RU2007131667A - SYSTEM OF AUTONOMOUS HEAT SUPPLY AND HOT WATER SUPPLY WITH NATURAL HEATING CIRCULATION (OPTIONS) AND METHOD OF WATER HEATING - Google Patents

Claims (10)

1. The system of autonomous heat supply and hot water supply with natural circulation of the coolant, combined with hot water supply, containing a heat generator, an expansion tank, which is also used as a capacitive heater and a hot water storage tank with a float valve to automatically maintain the water level in it and a control overflow pipe, main riser connecting the upper point of the water jacket of the heat generator to the expansion tank, supplying heat conduit connecting the lower part of the side the expansion tank canister with heating pipes and hot water pipes, heaters connected to the heating pipes, shower nets and hot water taps connected to hot water pipes, heating pipes and hot water pipes are connected at the lower points to the return heat pipe that is connected to the lower point of the water jacket of the heat generator and forms a single coolant circulation loop, the expansion tank-heat accumulator is made in the form of a vertically mounted cylinder and is equipped with a tangential cold water supply pipe installed in the upper part of the tank and a hot water discharge pipe installed in its lower part, the supply and return heat pipes are made in the form of rectangular loops and are connected respectively to the expansion tank-heat accumulator and to the heat generator in geometric centers rectangular loops through T-shaped heat pipes, each hot water supply pipe is connected to the supply heat pipe of the upper pipe wiring through an intermediate a heat storage tank, the bottom of which is located at least 100 mm above the heat supply pipe, a sensor for automatically maintaining the set temperature of hot water supplied for heating and hot water supply is installed at the outlet of the expansion tank, a circulation pump is installed at the inlet of the heat carrier to the heat generator, A steam boiler with a circulation rate of 50 to 500 was used as a heat generator, the heat generator can be equipped with a burner without forced air supply, for heating the devices are equipped with room temperature thermostats, the system contains a recirculation heat pipe connecting the expansion tank with a T-shaped heat return pipe at the coolant inlet to the heat generator in the area of the inlet pipe of the circulation pump, a circulating ejector interlocked with the circulation pump, a coolant temperature regulator at the heat pump inlet coolant temperature regulator at the outlet of the heat generator, maintaining the temperature as much as possible mine and constant throughout the heating period, the main riser, made vertical and communicating with the atmosphere, and the mark of its extreme upper point corresponds to the mark of the upper point of the side walls of the expansion tank, the main riser is connected to the expansion tank by a pipe at the mark of the lower point of the side walls of the expansion tank, a pipe connecting the main riser to the expansion tank, and a pipe connecting the expansion tank to the heat supply pipe, each connected inside the expansion tank with a branch, bent by 90 °, both branches are located in one horizontal plane, the outlet from the first outlet, along the coolant, is directed towards the entrance to the second outlet along a short arc of a circle, the heat supply pipe of the upper pipe wiring contains deaeration air vents, the mark of the upper point of which corresponds to the mark of the upper points of the side walls of the expansion tank, the heat generator contains a backup fanless burner having a manual control valve for the combustion process, heat supply risers made in two-pipe In the first diagram, the heating surfaces of the heat generator made of corrosion-resistant steel contain a heating device - a heating floor, characterized in that the main riser, expansion tank, heat accumulator, intermediate tank heat accumulator and deaeration air vents have a geodetic mark of the extreme upper point not less than 1 m above the required level of coolant, the column height of which provides a hydrostatic pressure in the supplying heat conduit corresponding to the boiling point, which is equal to Permissible temperature of the coolant for the building, in the range 95-150 ° C. 2. The system of autonomous heat supply and hot water supply with natural circulation of the coolant according to claim 1, characterized in that the expansion tank-heat accumulator and the intermediate tank-heat accumulator each contains a special candle that is placed on the lid of the tank and is used as an extension of the side walls of the heat-storage tank, made of pipe, the diameter of which ensures the temperature of the coolant on the surface of the working liquid level of less than 100 ° C. 3. The system of autonomous heat supply and hot water supply with natural circulation of the coolant according to claim 1 or 2, characterized in that the circulation pump is blocked according to the bypass circuit with a valve installed on the return heat pipe at its input to the heat generator. 4. The system of autonomous heat supply and hot water supply with natural circulation of the coolant according to claim 1 or 2, characterized in that the recirculation heat pipe is connected to the pipe, by which the main riser is connected to an expansion tank-heat accumulator. 