RU2110017C1 - Combined heating system with solar hot water supply unit - Google Patents

Abstract

FIELD: heating systems and hot water supply systems for low buildings and industrial buildings supplied with heat from heat generators with built-in water heaters. SUBSTANCE: mounted in upper portion of expansion tank-heat accumulator 6 is partition 8 which separates water chamber 9 of tank 10 from hot water chamber 7; hot water chamber 7 is provided with tubular water heater 11 of hot water supply system whose inlet 12 and hydraulic seal 13 of heating system are brought out to tank 10 from hot water chamber 7 through partition 8; outlet 14 of water heater 11 is connected with supply pipe line 15 of solar energy collector 17 and supply pipe line 16 of hot water supply system and tank 10, supply pipe line 4 of heating system is connected with tank 10 through check valve 18, hot water chamber 7 and heating system through ejector 21 and adjusting valves 19 and 20; pipe line connecting outlet 14 of water heater 11 of hot water supply system with tank 10 and inlet of solar energy collector 17 is provided with circulating pump 22; hot water chamber 7 has gas duct 23 whose inlet is connected to smoke passage 25 in heating shield 26 communicated with outlet of combustion chamber of heat generator 1 with built-in water heater 2; outlet of gas duct 23 is connected to diffuser 29 in smoke duct 27 before chimney stack 30; adjusting smoke dampers 31 and 32 are fitted in gas duct 23 and smoke duct 27 before diffuser 29. Adjusting valves 19 and 20 are used to control flows of water in heating system and hot water chamber 7; adjusting smoke dampers 31 and 32 are used for control of flows of hot flue gases in smoke duct 27 and gas duct 23. Position of gas duct 23 in gas route of heat generator 1 after water heater 2 of heating system in way of flow of flue gases makes it possible to recover heat of flue gases within entire heating season. When no water is taken from hot water supply system, temperature of heated water in hot water chamber 7 is above that in supply pipe line of heating system; water which is heated to higher temperature is ejected from chamber 7 into supply pipe line 4 by means of ejector 21. Hot water may be prepared in solar unit due to solar energy. EFFECT: enhanced efficiency. 4 dwg

Description

 The invention relates to decentralized heat supply systems for low-rise residential buildings and industrial buildings with the preparation of hot water in water heaters built into heat generators operating on solid, liquid or gaseous fuels, and in solar hot water installations.

 The combined heating and hot water supply system (prototype) contains a heat generator equipped with a built-in water heater for the heating system with heating devices and a hot water heater connected to the supply and return pipelines of the systems, and an expansion tank with a main riser connected to it and connected to the supply piping hot water supply systems, the main riser is connected to the supply pipe of the hot water supply system through a control valve and tionary connected to the supply line via a check valve [1].

 The disadvantages are: the presence of piping and storage tanks of the hot water supply system; the relatively large dimensions of the heat generator 1, since water heaters 2 and 4 of the heating and hot water supply systems are built into it; heating of water in the heating system due to the heat of hot flue gases is possible only in the autumn-spring period when they are bypassed from the firebox with a water heater 4 of the hot water supply system through the firebox with a water heater 2 of the heating system through the channel with the open rotary damper 15; in the summer, the preparation of hot water by burning fuel in a heat generator.

 In order to simplify the system and save fuel due to the rational use of the utilized heat of flue gases and solar energy for heating and hot water supply, an expansion tank-heat accumulator, a hot water system heater, a solar energy collector, an ejector of the heating system are additionally introduced into the well-known combined heating and hot water supply system , a smoke channel and a diffuser in the heating shield, regulating smoke valves, while in the upper part of the expansion tank is warm of the accumulator, a partition is installed that separates the water cavity of the tank from the water-heating cavity of the expansion tank-heat accumulator, a tubular water heater of the hot water supply system is built into the water-heating cavity of the latter, the inlet of which and the water trap of the heating system from the water-heating cavity are introduced into the tank of the expansion tank-heat accumulator through the partition, and the outlet hot water supply connected to the supply pipe of the solar collector and the supply pipe of the mountain system water supply and the tank of the expansion tank-heat accumulator, the supply pipe of the heating system is connected to the water cavity of the tank of the expansion tank-heat accumulator through a non-return valve, the water cavity of the expansion tank-heat accumulator and the heating system - through the ejector and control valves, on the pipeline connecting the outlet of the hot water heater water supply with a tank of an expansion tank-heat accumulator and an input of a collector of solar energy, a circulation pump is installed in Grain expansion cavity-heat storage tank installed flue, the last input is connected to the flue channel in communication with the outlet of the firebox heat generator, and the output gas duct - on the diffuser before the chimney flue, and chimney flue in front of the diffuser are installed flue regulating valve.

