SU1672160A2 - Waste-gas heat recovery unit - Google Patents

Abstract

The invention relates to the utilization of heat and can be used in a power system. Its goal is to increase efficiency by utilizing heat losses from the boiler unit. Part of the heat produced during combustion of fuel is lost through the fencing of the boiler unit 1 and is transferred to the air (B) inside the boiler room 16. These heat losses are utilized by the air cooler 13. Pumped by the fan B, passing through the pipes of the surfaces 14, is cooled, releasing heat to the circulating in circuit 2 heat carrier (T). Then B is thrown into the boiler room 16. The T is evaporated and sucked in by the compressor 10, compressed in it. In the heat exchanger 7 from T, the medium supplied to the consumer is heated. 1 il.

Description

The invention relates to heat recovery, can be used in the power system and is an improvement of the device according to auth. No. 1011959.

The purpose of the invention is to increase efficiency in operation by utilizing the heat loss of the boiler unit.

The drawing shows a diagram of a heat recovery unit.

The waste gas heat exchanger from the boiler unit 1 contains a circulation circuit 2 for the coolant, in which there is a contact economizer 3 with nozzles 4 and 5 of the working and cooling gas inlet, a pump 6 and one of the 15 cavities of the heat exchanger 7, the second cavity of which is connected by lines 8 and 9 is connected to a heat consumer. The utilizer also comprises a heat pump including a compressor 10. a choke 11 and an evaporator 12. The heat exchanger 7 is a condenser. The utilizer also includes an air cooler 13 with heat exchange surfaces 14 included in the circulation circuit 2 parallel to the heat pump evaporator 12, and a fan 15 located in front of the surfaces 14. The air cooler 13 is installed in the upper zone of the boiler room 16.

The utilizer works as follows 30 *

The exhaust gases resulting from the combustion of fuel in unit 1 enter the contact economizer 3, in which they are irrigated with a cispotential coolant circulating along circuit 2, connecting the evaporator 12 and contact economizer 3. In this case, the exhaust gases are cooled and the coolant is heated. The heated coolant entering the evaporator 12 is cooled to the required temperatures due to the evaporation of its part.

Despite the thermal insulation of the boiler unit, part of the heat generated during fuel combustion is transferred to the boiler room air and its temperature rises, creating uncomfortable conditions for those working inside the boiler room 16. To utilize these heat losses. and also to create more comfortable conditions, an air cooler 13 is used. The air pumped by the fan 15, passing through the pipes of the surfaces 14, is cooled. 10 transferring heat to a part of the heat carrier conducting inside the pipes of surfaces 14. In this case, the heat carrier evaporates.

The coolant vapors evaporated in the evaporator 12 and the air cooler 13 are sucked up by the compressor 10 and are compressed in it to the necessary pressures and temperatures required by the heat consumers (for example, up to 70-85 ° C). When condensing the vapors of heat carrier 20 in the condenser of the heat exchanger 7, the heated medium receives heat and is transported through line 8 to consumers and back through line 9. The condensate of the heat carrier is throttled in the choke 25 11 and enters the evaporator 12 and the air cooler 13, closing the duty cycle,

As a result, utilization of both the heat of the exhaust gases and the heat loss from the boiler, which is on average from 1.5 to 5-6% of the heat output of the boiler, is ensured, and comfortable conditions are created for staff.

Claims (1)

Claim 35 Waste gas heat exchanger according to ed. No. 1011959, characterized in that. that, in order to increase work efficiency by utilizing heat losses of the boiler unit, it additionally contains an air cooler with heat exchange surfaces included in the circulation circuit parallel to the heat pump evaporator, and a fan located in front of the heat exchange surfaces.