SU1106957A1 - Waste heat recovering plant - Google Patents

Abstract

HEAT DISPENSER containing a vertical gas duct connected by the bottom part to the source of heating gases and placed in it one above the other, respectively, a heat exchanger, a sprinkler and a moisture collector, the last of which is connected to the sprinkler to form a closed circulation loop, in order to increase the thermal efficiency by more fully utilizing the heat of the flue gases, the circulation loop is connected to the make-up pipe between the irrigator and the water collector, and d is an additional heat exchanger orositap connected to the compartment with its -education circulation circuit. (L

Description

The invention relates to a power system and can be used to utilize waste heat from various plants.

Known heat recovery unit containing a source of heating gases, in the duct which are arranged sequentially along the flow of gases, the sprinkler and a surface heat exchanger included in the closed loop of the intermediate coolant, and the sprinkler is connected with its input to the pipeline connected to the pan [1].

The disadvantage of this heat recovery unit is the inability to control the temperature and humidity of the heating gases in the duct in front of the surface heat exchanger.

Closest to the invention is a heat recovery unit comprising a vertical duct connected to the source of heating gases by a lower part and a heat exchanger, sprinkler and moisture collector arranged one above the other, the last of which is connected to the sprinkler to form a closed circulation circuit connected to the feed pipe [ 2]. 2

A disadvantage of the known heat recovery unit is insufficient heat recovery due to the fact that the main heat loss is triggered in the initial section of the surface heat exchanger along the gases, and the absence of regulation of length ^{3 of} this section, as well as contamination of the final section of the surface heat exchanger with flue gas impurities.

The purpose of the invention is to increase thermal efficiency by more fully utilizing the heat of the flue gases.

This goal is achieved by the fact that in a heat recovery unit containing a vertical duct connected to the source of heating gases by a lower part and 4 located in it one above the other, respectively, a heat exchanger, a sprinkler and a moisture collector, the last of which is connected to a sprinkler to form a closed circulation circuit connected to the feed pipe, a circulation circuit connected to the sub-heel tube ⁴ between the sprinkler and the water trap, and an additional heat exchanger on the sprinkler connected to vlagosbo nick to form its circulation loop. _t

The drawing schematically shows a heat recovery unit, General view.

The heat recovery unit contains a vertical flue 1, the lower part of which is connected to a source of heating gases 2, which can be, for example, a spray dryer. In the duct 1, one above the other, respectively, a surface heat exchanger 3, a sprinkler 4 and a moisture collector 5 are placed, the last of which is connected to the sprinkler 4 with the formation of a closed О circulation circuit connected to the make-up pipe 6 between the sprinkler 4 and the moisture collector 5. An additional sprinkler is installed above the heat exchanger 3 7, connected to the moisture collector 5 with the formation of its circulation circuit. 5 Heat recovery works as follows.

Hot gases are fed into the vertical flue pipe 1 from the source 2 heating gases, wherein the gases move upward sequentially giving heat to the water spray oro ⁰ Sitel 4 and simultaneously humidified pass shell space surface heat exchanger 3, in which the condensation of water vapor, which intensifies heat transfer at the initial 5 portion of the surface heat exchanger 3. The heat removed by the surface heat exchanger 3 is removed to the consumer. The flue gases are additionally irrigated with water supplied through an additional sprinkler 7, and give it part of their heat. Water from the sprinkler 7 washes the final section of the surface heat exchanger 3 and washes away the contaminants deposited on its pipes. Water in the sprinklers 4 is taken from the moisture collector 5, where it flows in the process of heat exchange with gases.

The water supply to the sprinklers 4 and 7 is carried out through the corresponding circulation circuits. The parameters of the water supplied to the sprinklers 4 and 7 are controlled using the make-up pipe 6. In this case, the parameters of the water sprayed by the sprinkler 4 affect the gas parameters in front of the surface heat exchanger 3, which allows it to give more heat from the gases.

The connection of the circulation circuit with the make-up pipe between the sprinkler and the moisture collector, the installation of an additional sprinkler above the heat exchanger, connected to the moisture collector with the formation of its own circulation circuit, will allow more complete utilization of the heat of the flue gases and increase the efficiency of heat recovery.

Claims (1)

A HEAT UTILIZER, comprising a vertical duct connected to the bottom of the heating gas source and arranged one above the other, respectively, a heat exchanger, a sprinkler and a water collector, the last of which is connected to the sprinkler to form a closed circulation circuit connected to the feed pipe, characterized in that , in order to increase thermal efficiency by more fully utilizing the heat of the flue gases, the circulation circuit is connected to the feed pipe between the sprinkler and the moisture collector, and above the heat The exchanger has an additional sprinkler connected to the moisture collector with the formation of its circulation circuit. SU, .., 1106957>