 Comparative analysis with the prototype shows that the inventive combined heating system with a solar hot water installation is characterized in that it additionally contains an expansion tank-heat accumulator, a hot water heater, a solar energy collector, an ejector in the heating system, a smoke channel and a diffuser in the heating panel, which regulate smoke valves, while in the upper part of the expansion tank-heat accumulator a partition is installed that separates the cavity of the tank from the hot water This is a cavity of the expansion tank, the tubular water heater of the hot water supply system is integrated in the latter’s water chamber, the inlet of which and the water trap of the heating system from the water chamber through the baffle are inserted into the tank of the expansion tank, and the outlet of the hot water tank of the hot water system is connected to the solar power supply pipe hot water supply system piping and expansion tank reservoir tank, supply piping One of the heating system is connected to the water cavity of the tank of the expansion tank-heat accumulator via a non-return valve, the water-heating cavity of the expansion tank and heat accumulator and the heating system through the ejector and control valves, on the pipeline connecting the outlet of the hot water heater to the tank of the expansion tank and the accumulator solar energy, a circulation pump is installed, a gas duct is installed in the water-heating cavity of the expansion tank-heat accumulator, it is connected to the flue channel in communication with the outlet of the firebox heat generator, and the output gas duct - on the diffuser before the chimney flue, and chimney flue in front of the diffuser are installed flue regulating valve.

 Thus, the claimed technical solution meets the criterion of "novelty." Comparison of the proposed solution not only with the prototype, but also with other technical solutions (analogues) in the art allows us to conclude that the criterion of "significant differences".

 In FIG. 1 is a schematic diagram of a combined heating system with a solar hot water installation; in FIG. 2 - expansion tank-heat accumulator, general view; in FIG. 3 - installation of an expansion tank-heat accumulator together with a heat generator and a heating shield; in FIG. 4 is a schematic diagram of a combined heating system with a solar hot water installation for regions with high average annual values of solar radiation intensity.

 The combined heating system with a solar hot water installation contains a heat generator 1, equipped with a built-in water heater 2 heating systems with heating devices 3 connected to the supply 4 and return 5 pipelines, an expansion tank-heat accumulator 6 with a heating cavity 7, a partition is installed in the upper part of the cavity 7 8, separating the water cavity 9 of the tank 10 from the water-heating cavity 7 of the expansion tank-heat accumulator 6, a water heater 11 of the system r is built into the water-heating cavity 7 of the latter water supply, the inlet 12 of the water heater 11 and the water trap 13 of the heating system, are introduced into the tank 10 of the expansion tank-heat accumulator 6 through the partition 8 from the water heating chamber 7, and the outlet 14 of the water heater 11 is connected to the supply pipe 15 of the solar energy collector 17 of the solar installation and the supply pipe 16 hot water supply systems, and a tank 10, the supply pipe 4 of the heating system is connected to the water cavity 9 of the tank 10 through a non-return valve 18, the water-heating cavity 7 and the heating system - through control valves threads 19, 20, and an ejector 21 is installed on the supply pipe before the control valves 19, 20, and a circulation pump 22 is installed on the pipeline connecting the outlet 14 of the hot water supply system 11 to the tank 10 of the expansion tank-heat accumulator 6 and the input of the solar collector 17, .

 A gas duct 23 is installed in the water heating cavity 7, the gas duct inlet 24 is connected to the smoke channel 25 in the heating panel 26 and is connected with the beginning of the chimney 27 connected to the firebox outlet with the cooker 28 of the heat generator 1, and the gas duct 23 is connected to the diffuser 29 on chimney 27 in front of the chimney 30, on the chimney 23 and chimney 27 in front of the diffuser 29, control smoke valves 31, 32 are installed, on the chimney 30 - smoke valve 33, in the summer chimney - summer smoke valve 34.

 In the tank 10, a float valve 35 is installed, to which a cold water pipeline 36 is connected, a hydraulic shutter 37 with an overflow pipe 38, the water-heating chamber 7 of the expansion tank-heat accumulator 6 is connected by a pressure pipe 39 to the return pipe 5 of the heating system. The input of the solar energy collector 17 is connected to the tank 10 by a return pipe 40 of the solar hot water installation. To the supply pipe 16 of the hot water supply system are connected sanitary devices 41, 42 installed in the bath and in the kitchen. On the pipelines of the systems installed shut-off and control valves 43, 44, 45, 46, 47 (taps, valves, etc.).

 A circulation pump 48 (low noise) is installed on the return pipe 5 of the heating system.

