage 4 is made in the form of (heap exchanger with an intermediate heat exchanger, which is used as roshayapla water of the water heater 6, which is connected through it to the cold stage 4 through the holes of the failing grate 10 and translucent pipe 11. In the space of the water heater 6 heat transfer -1a surface 12 is located. Stages 4 and 5 of the air heater are connected by an air pipe 13 to a splash separator 14. The cold and gas compartments of the cold and 4 stages are separated by hydraulic locks 15, and its branch pipe is connected to its lower part. to 16 for draining water.

The boiler plant works as follows.

I Flue gases from the firebox 1 pass t - || I suspect an air preheater stage 5, cooled by air to 220–180 ° C, and enter its cold stage 4, where it is cooled down to a temperature below the dew point. the amount of intermediate coolant — water is constantly replenished by condensate from the flue gases and heated by 15WHD flowing from the water heater 6. Excess water is discharged through the drain pipe for treatment.

Further, the flue gases enter the water heater 6, where an additional decrease in the temperature of the flue gases and moisture condensation occurs. Part of the heat is removed from it by the coolant washing the inside of the surface 12. Intermediate heat transfer — water in the water heater 6 is constantly replenished by condensation from the hole5

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gases and slightly liquid supplied through the nebulizer 9, and the excess intermediate heat transfer fluid through the failure grate 10 and the overflow pipe 11 is fed to the cold stage 4.

Flue gases with a reduced absolute moisture content are mixed with a portion of the hot air supplied through conduit 7, and with a lower relative humidity the exhaust fan through chimney 2 is released into the atmosphere.

Atmospheric air, the passage of stage 4 of the air preheater, is heated in a gas-dynamic two-phase foam layer by an intermediate heat carrier — water. With a high relative humidity of about 100% and a temperature close to the dew point temperature, the atmospheric air through the splash separator 14 enters the hot stage 5, where it is heated to 160-200 ° C. With this temperature and, with a low relative humidity of 20%, most of the air (10/11) enters the furnace 1 of the boiler, and a small part (1/11) through line 7 is mixed with flue gases.

The use of a well-designed boiler installation by performing a cold stage 4 in the form of a heat exchanger with an intermediate heat carrier, communicated through it with a water heater 6 installed above as a foam apparatus, allows efficiently and deeply utilizing the heat of sulfur-containing flue gases when they are cooled to 40-50 ° C with less metal installation.

Claims (1)

Invention Formula 5 V A boiler room installation containing a firebox, communicated with the chimney through the flue, equipped with a two-stage air heater with cold and hot steps, the air path of which at the outlet is connected to the chimney, and contact water heater with a spray of irrigation water, different from that in order to increase efficiency by increasing the degree heat recovery of gases, the air path of the hot stage at the outlet is connected to the firebox, the water heater is placed behind the cold stage of the air heater along the gases and is made in the form of a foam apparatus with Shaft grating provided with overflow pipe, and The cold stage is made in the form of a heat exchanger with an intermediate heat carrier, which uses irrigating water, while the foam apparatus and the heat exchanger are connected through the holes of the failing grate to the non- conductive pipe through the latter. 0 five