SU601528A1 - Open hot-water supply system - Google Patents

Description

one

The invention of the system is centralized: for the heat and energy of residential, public and industrial buildings from thermal power plants, in particular, to open heating plants.

A well-known heat supply system, in which the heat return pipe is connected to the battery tank, in which the water temperature is maintained at a level of 60 ° C: C by supplying it to a separate water pipe | , 1 on: d) a rey in mains heaters. This water is supplied to reheat the chemically purified feed water. In the vacuum deaerator, a pipeline connects the output P1 tubing of the network preheater of the upper stage with the internal cavity of the vacuum deaerator 1.

The closest technical solution to the invention is an open heating system comprising supply and return pipelines, a vacuum deaerator with inlet and outlet nozzles, a seteväg under the heaters, and peak water boilers 2.

A disadvantage of the known systems is the inequality of the generation of electricity at a CHP plant during the day at an outdoor air temperature above -1 ° C, which is caused by a change in the temperature of the water entering the heat preheaters in

depending on the time: boron of hot water at consumers.

The aim of the invention is to increase the efficiency of the system.

The goal is achieved by the fact that the return pipe is connected to the inlet of the vacuum deaerator.

The drawing shows a diagram of an open teplofishchikonnoy system.

The system contains item 1 of chemical water purification, connected by pipeline 2 to a vacuum deaerator 3, which by pipe 4 with temperature controller 5 installed on it is connected to the return pipe of the heat network 6, which, in turn, is connected to a storage tank 7 supplied with a pressure regulator up to 8 and a make-up pump 9 installed on the bypass on the connection pipe 0. The outlet 11 of the deaerator 3 is connected after the check valve 12 to the pipe 3 supplying water to the network heaters n Also 14 and the top / 5 steps and in the peak boiler 16, which is directly connected to the supply pipe of the heating network 17

For carrying out the water supply to the network heaters 14 and 15, a booster pump 18 is used, and the network pump 19 is used to supply water to the consumers. The system has the following effect: the heater is heated in a turbine condenser up to 30 ° C of the water in a quantity of water. , break the average daily consumption of hot water from consumers, enters the installation of chemical water purification, and then into va kumic dsaerato1r 3, in which it is recharged to 40 ° C with water from the back pipe of TS1PLL3030Y network 6 or supplied from the accumulator tank torus and 7 by pump 9 in those hours of suto. In the storage tank 7, water from the oooral pipeline arrives at those hours of the day when the analysis of the hot water is practically absent (at night) less than the average for the given day of the week. At this, m water from a vacuum, m deo aerator 5 with a temperature of 40 ° C, a smeshapla with a return tubing section 6, or from a storage tank 7, is fed with booster pump 18 to heat the mains heater 14 and 15, and then with a network pump 19: there is a peak heating boiler 16, after which the water flows through the supply pipe 1, to it a pipe line thermal sesh 17 to the heat point of the consumers. The proposed heat supply system will reduce the capital investment of heat grids by 14%, increase the efficiency of the piai6oTbi CHP plant and reduce fuel consumption. Formulas, a and 3 o brege, n, and a heating system is open, containing both supply and return pipelines, a 1-section deaerator with inlet and outlet connections, network heaters and peak VzdSgreyne boilers; that, in order to increase the efficiency of the nocT-i, the return pipe is connected to the inlet of the vacuum deaerator. Sources of information taken in the examination: 1.SoKolov E. Ya. Heat and heat networks, M., Energie, 1975, p. 57. 2. USSR author's certificate К ° 335272, cl. From 02 to 1/10, 1970.

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