SU887672A1 - Device for recuperating heat in the ventilation system of paper-making machine - Google Patents

Description

a steam-scraper telemetry unit, a water scrubber and an additional compressor, are sequentially installed in front of the first-stage regenerative heat exchanger, with the scubber line returning water to the condenser of the vapor compression unit.

The drawing shows a device for heat recovery.

The device contains a drying chamber 1, a scrubber 2, a compressor 3, regeneration teloblomeny 4, 6, respectively, and steps, t, shed “der 6, evaporator 7,. Compressor 8, condenser 9, throttle valve 10, fans 11, 12, respectively for air flow ъ drying kiln, measure and general ventilation,

The steam compressor heatpower installation contains an evaporator 7, a compressor 8, a kandensatar 9: and a throttle claian 10.

The device works as follows.

Otra bot: iy. Air from the dryer (measure 1 is sucked through scrubber 2 by compressor 3 and compressed to an optimal pressure determined by the required temperature of the compressed air. In scrubber 2, the airflow of dust from the paper dust is cleaned with the result that the water is heated and the air is cooled | Dust-compressed air from dust passes through the heat exchanger 4, where it transfers part of the heat to the air pumped into the drying chamber 1 by axial fans 11 from the papermaking machine hall (N. The air is heated in the heat exchanger 4 which eliminates steam heaters that are installed on the air stream. After heat exchanger 4, compressed air passes through heat exchanger 5, where it gives off heat to external air that is sucked in by centrifugal vectors 12, and is fed to the IB hall of papermaking machines. From the blast furnace unit 5, the compressed air enters the turbine expander 6. In the turbo duct / unit 6, the air expands and does work that partially compensates for the work expended in the compressor. After the turbo expander, the exhaust air is evaporated. 7 is removed to the atmosphere. In the polarizer 7, the heat of the exhaust air | goes to the steam of low-boiling liquid, for example, freon. The resulting freon vapor is compressed into the KOMinpeccope 8, and enters the condenser 9, where the freon vapor condenses and transfers heat to the water preheated in the scrubber 2. This Erda can be used for various purposes, in particular for technological needs.

Liquid freon from the condenser 9 through the throttle valve 10 enters the evaporator 7.

The installation of the cam iassor 3 on the exhaust air flow allows one to cut out the diagram from the circuit: exhaust fans, sushi, which are used in IB 1 fan ventilation systems, which also partially compensates for the amount spent in the compressor.

In the scrubber 2, the air is cleaned and cooled. A compressor 3 is installed behind the scrubber in front of the regenerative heat exchange / nicknames 4, 5, in which the pressure and temperature increase

of air. It is this combination of elements that allows to intensify the process of heat exchange and body utilization in the installation, as well as leads to the removal of dust and dust emissions into the atmosphere.

The device has a three-stage use of waste air heat: in a scrubber to heat water, in regenerative heat exchangers to heat technical air and air of the exchange air supply and in a steam compressor, a heat pump unit for further heating of water leaving the scrubber This ensures high technical and economic indicators of the proposed device. The temperature of the air leaving the device reaches the ambient temperature.

Claims (2)

1. USSR author's certificate number 508572, cl. D 21 F 5/20, 1969. 2. The patent of Germany No. .2630853, cl. D 21 F 5/20, -1976 (prototype). / 7fle / feir ff e "yi" f ffffr ffAixffvseiff