SU937875A1 - Boiler unit - Google Patents

Description

(5) BOILER INSTALLATION

Claims (2)

The invention relates to energy and can be used in gasified boilers. Known boiler plant, containing a boiler with contact air heater and economizer 1 The disadvantage of such a boiler plant is its reduced efficiency due to the need to equip it with equipment for chemical treatment of water. The closest to the technical essence of the invention is a boiler installation, containing a boiler with contact air heater and economizer, as well as a surface heat exchanger with heating and heated water paths connected respectively to the economizer and air heater, and the after-heating heat exchanger with hot and cold pin of the last which is included in the heated water track of the surface exchanger between the latter and the air heater. Such a boiler plant eliminates the need for chemical treatment of water in connection with the production of condensate in the contact economizer to feed the heating system. The amount of this condensate is determined by the moisture content of the blast air, which in turn depends on the temperature of the heated water at the inlet to the contact air preheater. This temperature is caused by the consumption of the high-grade heat transfer fluid from the heat supply system through the hot reheat heat exchanger line. In addition, the amount of condensate formed in the contact economizer depends on the temperature of the water entering it (the lower the temperature, the greater the amount of condensate) 2. The disadvantage of such a plant is its reduced efficiency, on the one hand, the cost of condensate production high potential coolant, and on the other hand, insufficiently deep cooling of the combustion products by contact economizer due to the relatively high water temperature at the inlet to the economizer. The purpose of the invention is to increase the economy of the boiler plant by using the heat of water entering the economizer. This goal is achieved by the fact that the boiler plant is equipped with a compressor, a control valve and an evaporator connected by its hot line to the heating water path of the surface heat exchanger before the economizer and connected by its cold line through the compressor and the control valve respectively to the heat exchanger after heating . The drawing shows schematically the boiler plant. The boiler plant contains a boiler 1 with a contact air heater 2 and a contact economizer 3, as well as a surface heat exchanger with heating and heated water ducts connected respectively to economizer 3 and air heater 2. In addition, the plant is equipped with a heat exchanger 5 reheat with hot and cold lines, the last of which is included in the path of heated water from the surface heat exchanger between the latter and the air heater 2, compressor 6, control valve 7 and evaporator 8. Evaporator 8 on chen, its hot line in the path of the heating water heat exchanger poaejJXHocTHoro k before economizer 3 and connected its cold line through the compressor 6 and the expansion valve 7, respectively with the inlet and outlet of the heat exchanger the hot reheat line 5. The evaporator 8, the compressor 6, the reheat heat exchanger 5 and the regulating fan 7 form the heat pump circuit, in which the heat exchanger 5 reheat serves as a condenser. The heating water path of the surface heat exchanger k includes a series-connected economizer tray 3, a pump 9, the heat exchanger itself, a heat pump evaporator 8, an economizer water distributor 3 and an economizer heat exchange nozzle 3, and a heat exchanger heated water path k - a sump heater 2, a pump 10, the actual heat exchanger, heat exchanger 5 reheating of water (heat pump condenser), water distributor, air heater 2 and heat exchanger at the last charge. In addition, the unit has a heat exchanger 11 for heating the hot water supply system, connected in parallel to the heating water path of the heat exchanger t, calciner 12, condensate collection tank 13, deaerator I ,, exhaust fan 15 and chimney 16. The installation is connected to the consumer 17 of high-grade heat . Boiler installation works as follows. Combustion products after boiler 1 enter the contact economizer 3, from where the flue gases are exhausted by smoke exhauster 15 into chimney 16. Heated water is taken by pump 9 from economizer 3 pan, passes through heat exchangers 4 and 11, where it cools, then it cools further, passes the evaporator 8 of the Heat Pump, and returns to the water distributor of the contact economizer 3. The cooled water is taken from the tray of the contact air heater 2 and the pump 10 is pumped sequentially through the heat exchanger and heat A reheat heater 5 (heat pump condenser) in which it is heated to the required temperature and returned to the water distributor of the contact air heater 2. Water from the water supply system entering the hot water supply system is fed to the contact air heater 2, where it is mixed with the heated water. At the same time, a part of the tap water is spent on compensation of the water evaporated in the contact air heater 2, and the rest of the tap water is removed from the tray of the air heater 2 salt. Further, the hot water supply system water is supplied to the heat exchanger 11. Saturated air after the contact air heater 2 is fed to the boiler 1. From the boiler 1, the combustion products with the water vapor contained in them are sent to the contact economizer 2. Condensate (desalted to water) separates After being deeply cooled from the product of combustion, either in contact economizer 3, it is discharged from the pallet of contact economizer 3 through calciner 12 to collection tank 13, from where condensate is supplied to deaeter 1 and distant to recharge the syst heat supplying us with the consumer 17 high-grade heat. The refrigerant vapor in the heat pump circuit is compressed by compressor 6 and fed to heat exchanger 5, where it condenses. The refrigerant passed through the control valve 7, after which its pressure decreases, is directed to the evaporator 8, where it evaporates and enters the compressor 6 again. Due to the heat released during the condensation of the refrigerant, in the heat exchanger 5 there occurs a corresponding additional heating of the water circulating in path of the heated water of the surface heat exchanger k, by transferring the contact air heater 2 to the water distributor 2. In the evaporator 8, due to evaporation of the refrigerant, there is a corresponding additional cooling of the water circulating in the path g cutting water of a surface heat exchanger}, before entering the contact economizer 3 on the water distributor The proposed boiler installation device allows for additional heating of water before entering it in the contact air heater 2 due to low potential heat of the water entering the contact economizer 3, thereby eliminating the expenditure of a high-potential heat transfer agent for its own needs that increases the economy of the latter. Claims of the invention A boiler room installation containing a boiler with contact heater and economizer, as well as a surface heat exchanger with heating and heated water paths connected to an economizer and air heater respectively, and a reheating heat exchanger with hot and cold lines, the last of which is included in the heated water path surface heat exchanger between the latter and the air preheater, characterized by Aue, in order to increase efficiency by using the heat of water supplied Into the economizer, it is equipped with a compressor, a control valve and an evaporator connected by its hot line to the heating water path of the surface heat exchanger before the economizer and connected by its cold line through the compressor and the control valve, respectively, with the input and output of the hot line heat exchanger coil. Sources of information taken into account in the examination 1. The author's certificate of the USSR 808789, cl. F 2 H 1/10, 1978. 2. USSR author's certificate for application No. 275287, cl. Г 22 О 1 / Зб, 1979.