RU2022212C1 - System for heat supply - Google Patents

Abstract

FIELD: heating systems. SUBSTANCE: system has heat exchanger 1 provided with intermediate heat carrier 2, condenser 3, evaporator 4, pipe lines 10,11 for straight-run and return system water, tank 9 for influent water, water jet ejectors 6,7,8, and circulating pump 14. The pipe line for strait-run system water is connected with heat exchanging surface of the evaporator. The pipe line for return system water is connected with heat exchanging surface of the condenser. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to a power system, and in particular to systems for the preparation of additional water, and can be used to make up for water losses in heat networks.

 A known heat supply system with the preparation of the treatment of make-up water, containing H-cation exchange filter, atmospheric deaerator, decarbonizer, pumps, heat exchangers and intermediate tanks [1].

 The main disadvantage of this system is its low efficiency, due to the consumption of ion-exchange materials (reagents), the presence of wastewater after the regeneration of filters, and therefore, the introduction of additional mineral salts into the environment, and the frequency of the system.

 A known heat supply system comprising an evaporator connected to steam pipelines, a secondary steam condenser connected to a return pipe of the heating network [2].

 The disadvantage of this system is the low efficiency due to the cost of direct heat for the evaporation of feed water.

 The aim of the invention is to increase efficiency and durability, reducing the cost of heat and cooling water.

 The drawing shows a diagram of a heat supply system.

 The system contains a heat exchanger 1 with an intermediate coolant 2, a condenser 3 and an evaporator 4, a tray 5 for collecting distillate, water-jet ejectors 6, 7, 8, a source water tank 9, pipelines 10, 11 of direct and reverse network water, a heat consumer 12, a network pump 13, circulation pump 14, boiler unit 15.

 The heat supply system operates as follows.

Direct heating water having a temperature ^of 105 C is supplied to the evaporator 4 of the heat exchanger 1 where it gives off heat to the intermediate heat-carrier 2, while being cooled to a temperature of 95 ^{° C,} and heat is supplied to the consumer network 12. Feedback water with temperature 70 ^{° C} network 13 is supplied to the pump capacitor 3 is heated to a temperature of 80-81 ^{° C} and enters boiler 15. The intermediate heat transfer medium due to the depression created in the heat exchanger 1, the ejector 8, effervescence formed water vapor condenses on the condenser heat exchanger surface ora 3. The condensate flows down into the sump 5 and a water ejector 6 is output from the apparatus in line 11 back system water. Feed water having a temperature of 5-20 ^{° C} is supplied to the tank 9, the raw water is mixed with the circulation water by ejectors 6, 7, 8 and the pump 14 is supplied to the shell side of the heat exchanger 1. Derivation of blowdown water from the heat exchanger is performed elevator (ejector 7). Maintaining a vacuum in the heat exchanger 1, corresponding to the saturation temperature of the intermediate coolant 2, is carried out by the ejector 8. To maintain a certain concentration and temperature, a purge is provided in the circulation circuit from the source water tank 9.

Claims (1)

 HEAT SUPPLY SYSTEM, containing direct and return pipelines of network water, an evaporator, a condenser and a distillate collector connected to the return piping, characterized in that, in order to increase efficiency, reduce heat and cooling water costs, the evaporator is connected to a direct piping, and the distillate collector is connected to return piping of network water to recharge the system.