SU1751619A1 - Heating system - Google Patents

Abstract

Usage: in the field of energy, in particular in heating systems of buildings and structures, Summary of the invention: a heating system consists of a heating chamber 1 with a phase electrode 2 communicated with a compensation tank 3 and through check valves 4 with a heat exchanger made of two sections 5 and 6 which are connected with the additional heating chamber 7 with the phase electrode 8. 1 sludge.

Description

The invention relates to energy, in particular to heating systems for buildings and structures.

Known electrode water heater containing a housing with a heat exchanger and a central sealed chamber in communication with a compensation tank filled with an intermediate heat transfer medium with the formation of liquid and gas volumes and equipped with a phase electrode.

Such a heater has limited functionality.

A known solar heating system comprising a solar evaporator, a metering tank located above it and a condenser located beneath them, connected by a supply pipe to a solar evaporator, and discharge through a condensate collector and a check valve to a metering tank. The condensate collector is made in the form of a pump with a sealed gas cavity separated by a membrane and is equipped with an additional non-return valve installed in the condenser’s outlet pipe, and the upper points of the solar evaporator and metering tank are connected by an additional pipeline.

Such a heating system cannot provide a stable temperature of the heated object, since the heated intermediate heat carrier enters the heat exchanger • in pulses and with large pauses necessary for heating the intermediate heat carrier in the heating chamber.,.

The purpose of the invention is to increase the temperature stability.

This goal is achieved by the fact that the system is equipped with an additional heating chamber, the heat exchanger is made in the form of two sections communicated with each other by means of an additional heating chamber.

The drawing shows an electric heating system.

It consists of a heating chamber 1 with a phase electrode 2, filled with an intermediate coolant and communicated with a compensation tank 3 and through check valves 4 with a heat exchanger made of two sections 5 and 6. An additional heating chamber 7 with a phase electrode is connected between sections 5 and 6 of the heat exchanger 8 so that the output of section 6 is connected to the heating chamber 7 in its upper part, and the input of section 5 is connected to the heating chamber 7 in its lower part. __

The heating system operates as follows.

When a supply voltage is applied, the electric current flowing between the phase electrode 2 and the casing of the heating chamber 1, which functions as the zero electrode, generates heat, the temperature of the intermediate coolant rises and the pressure of its vapor in the heating chamber 1. Upon reaching a certain pressure level, the pairs of the intermediate coolant displace the heated chamber 1 through the check valve 4. and section 6 of the heat exchanger into the additional heating chamber 7. When lowering the level of coolant in the chamber 1 lower phase working surface of the electrode 2 is interrupted electric current circuit and heating the coolant in the chamber 1 is stopped. After passing through the heat exchanger section 6 and transferring heat to the heated medium, the coolant enters the additional heating chamber 7 and fills it, while an electric current begins to flow between the phase electrode 8 and the housing of the heating chamber 7, the temperature and vapor pressure of the intermediate coolant in the chamber 7 increase. when a certain pressure level is reached, the steam of the intermediate coolant displaces the coolant from the chamber 7 into the heating chamber 1 and through the heat exchanger section 5 and the check valve 4. Having passed through h section 5 of the heat exchanger and giving heat to the medium to be heated, the coolant fills the chamber 1, while the heating of the coolant in the chamber 7 is stopped, and in the chamber 1 begins. Further work takes place according to the cycle described above. In the event that for any reason the heat removal from the heat exchanger ceases, then. in both heating chambers the temperature and vapor pressure of the intermediate coolant will increase, while the coolant will be displaced into the compensation tank 3, compressing the gas contained in it, in both heating chambers the coolant will fall below the working surface of the phase electrodes and the heat generation will stop.

If heat consumption resumes, the vapor pressure in chambers 1 and 7 will decrease, the coolant will enter chamber 1 and the heating system will resume operation.

Claims (1)

Claim A heating system comprising a heating chamber filled with an intermediate heat carrier, communicated with a compensation capacity and through check valves with a heat exchanger, characterized in that, in order to increase the heat exchanger, it is made in the form of two temperature stability, it is equipped with interconnected by additional heating chamber, and 5 additional heating chamber.