CS257705B1 - Connecting the condenser to the boiler supply system and to the hot water supply - Google Patents

Abstract

The purpose of the solution is to connect the condenser to the boiler feed system and to the hot water distribution, using waste heat from steam vapors, generated by thermal removal of oxygen and carbon dioxide from the treated water for the boiler feed system. The essence of the solution lies in the fact that the steam vapor pipe from the degassing space of the feed tank is connected to the primary inlet of the condenser. The primary outlet of the condenser is connected to the hot water collection tank via the condenser pipe. The condenser has a pipe for cooled water from the hot water pipe connected to the secondary inlet and a pipe for heated water to the hot water pipe is connected to the secondary outlet. The condenser has an internal space connected to a pipe for venting oxygen and carbon dioxide to the atmosphere.

Description

The invention relates to the connection of a condenser to a boiler feed system and to a hot water pipeline utilizing waste heat from vapor vapor generated by the thermal removal of oxygen and carbon dioxide from the treated water for the boiler feed system.

The boiler is supplied with treated water by demineralization, ie water free of all dissolved and undissolved substances, but containing oxygen and partly also carbon dioxide. Removal of oxygen, which causes point corrosion in the boiling system of the boiler and other additional surfaces, is ensured thermally, ie the mixture of demineralized water and return condensate is heated by steam up to 155 ° C and in so-called degassing rooms . The removal of these gases is ensured from the degassing compartments and is entrained by the steam into the atmosphere. These vapors are called vapor vapors.

The dissipated heat in vapors vapor to the atmosphere is dissipated. The capacity of the degassing chamber ranges from 20 to 130 tons per hour. The average amount of degassed water is 45 tonnes per hour. The rate of degassing is dependent on the amount of vapor vapor. The lower the oxygen demand, the higher the vapor flow rate.

The above-mentioned disadvantages eliminate the connection of the capacitor from the boiler supply system and to the hot water distribution system according to the invention. The essence of the invention is that the vapor vapor line from the degassing space of the feed tank is connected to the primary condenser inlet. The primary condenser outlet is connected by condensate piping to the hot water collection tank. The condenser has a chilled water pipe from the hot water pipeline connected to the secondary inlet and a warm water pipe to the hot water pipeline is connected to the secondary outlet. The condenser has an interior space connected to a duct for venting oxygen and carbon dioxide to the atmosphere.

The advantages of connecting the condenser to the boiler supply system and to the hot water distribution system are the resulting fuel savings and the additional water that has escaped in the form of steam into the atmosphere.

The attached figure shows the circuit diagram of the condenser in the boiler feed system and in the hot water distribution system according to the invention, which introduces vapor vapors into the condenser

The supply tank 2 is positioned above the surface 2_ degassing chamber 5, into which a pipe 4 for supplying mains water pipeline 2 P ^ro steam supply to degas. The degassing space 2 is provided at the top with a conduit 6 for the vapor vapor removal into the armosphere. Just above the degassing space 5, a vapor vapor line 9 is connected from the vapor vapor line 2, which is connected to the primary inlet of the condenser 10. Through the secondary inlet to the condenser 10, the cold water line 11 is connected and connected via the secondary inlet. to the condenser 10 of the warm water pipe 12 to the hot water pipe. The heated water of the system is returned to line 15 to the circulation pump 13 ' ^from which it passes through line 21 to the exchangers.

From the bottom of the condenser 10, the condensate from vapor vapors is discharged via condensate conduit 16 to the hot water collecting tank 17. Piping 8 for venting oxygen and carbon dioxide to the atmosphere is connected to the inner space of the condenser 10. In the degassing space 2 above the feed tank 2 water ^is supplied through line 1 for supplying mains water up to level 2 and at the same time steam is supplied through line 2 P ^ro steam supply for degassing. From the highest point of the degassing space 2, vapor vapors 2 pass through the conduit 2 into the atmosphere, which contain a considerable amount of oxygen and carbon dioxide.

Through vapor vapor line 2, they are discharged to a waste heat condenser 10 which represents an average of 50 kJ of heat per kg of degassed feed water.

Cooled hot water flows through condenser 10 through line 11, which removes waste heat from vapor vapors and returns via line 12 as warmed water to the hot line.

In the condenser 10, vapor condensation takes place and oxygen and carbon dioxide are released simultaneously.

The released gases flow into the atmosphere through a line 13 for venting oxygen and carbon dioxide. The resulting vapor condensate is discharged via condensate conduit 16 to a hot water collection tank 11 for further use. The hot water line 12 into the hot water line feeds it to the circulation pump 13 from which the warmed water continues through the line 14 to the exchangers.

Claims (1)

OBJECT OF THE INVENTION * Connection of the condenser to the boiler supply system and to the hot water piping, consisting of a supply tank with a degassing space, into which the supply water supply line and the steam supply line for degassing are introduced, the vapor line piping extending from the degassing space. vapor vapor line (9) from the degassing space (5) of the feed tank (1) is connected to the primary inlet of the condenser (10) from which the primary outlet is connected via the condensate line (16) to the hot water collection tank (7); and having a cold water conduit (11) connected to the secondary inlet and a warm water conduit (12) to the secondary outlet, the condenser (10) having an interior space connected to the conduit (8) for venting oxygen and carbon dioxide from the atmosphere.