SU1188450A1 - Heat exchanger - Google Patents

Abstract

HEAT EXCHANGER, comprising a housing with nozzles for steam supply, removal of non-condensable gases and a piping system, together with the supply and removal nozzles of the cooling medium and the water chamber, the cooling medium path, as well as an air cooler located in the housing with at least two compartments, one of which is the inlet is connected to a pipe for supplying additional cooling medium, which is characterized by the fact that, in order to increase reliability and efficiency, the first air-cooling compartment along the steam-air mixture is made Surface and connected at the outlet to the path of the cooling medium .. in 00 O) 42 SP

Description

1 The invention relates to heat and heat engineering, namely to heat exchangers installed in low-pressure regenerative heating systems, heating network water using this heating steam taken from the intermediate stages of a turbine or steam heating boilers. The aim of the invention is to improve the reliability and efficiency. The drawing shows schematically a heat exchanger, a section. The heat exchanger includes a housing 1 with nozzles 2 and 3 for supplying steam and removing non-condensable gases, respectively, and a pipe system 4, forming together with nozzles 5 and 6, respectively, supplying, and withdrawing the cooling medium and the water chamber 7, the cooling medium path and an air cooler containing at least two compartments 8 and 9, with the first air-cooled mixture compartment 8 air cooler compartment 8 being surface-mounted and connected at the inlet to the nozzle 10 supplying additional cooling chambers, and at the outlet to the tpaKty oh blessed with dy, and the second along the steam-air mixture btsek 9 mixing Type. The heat exchanger also contains a perforated vertical pipe 1 for removing non-condensable gases, connected to the pipe 3, Pat02 on the side 12 of the condensate drain, chamber 13 of the additional cooling medium formed by the partition 14 and tube sheet 15 and communicated with pipe 10 and the compartment 8. When the heat exchanger runs, the main stream the cooling medium (nutrient or network water) enters through the pipe 5 into the water chamber 7, from where into the pipe system 4, after which it is removed from the heat exchanger through pipe 6, the steam flow enters the casing 1 evatel through the pipe 2 and after condensation in trubnyy system 4 remaining non-condensible gases are fed into the mixing chamber 9 coolers. The efficiency of the mixing air cooler is increased due to the deeper cooling of the heating steam condensate, which is provided by supplying an additional cooling medium (cold water, for example, from a previous heater) through the nozzle 10. As a result of supplying cold water to the pipe zone of the first-stroke heating surface located in front of the mixing air cooler, the condensate overcooling increases, which makes it possible to increase the amount of condensed steam from the steam-air mixture, increases the partial pressure of air in it, reduces the temperature and, consequently, the volume of exhaust gases .

Claims (1)

A HEAT EXCHANGER comprising a housing with nozzles for supplying steam, venting non-condensable gases and a pipe system forming, together with nozzles for supplying and venting a cooling medium and a water chamber, a cooling medium path, as well as an air cooler located in the housing with at least two compartments, one of which at the inlet it is connected to a branch pipe for supplying additional cooling medium, characterized in that, with the day of increasing reliability and efficiency, the first air cooler compartment along the air-vapor mixture is made of a surface tn and is connected at the outlet to the cooling medium path. 1188450 2