5. The system of autonomous heat supply and hot water supply with natural circulation of the coolant according to claim 1 or 2, characterized in that the recirculation heat pipe can be connected to the supply heat pipe at the outlet of the expansion tank-heat accumulator and to the return heat pipe through the inlet of the circulation pump blocked with circulating ejector. 6. A system of autonomous heat supply and hot water supply with natural circulation of the coolant, combined with hot water supply, containing a heat generator, an expansion tank, which is also used as a capacitive heater and a hot water storage tank, with a float valve to automatically maintain the water level in it and a control overflow pipe , the main riser connecting the upper point of the water jacket of the heat generator with an expansion tank, supplying a heat pipe connecting the lower part of the side the expansion tank canister with heating pipes and hot water pipes, heaters connected to the heating pipes, shower nets and hot water taps connected to hot water pipes, heating pipes and hot water pipes are connected at the lower points to the return heat pipe that is connected to the lower point of the water jacket of the heat generator and forms a single circuit for the circulation of the coolant, the expansion tank-heat accumulator is made in the form of a vertically installed cylinder and is equipped with a tangential cold water supply pipe installed in the upper part of the tank and a tangential hot water pipe installed in its lower part, the supply and return heat pipes are made in the form of rectangular loops and are connected respectively to the expansion tank-heat accumulator and to the heat generator in geometric centers of rectangular loops through T-shaped heat pipes, a circulation pump is installed at the coolant inlet to the heat generator, as a heat generator and a steam boiler was used with a circulation rate of 50 to 500, the heat generator can be equipped with a burner without forced air supply, thermostats are equipped with room temperature controllers, the system contains a recirculation heat pipe connecting the expansion tank with a T-shaped heat return pipe at the coolant inlet heat generator in the area of the inlet pipe of the circulation pump, circulation ejector interlocked with the circulation pump, tempera the temperature of the heat carrier at the inlet to the heat generator, the temperature regulator of the heat carrier at the outlet of the heat generator, which maintains the maximum permissible and constant temperature throughout the entire heating period, the main riser made vertically communicating with the atmosphere, and the mark of its extreme upper point corresponds to the mark of the upper point of the side walls of the expansion tank , the main riser is connected to the expansion tank by a pipe at the mark of the lower point of the side walls of the expansion tank, a pipe connecting the heads the riser riser with the expansion tank, and the pipe connecting the expansion tank to the heat supply pipe, each connected inside the expansion tank with a 90 ° steep bend, both branches are located in the same horizontal plane, the outlet from the first outlet, along the coolant, is directed towards the entrance in the second branch along a short arc of a circle, the heat supply pipe of the upper pipe wiring contains deaeration air vents, the mark of the upper point of which corresponds to the mark of the upper point of the side walls of the expansion tank, t The heat generator contains a backup fanless burner with a manual control valve for the combustion process, the heating risers are made according to a two-pipe scheme, the heating surfaces of the heat generator are made of corrosion-resistant steel, the system contains a heating device - a heating floor, and the autonomous heat supply system with natural circulation of the coolant is closed, and hot water supply is achieved through the use of capacitive heat exchangers, characterized in that the main riser, expansion b The k-heat accumulator, the intermediate heat accumulator tank and deaeration candles have a geodetic mark of the extreme upper point not less than 1 m above the required liquid level, the column height of which provides a hydrostatic pressure in the supply heat pipe corresponding to the boiling temperature, which in this case is equal to the maximum permissible temperature of the coolant for this building, in the range of 95-150 ° С, the expansion tank-heat accumulator and the intermediate tank-heat accumulator each contain a special candle, which is sized puppy on the lid of the tank and is used as an extension of the side walls of the heat storage tank, made of pipe, the diameter of which ensures the temperature of the coolant on the surface of the working liquid level is less than 100 ° C, the circulation pump is blocked according to the bypass circuit with a valve installed on the return heat pipe at its inlet heat generator, recirculation heat pipe connected to the pipe, with which the main riser is connected to the expansion tank-heat accumulator, recirculation heat pipe can be connected to the supply m of heat conduit at the outlet of the expansion tank, heat accumulator and with a return heat conduit through the inlet pipe of the circulation pump, interlocked with the circulation ejector. 