 The systems of FIG. 1 and 4 are identical and differ only in the presence of circulation pumps 22 and 48. Therefore, in FIG. 4 only those positions are shown which are not in FIG. one.

 Combined heating system with a solar installation of hot water works as follows.

 In winter, when the faucet 43, the control valve 20 filled with cold water, the expansion tank-heat accumulator 6 and the system are open, the smoke damper 33 and the smoke damper 32 are opened, the fuel is ignited in the firebox of the heat generator 1, and cooking blanks are placed on the stove 28 . Hot flue gases through the chimney 27, the diffuser 29 and the chimney 30, having given part of the heat to the walls of the channels of the gas path, go outside. Heated water in the heater 2, built into the firebox of the heat generator 1, during natural or pump circulation through the supply pipe 4 enters the heating devices 3 and returns through the return pipe 5 to the water heater 2 of the heat generator 1, as a result of which heat is transferred to the indoor indoor air, and its temperature rises to the required value. If it is necessary to prepare hot water for hot water supply, the control smoke valve 31 is opened at the outlet of the gas duct 23, partially or completely blocking the chimney 27 with the control smoke valve 32. The main volume of the flue gases passes through channel 25, the gas duct 23 and transfers part of the heat to the water in the expansion chamber 7 the heat storage tank 6, heats the water in the water heating cavity 7 and in the hot water heater 11 to the desired temperature. When hot water is drawn in, the taps of the sanitary devices 41, 42 are opened, and the heated water from the water heater 11 is supplied through the supply pipe 16 to the needs of hot water supply.

 When hot water is drawn, the water level in the tank 10 decreases, the float valve 35 opens and cold water from the water supply 36 enters the tank 10 until its level in the tank 10 is restored. In case of natural water leakage, the heating system is automatically fed with water from the tank 10, not contaminated with the heating medium, heated up by utilizing the heat of the flue gases through the make-up unit with a hydraulic shutter 37 and a non-return valve 18. When the water level in the hydraulic shutter 37 decreases, the difference in water levels in the hydraulic shutter 37 and the tank 10, the check valve 18 automatically opens, and from the tank 10 the heated water is supplied to the heating system until it is equal consistency of the levels of water in the tank 10 and the hydraulic seal 37.

 In regions with high average annual values of the intensity of solar radiation and a large number of sunny days per year, a solar hot water installation with a solar collector 17 is used to prepare hot water for hot water supply in the daytime. With open cranes 46, 47 and a solar installation system filled with cold water water heated in the collector of solar energy 17 during natural (or pumping) circulation from the collector of solar energy 17 through the supply pipe 15 enters the top part of the tank 10, and from the bottom of the latter return line 40 returns the water in the solar energy collector 17. When the tap 45 open at the desired temperature water was dissociated into hot water through the taps sanitary devices 41 and 42.

 Insufficiently heated water in the solar energy collector 17 is heated in the hot water heater 11 when the heat generator 1 is operating, and when the faucet 45 is closed and the faucet 44 is open, they are disassembled through the taps of the sanitary devices 41, 42, as described above.

 With a prolonged absence of hot water draw-off from the water heater 11 for hot water supply during operation of the heat generator 1, the water temperature in the water-heating cavity 7 of the expansion tank-heat accumulator 6 exceeds the temperature of the water in the supply pipe 4 of the heating system. The control valve 19 is opened, and from the upper part of the water-heating cavity 7, the warmest water is ejected by the ejector 21 into the supply pipe 4 of the heating system with the simultaneous flow of water into the water-heating cavity 7 via the pressure pipe 39 from the return pipe 5 of the heating system.

 Water with a high temperature after the ejector 21 enters the heating devices 3, which increases their heat transfer to the heating of the premises. Thus, the excess utilized heat of the flue gases in the absence of water intake for hot water supply is used for space heating.

 In regions with high average annual values of the intensity of solar radiation, the circulation pump 22 is started in the daytime with an open valve 46 and closed valves 44, 47. Then, control valves 19 and 20 are opened and the heating system pump 48 is started.

 During the circulation of water in heating systems and hot water supply, heated water in the solar collector 17 due to solar radiation enters the tank 10 and the water heater 11 and due to heat transfer through the walls of the water heater 11, the water is heated in the water heating cavity 7 of the expansion tank 6, from where it is ejected ejector 21 into the supply pipe 4 and enters the heating devices 3, for space heating. If the thermal effect is insufficient, start the heat generator 1 and warm the water in the water heater 2 of the heat generator 1.

