SU1151802A1 - Power processing set - Google Patents

Abstract

ENERGY-ENGINEERING UNIT containing furnace, evaporative heating surface located in the high-temperature zone of the unit, and convective tubular air heater with air inlet and outlet nozzles, characterized in that, in order to increase the unit’s reliability in operation and increase fuel efficiency, the unit is equipped with an additional circulator contour, the evaporative heating surface is made in the form of heat pipes, the condensation regions of which are located in an additional cir st flow circuit, wherein inlet pipe is connected to its air inlet and outlet - with convective tubular air heater. sl 00 about 1C

Description

The invention relates to industrial heat and power engineering and can be used, for example, for heating and thermal furnaces.

Power technological units are known that contain a working chamber, for example, a heating furnace, and a recovery device Cl,

The closest to the proposed technical entity is a unit consisting of a heating furnace, a superheater, evaporative heating surfaces, a water economizer, a tubular air heater with chambers for air inlet and outlet from, the heating surface of the superheater, the evaporative part and the economizer are located in the high temperature the unit zone, and the tubular air heater is installed behind the water economizer l2l,

A disadvantage of the known power technology unit with deep heat utilization is low reliability due to the corrosive effect of flue gases on the tail surfaces of the air preheater due to a decrease in wall temperature below the dew point. In addition, the failure of a single pipe evaporative heating surface leads to an emergency stop of the unit.

The aim of the invention is to improve the reliability of the unit, increasing the efficiency of using NIN fuel.

The goal is achieved by the fact that in an energy technology ai-regatta containing a furnace, an evaporative heating surface located in the high-temperature zone of the unit, and a convective tubular air heater with air inlet and outlet connections, the unit is equipped with an additional circulation loop, the evaporation heating surface pipes, condensation sections of which are located in the additional circulation circuit, while its inlet is connected to the air inlet nozzle and the outlet - a tubular air convection.

Figure 1 shows the power technology unit, a longitudinal section; 2, the same plan; in FIG. 3, section AA is on FIG1; Fig, 4 section bb in Fig.Z.

Energy technology unit consists of a furnace 1, in which nazgrev, for example, metal, gas duct 2, evaporative heating surface, made of heat pipes 3, whose condensation zones, combined by collectors 4 and 5 in

heat exchanger-cooler, connected by perforated fins 6, tubular air heater 7 of the second degree with chamber 8 for air outlet and tubular air heater 9 of the first stage with chamber 10 for supplying air.

Between the tubular air preheaters 7 and 9, there is an evaporating surface of heat pipes 11, the condensation zone of which is connected by collectors 12 and 13.

The condensation zones of heat pipes 3 and 11 are interconnected by pipes 14 and 15. The collectors 4 and 5 of heat pipes 3 are placed in a gas-tight casing 16, which, together with chambers 8 and 10, forms a common case l of air movement. The casing 16 is connected by air ducts 17 to the entrance chamber .1.0 of the air preheater 9 of the first stage and has a nipple 1

The unit works as follows.

In furnace 1, fuel is burned to heat, for example, metal. Exhaust gases enter the gas duct 2, heat the coolant in heat pipes 3 and 11, and preheat the air in air heaters 7 and 8.

The water enters the heat exchanger cooler through the collector 5 and further, after passing through the collector 13 pipes 14 and 15 and collector 12 and 4,

It is heated to design temperature and is used for production purposes. If necessary, low-level steam can be obtained in the collectors.

In order to determine the average air temperature of the tail surfaces of the air preheater above the dew point of the sulfuric acid corrosion, air is preheated, which is fed through pipe 18 into the casing 16. Air flows at uniform speed through the holes in the fins 6, is heated to 80-90 ° C and flows through the air ducts 17 Into the inlet chamber 10. From the inlet chamber Yu, the air passes through the tube of the air preheater 9 of the first stage, then washing the collectors 12 and 13 of the heat pipes 11 enters the tube of the air preheater 7 of the second stage and heated to the design temperature is fed to the furnace 1 for combustion.

The proposed energy technology unit has increased reliability, since each heat pipe of the evaporative heating surface is an autonomous circuit and the failure of individual heat pipes does not lead to

Claims (1)

ENERGY TECHNOLOGICAL UNIT containing a furnace, an evaporative heating surface located in the high-temperature zone of the unit, and a convective tubular air heater with nozzles for supplying and discharging air, characterized in that, in order to increase the reliability of the unit in operation and increase fuel efficiency, the unit is equipped with additional circulation circuit, the evaporative heating surface is made in the form of heat pipes, the condensation sections of which are located in an additional circulation circuit, while its inlet is connected to the air supply pipe, and the outlet to a convective tubular air heater.