7. The system of autonomous heat supply and hot water supply with natural circulation of the coolant according to claim 6, characterized in that the heat supply system contains a dispenser for the use of substances that prevent pipe corrosion, and the dispenser is placed on the lid of the expansion tank. 8. System of autonomous heat supply and hot water supply with natural circulation of the coolant, containing a heat generator, an expansion tank, which is also used as a capacitive heater and a hot water storage tank, with a float valve to automatically maintain the water level in it and a control overflow pipe, the main riser connecting the upper point of the water jacket of the heat generator with an expansion tank, supplying a heat pipe connecting the lower part of the side walls of the expansion tank with risers heat supply and hot water risers, heaters connected to heat supply risers, shower nets and hot water taps connected to hot water risers, heat risers and hot water risers are connected at lower points to a return heat conduit that is connected to the lower point of the water jacket of the heat generator and forms a single coolant circulation loop, the expansion tank-heat accumulator is made in the form of a vertically mounted cylinder and is equipped with a tangent pipe the cold water supply installed in the upper part of the tank and the tangential hot water outlet pipe installed in its lower part, the supply and return heat pipes are made in the form of rectangular loops and are connected respectively to the expansion tank-heat accumulator and to the heat generator in the geometric centers of the rectangular loops through T-shaped heat pipes, a circulation pump is installed at the inlet of the heat carrier to the heat generator, a steam boiler with an edge is used as a heat generator circulation from 50 to 500, the heat generator can be equipped with a burner without forced air supply, thermostats are equipped with room temperature thermostats, the system contains a recirculation heat pipe connecting the expansion tank with a T-shaped heat return pipe at the heat carrier inlet to the heat source in the area of the inlet pipe circulation pump, contains a circulation ejector interlocked with a circulation pump, an inlet temperature controller to the heat generator, the temperature regulator of the coolant at the outlet of the heat generator, maintaining the maximum permissible and constant temperature during the entire heating period, the main riser is made vertical and communicating with the atmosphere, and the mark of its extreme upper point corresponds to the mark of the upper point of the side walls of the expansion tank, the main riser is connected with an expansion tank, a pipe at the mark of the lower point of the side walls of the expansion tank, a pipe connecting the main riser to the expansion tank and the pipe connecting the expansion tank with the supply pipe, each connected inside the expansion tank with a 90 ° steep bend, both branches are located in one horizontal plane, the outlet from the first outlet along the coolant is directed towards the entrance to the second outlet along a short arc of a circle The heat supply pipe of the upper pipe wiring contains deaeration air vents, the mark of the upper point of which corresponds to the mark of the upper point of the side walls of the expansion tank, the heat generator contains a reserve a fanless burner with a manual control valve for the combustion process, the heating pipes are made according to the two-pipe scheme, the heating surfaces of the heat generator are made of corrosion-resistant steel, the system contains a heating device - a heating floor, and the heating system and the hot water supply system are made technologically independent, each has its own heat generator characterized in that the main riser, expansion tank, heat accumulator, intermediate tank, heat accumulator and deaeration the ears have a geodetic mark of the extreme upper point not less than 1 m above the required liquid level, the column height of which provides a hydrostatic pressure in the supply heat pipe corresponding to the boiling point, which at the same time is equal to the maximum permissible coolant temperature for a given building, in the range of 95-150 ° C, the expansion tank-heat accumulator and the intermediate tank-heat accumulator each contain a special candle, which is placed on the lid of the tank and is used as an extension of the side walls of the tank - the heat accumulator is made of a pipe whose diameter provides a coolant temperature on the surface of the working liquid level of less than 100 ° C, the circulation pump is blocked according to the bypass circuit with a valve installed on the return heat pipe at its inlet to the heat generator, the recirculation heat pipe is connected to the pipe to which the main riser is connected with an expansion tank-heat accumulator, a recirculation heat pipe can be connected to a supply heat pipe at the outlet of it from an expansion tank-heat accumulator with a reflux heat conductor through the inlet of the circulation pump, the circulation interlocked with the ejector. 