 In the summer period, close the control valve 20, disconnecting the heating system from the water heater 2 of the heat generator 1, open the control valve 19, the smoke control valve 32, and the summer smoke valve 34. During the operation of the heat generator 1, for example, for cooking on a stove 28 , flue gases, bypassing the chimneys of the smoke channel 27 of the heating shield 26, partially through the chimney through the summer smoke valve 34 and through the smoke channel 25, the gas duct 23 with a control smoke valve 31, a diffuser 29 and a chimney 30 with a smoke valve Coy 33 go out. The heated water in the water heater 2 through the supply pipe 4 enters the upper part of the water heating cavity 7 of the expansion tank-heat accumulator 6, is mixed with the water filling it, heated by utilizing the heat of the flue gases passing through the duct 23, and the water mixture transfers heat to the water in the water heater 11 hot water supply, increasing its temperature to the required value, and returns to the water heater 2 through pressure 39 and return 5 pipelines. The withdrawal of hot water from the system and the use of a solar hot water installation in summer are similar to those described for the winter period in regions with high average annual values of solar radiation intensity.

 If cooking in the summer is performed on a different heat source, for example, on a gas stove in a summer kitchen, heat generator 1 is used in cloudy weather as a reserve heat source of a solar hot water installation.

 Thus, by introducing into the system an expansion tank-heat accumulator 6, a water heater 11 of the hot water supply system, a solar energy collector 17, an ejector 21 into the heating system, a smoke channel 25 and a diffuser 29 into the heating shield 26, regulating smoke valves 31, 32, with this in the upper part of the expansion tank-heat accumulator 6 is a partition 8 that separates the water cavity 9 of the tank 10 from the water-heating cavity 7 of the expansion tank-heat accumulator 6, a tubular water is built into the water-heating cavity 7 of the latter a heater 11 of the hot water supply system, an input 12 of which and a water trap 13 of the heating system from the water-heating cavity 7 are introduced into the tank 10 of the expansion tank-heat accumulator 6 through the partition 8, and the output 14 of the heater 11 of the hot water supply system is connected to the supply pipe 15 of the solar energy collector 17 and the supply the pipeline 16 of the hot water supply system, and the tank 10 of the expansion tank-heat accumulator 6, the supply pipe 4 of the heating system is connected to the water cavity 9 of the tank 10 of the expansion tank-tep the accumulator 6 through the check valve 18, the heating chamber 7 of the expansion tank 6, and the heating system through the ejector 21 and the control valves 19 and 20, on the pipeline connecting the outlet of the water heater 11 of the hot water system with the tank 10 of the expansion tank 6 and the collector inlet solar energy 17, a circulation pump 22 is installed, a gas duct 23 is installed in the water-heating cavity 7 of the expansion tank-heat accumulator 6, the input of the latter is connected to the smoke channel 25 communicating with the output oplivnika heat generator 1, and the output gas duct 23 - to the diffuser 29 to the chimney 27 to the chimney 30 on the duct 23 and the chimney 27, a diffuser 29 mounted to the regulating valve 31 and the flue 32, simplify the system and achieve fuel saving when using the system.

Claims (1)

 Combined heating system with a solar hot water installation, comprising a heat generator equipped with a built-in water heater for the heating system with heating devices, an expansion tank connected to the supply pipe of the heating system via a non-return valve, characterized in that, in order to simplify the system and save fuel due to rational the use of the utilized heat of flue gases and solar energy for heating and hot water supply, the system additionally contains expansion a heat storage tank, a hot water heater, a solar energy collector, an ejector for the heating system, a smoke channel and a diffuser in the heat shield that control the smoke dampers, while a partition is installed in the upper part of the expansion tank-heat accumulator that separates the water cavity of the tank from the water chamber of the expansion tank -heat accumulator, the tubular water heater of the hot water supply system, the input of which and the water trap I from the water-heating cavity through the partition are introduced into the tank of the expansion tank-heat accumulator, and the outlet of the hot water heater is connected to the supply pipe of the solar collector, the supply pipe of the hot water system and the tank of the expansion tank-heat accumulator, the supply pipe of the heating system is connected to the water cavity of the expansion tank of the heat storage tank through a non-return valve, by the hot-water cavity of the expansion heat storage tank and the flow through the ejector and control valves, on the pipeline connecting the water heater output of the hot water supply system to the reservoir of the expansion tank-heat accumulator and the input of the solar collector, a circulation pump is installed, a gas duct is installed in the water-heating cavity of the expansion tank-heat accumulator, the input of the latter is connected to the smoke channel communicating with the output of the firebox of the heat generator, and the outlet of the flue to the diffuser in the chimney in front of the chimney, in the flue and chimney in front of the diffuser Control smoke valves are available.

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