SU579501A1 - Hot water supplu of buildings with centralized preparation of water in boiler room - Google Patents

Description

(54) HOT WATER SUPPLY SYSTEM OF BUILDINGS WITH

Claims (1)

CENTRALIZED PROCESSING OF WATER IN THE BOILER'S OPERATION The system is as follows. The cooled water through the return pipe of the water 7 of the intermediate flask enters the contact part of the contact-surface water heater 1, from where it is taken up by the pump and pumped through the water jacket of the water heater, where it is heated to the required temperature. The heated water is then supplied through the supply pipe of the intermediate circuit water 6 partially to the first stage 2 of the intermediate heat exchanger and partially to the partial intermediate heat exchanger 4. After these heat exchangers, all the intermediate circuit water is pumped through the second stage 3 of the intermediate heat exchanger and through the return pipe 7 of the intermediate heat exchanger contour enters the contour-surface water heater 1. Initial water from the water mains passes sequentially through the second 3 and first 2 stages of the intermediate of the heat exchanger where it is heated to normal temperature and through the heated source water pipeline 8 enters the storage tank 5, and the storage tank 5 water with a standard temperature goes through the supply pipeline to the consumers. Uninfluenced cooled water passes through the flow back pipe 1O through an additional intermediate heat exchanger 4, where it is heated to the standard temperature and enters the storage tank. To maximize the efficiency of the circuit and, accordingly, maximize energy loss, the surface of the additional heat exchanger is selected from the condition that the source water temperature is equal to the temperature of the heated circulating water, and the ratio between the heating surfaces of both stages of the main intermediate heat exchanger is equal. The temperature of the water flows in the intermediate circuit is maintained when they are in front of the second stage of the intermediate heat exchanger. When developing a hot water supply system according to this scheme, the total surface of the intermediate heat exchangers does not increase, because at the expense of the additional heat exchanger yctaHOBKH the surface of the main intermediate heat exchanger is reduced. The invention will allow to increase the KPD of the water heater by 3% and bring it to 97% in terms of the highest heat of combustion of natural gas. With a thermal capacity of one water heater of 1 MW, the annual economy of natural gas will be 25OO m, which will give an annual economic effect of 500 rubles. Claims of the Invention A hot water supply system for a building with centralized water preparation in a boiler room, containing a contact / surface water heater, an accumulator tank with a pump, supply and discharge pipes, an intermediate circuit with a surface heat exchanger for heating the source water, divided into two successive stages, characterized by so that, in order to increase the efficiency of the contact-surface heater, the system is equipped with an additional surface heat exchanger for heating the circulation water before it is fed into the tank-accumulator. Sources of information taken into account in the examination; 1. The boiler room with six boilers Energy -b for centralized heat supply, ventilation and hot water supply. Model project 9OZ-1-69, sp. III 2, Sosnin Yu. P. Contact water heaters, M., Stroyizdat, 1974, p. 275,. 110. , N