9. The autonomous heat supply system with natural circulation of the coolant according to claim 8, characterized in that the heat supply system contains a dispenser for the use of substances that prevent pipe corrosion, and the dispenser is located on the lid of the expansion tank. 10. A method of heating water in an autonomous heat supply system and hot water supply with natural circulation of a coolant, including supplying tap water to a system, heating water in a heat generator to a predetermined temperature, supplying water through a main riser to an expansion tank-heat accumulator, supplying hot water from an expansion tank by the heat supply pipe, along the heat supply pipes and along the hot water pipes to the heaters, to the hot water taps and shower nets, respectively, chilled water from the risers through the return heat pipe to the heat generator, tap water is supplied to the expansion tank-heat accumulator tangentially in the upper part of the expansion tank, hot water is removed from the expansion tank to the heat supply pipe of the upper pipe wiring tangentially in the lower part of the expansion tank, hot water is supplied appliances, shower grids, water taps and the return of chilled water to the heat generator is carried out through the supply and return heat pipe made in the form of rectangular rings connected respectively with an expansion tank and a heat generator in the geometric centers of rectangular rings through T-shaped heat pipes, hot water is supplied from the heat supply pipe to the hot water risers through intermediate heat storage tanks, the bottoms of which are located at least above the heat supply pipe than 100 mm, in addition to the natural circulation of the coolant, it is forced to circulate due to the circulation pump, creating an additional pressure of heating water, the water is heated in a steam boiler with a circulation shortness of from 50 to 500, the method includes recirculating the coolant through a recirculating heat pipe connecting the expansion tank with a T-shaped heat pipe at the coolant inlet to the heat generator in the area of the inlet pipe of the circulation pump forced circulation of the coolant due to the use of a circulation ejector, which is interlocked with the circulation pump, the temperature of the coolant I at the inlet to the heat generator provide through the use of a temperature controller, the temperature of the coolant at the outlet of the heat generator is ensured by the use of a temperature controller that maintains the specified maximum allowable temperature of the coolant, constant throughout the heating period, the flow of coolant from the main riser to the expansion tank and from the expansion tank into the supply heat conduit is produced at the mark of the lower point of the side walls of the expansion tank through the nozzles, each of which It is connected inside the expansion tank with a 90 ° steep bend, both branches are located in one horizontal plane, the outlet from the first outlet, along the coolant, is directed towards the entrance to the second outlet along a short arc of a circle, deaeration of hot water is ensured by maintaining maximum temperature at the outlet of the heat generator, the use of steam and due to the fact that the vertical main riser directly communicates with the atmosphere, and the supply pipe of the upper pipe wiring contains deaeration air vents , water heating in the event of an emergency interruption of power supply is ensured by ignition of a backup fanless burner of a heat generator having a manual control valve for the combustion process, characterized in that the method includes increasing the coolant level at least 1 m above the liquid column mark, which provides a hydrostatic supply to the heat supply pipe pressure corresponding to the boiling point, and which at the same time is equal to the maximum permissible temperature of the coolant for a given building, in the range of 95-150 ° C, incl It means that the temperature of the coolant on the surface of its working level is less than 100 ° C by the method of choosing the appropriate pipe diameter for the manufacture of a special candle, which is placed on the lid of the heat storage tank and is used as an extension of its side walls, the coolant is circulated in addition to the natural one by means of a circulation pump, which is blocked according to the bypass circuit with a valve installed on the return heat pipe at its entrance to the heat generator, while the valve is closed or only due to t of the driving pressure of the natural circulation and the valve is open, the heat carrier is recirculated by taking the heat carrier before it enters the expansion tank-heat accumulator, for which the recirculation heat pipe is connected to the pipe, which the main riser is connected to the expansion tank-heat accumulator, it can be recirculated by the heat carrier coolant intake at the outlet of the expansion tank, heat accumulator, for which the recirculation heat pipe is connected to the supply heat pipe, p and this, the coolant is supplied to the return heat pipe through the inlet pipe of the circulation pump interlocked with the circulation ejector, and the heating of the water in the event of an emergency interruption in the power supply is provided by increasing the temperature of the coolant at the outlet of the heat source from the nominal value to the maximum allowable for the building, in the range of 95 -150 ° C.