SU646142A1 - Waste gas heat recovery arrangement - Google Patents

Description

The invention relates to heat engineering and can be used for heat recovery in industrial plants, mainly in steel-making oxygen-converter shops. A boiler-cooler of radiation-type converter gases with a stationary installation for heating charge materials with waste gases, which is part of a cooler included in a circulation circuit and located obliquely above the converter, is known. The boiler is equipped with two gas exhaust paths located in the radiation section of the gas duct after the chamber for heating the charge and after the cooler of the converter gases l. A disadvantage of this device is its low efficiency. Also known is a waste gas heat exchanger containing a boiler with a purge pipe, an accumulator and a steam converter connected to the last primary side, the secondary side of which is connected to the 2J steam collector. The disadvantage of this device is the low degree of heat recovery from converter gases caused by Since the cooler purge water having a high temperature is not used to superheat the saturated steam after the steam converter. The aim of the invention is to increase the economy of the utilizer. To achieve this goal, a steam-water heat exchanger is connected between the collector and the steam converter, which is connected by water to the purge pipeline. In addition, the output of the heat exchanger water is in communication with the secondary side of the steam Converter. The drawing shows the utilizer, the overall appearance. The utilizer contains a boiler I with a ppc duct 2, an accumulator 3. and a steam converter 4 connected to the last primary side, the secondary side of which is connected to the steam collector 5. Between the steam collector 5 and the steam converter 4, a steam heat exchanger 6 is connected, which is connected by water to the purge pipeline 2. In addition, the output of the heat exchanger 6 by water is connected to the secondary side of the steam converter 4 by the pipeline 7. 10 from the pump 8 and the deaerator 9. Heat exchanger to 6 is connected to the deaerator 9. The boiler is switched on behind the converter 10. The waste heat exchanger works as follows.

during the period of maximum gassing from converter 10, due to the Perception of heat by the heating surfaces of the boiler -1, steam is released from its drum, entering the battery 3, which is charged. At the same time, the pipeline 2 of the water from the boiler 1 enters the steam heat exchanger 6, where it overheats the saturated steam from the steam converter 4. / The superheated steam in the heat exchanger 6 enters the collector, 5 and then goes to the plant-wide network. From the steam-water heat exchanger 6 is cooled, the water from the purge enters the deaerator 9 or through the pipeline 7 to the steam converter 4. Using the invention will increase the efficiency of heat recovery through the use of heat from the heat to produce superheated steam and heat from the steam feed

converter or in the steam converter itself.

Claims (2)

1. An exhaust gas heat exchanger containing a boiler with a purge pipe, a battery and a steam converter connected to the last primary side, the secondary side of which is connected to a steam collector, characterized in that, to increase economic efficiency, a steam heat exchanger is connected between the collector and the steam converter which is connected by water to the purge pipeline. 2. The utilizer according to claim 1, characterized in that the heat exchanger has a water outlet with a secondary side of the steam converter. Sources of information taken into account in the examination 1. Authors certificate of the USSR 312881, cl. p21 C 5/38, 1971. 2, V. Bondarenko et al. The degree of heat utilization of converter gases is optimal, the industrial power engineering, 1972, No. 6, p. 37.