SU1065662A1 - Warm-air heating system - Google Patents

Abstract

The AIR HEATING SYSTEM, which contains a heat source with a gas duct, direct and return pipelines, an air duct, primary and secondary, contact heat exchange of NIKI with closed circulation circuits, a cooler and a return water heater, a network and circulation pumps, which are different from In order to increase efficiency, it is equipped with two heat pumps, and the evaporator of the first heat pump is installed on the circulation pipe of the main contact heat exchanger, and the condenser - on the return pipe boprovode after-heater, the evaporator of the second heat n.asosa installed in the return pipe after the cooler and the condenser - vhvozduhovode After further contact heat exchanger and the cooler return water to the circulation heater ustanovlony soot C. A flow circuit respectively and additional ground contact heat exchangers.

Description

The invention relates to heat supply, in particular to air heating systems in which water is the primary coolant. A well-known air-heating system, comprising a two-stage heat exchanger, one of the stages of which is located in the exhaust gas duct, a heat exchanger located in the duct, direct and return piping, and a network pump 1,3-Disadvantage of this system. is a relatively high temperature coolant in the return pipe 70-80 C. In connection with the low potential for the use of heat requires a large consumption of coolant, which leads to a high consumption of electricity for its transportation, significant costs for the construction of heat networks and losses heat in the return pipeline due to the high temperature of the coolant. The closest technical solution to the invention is an air heating system, containing a heat source with a gas duct and return pipelines, an air duct, main and additional contact heat exchangers with a loop, circulation cooler and heater, network and circulatory C2J. The disadvantages of the known moisture system are the use of a high-grade heat carrier in a surface heat exchanger, a relatively low degree of utilization of flue gas tenlots, a low temperature of water heating at the inlet to the heat generator, which can cause moisture condensation on its convective heating surfaces. The aim of the invention is to increase efficiency. The goal is achieved by the fact that the air heating system contains a source of heat with gas, a direct and return pipe, an air duct, main and additional contact heat exchangers with closed circulation circuits. cooler and HarpeBaTejjb return water, network and circulation pumps equipped with two heat pumps, the evaporator of the first heat pump installed on the circulation pipe of the main contact heat exchanger and the condenser on the return pipe after the heater, the evaporator of the second heat pump is installed on the return pipe after the cooler, and the condenser in the air duct after the additional contact heat exchanger, the cooler and the return water heater are installed on the circulation contacts Urah respectively additional and main contact heat exchangers. This solution makes it possible to use the low-grade heat of return water for heating the supply air, which is taken off by the evaporator of the heat pump and transferred to the condenser. This reduces the temperature of the return water and, accordingly, decreases the heat loss of the return pipe, as well as the temperature of the flue gases, which is caused by a decrease in the temperature of the water entering the sprinkler of the main contact heat exchanger. An even deeper cooling of flue gases is achieved by installing a heat pump evaporator with a sprinkler of the main contact heat exchanger, which makes it possible to use not only the obvious heat of the combustion products, but also the hidden heat of condensation of the water vapor contained in them. The heat taken by the evaporator from the water of the circulation circuit is transferred to the condenser back water in front of the boiler. Increasing the return water etheration tag reduces boiler fuel consumption and prevents the possibility of condensation of water vapor contained in the combustion products on the convective heating surfaces of the boiler and thus prevents their corrosion. A schematic diagram of the air heating system is shown in the drawing. The system contains heat source 1, in the exhaust gas flue of which the main contact heat exchanger 2 is installed with a closed circulation loop with a pump, a surface heat exchanger (return water heater) 3 and an evaporator 4 of the first heat pump 5 installed in a duct contact heat exchanger 6 with a closed circulator by the circuit and the pump and the surface heat exchanger (return water cooler) 7, the condenser 8 of the second heat pump 9, the consumer 1.0 of high-grade heat, which draws the pipe wire 11, return pipe 12, on which between the heat-storage tanks 7 and 3 there is an evaporator 13 of the heat pump 9, and between the heat exchanger 3 and the boiler 1, the condenser 14 of the heat pump 5, the network pump 15. The system works as follows. The water is heated in boiler 1 ,. supply line 1 is supplied to a high potential heat consumer 10, where it is partially cooled. .

Its deeper cooling occurs in the heat exchanger 7 and the evaporator 13 of the heat pump .9. Water is then pumped through the return pipe 12 by the network pump 15 to heat successively through the heat exchanger 3, the condenser 14 of the heat pump 5 and return to the boiler 1. The water of the closed circulation loop of the contact heat exchanger 2 is heated in it by the heat of the exhaust gases of the boiler 1, the pump is pumped through heat exchanger 3, heat pump evaporator 4. 5, where is she. cools, and is again supplied to the contact heat exchanger 2. The water of the closed circulation circuit of the contact heat exchanger 6, cooled in it by heating the supply air, is pumped through the heat exchanger 7 by the pump and again fed to the contact heat exchanger 6. The supply air. the air is initially heated in a contact heat exchanger 6, and then reheated in the condenser 8 of the heat pump 9.

The application of the proposed system will allow to exclude corrosion of convective heating surfaces of a hot water boiler. Annual economic effect due to deeper

cooling boiler flue gas

will be 431 rubles. at .1 Gcal / h thermal system capacity.

Claims (1)

AIR HEATING SYSTEM, containing a heat source with a gas duct, direct and return pipelines, an air duct, primary and secondary contact heat exchangers with closed circulation circuits, a chiller and heater for return water, mains and circulation pumps, and heating in order to increase efficiency, it is equipped with two heat pumps, the evaporator of the first heat pump being installed on the circulation pipe of the main contact heat exchanger, and the condenser on the return pipe after the heater, the evaporator of the second heat pump is installed in the return pipe after the cooler, and the condenser in the duct. SLI ,,,, 1065662