NL2008562C2 - METHOD FOR PREPARING HOT TAP WATER AND A COMBINED SYSTEM FOR CLIMATE MANAGEMENT AND TAP WATER SUPPLY. - Google Patents

Description

Method for preparing hot tap water and a combined system for climate control and tap water supply

The present invention relates to a method for preparing hot tap water, comprising supplying tap water from a water supply network, and directing and heating the supplied tap water therein to a tap water heating device. Such a method is generally known.

With the growing awareness of the necessity of sparing use of scarce resources, such as energy and fuel, more and more devices are coming on the market in order to use energy efficiently. One way to do this is, for example, to recover unused heat by preventing this unused heat from being lost through a drain or flue gas channel.

The present invention has for its object to use unused heat in a similar manner in a useful manner when heating tap water.

In the method as described above, this object according to the present invention is achieved by preheating the supplied tap water before it reaches the tap water heating device, by using residual heat that is released when heating or cooling a room.

The invention makes use of the fact that tap water in most countries has a temperature that is lower than the ambient temperature, because the tap water is usually supplied by means of underground pipes.

The temperature of tap water is usually between 7 ° C and 15 ° C. In addition, the invention makes use of the fact that when heating or cooling a room, an amount of residual heat is usually left over or released. By pre-heating the tap water before it is heated in a tap water heating device such as a geyser or boiler using this residual heat, less energy is required for heating in the geyser or boiler.

Preferably, for heating or cooling the space, use is made of a heat transfer medium which is passed through or along the space 2, and the tap water is preheated by bringing it into heat-exchanging contact with the heat transfer medium. This way, the residual heat can be efficiently transferred to the tap water.

When the heat transfer medium cools the space by extracting heat therefrom, this medium can preheat the tap water by releasing at least a part of the extracted heat thereto. By combining the cooling of a room with the (pre) heating of tap water, virtually no energy needs to be supplied from outside.

On the other hand, when the heat transfer medium is heated in a heating device and subsequently heats the space by releasing at least a part of the heat contained in the heating device, this medium can then pre-heat the tap water by at least a part of the remaining heat thereon to deliver.

In that case the heat transfer medium can be returned to the heating device after heating of the room or be brought into heat-exchanging contact with the tap water. For example, the medium is only used as preheating when hot water is actually drawn from it.

The invention also relates to a combined system for climate control and tap water supply, comprising at least one space heating or cooling unit in a room whose climate is to be controlled, a supply line for tap water connected to a water supply network, and a supply line connected to the supply line, and a supply line connected to the supply line connected device for heating the tap water. Such a system is also generally known.

The invention now has for its object to develop such a system such that it is suitable for applying the method described above. According to the invention, the system is for this purpose characterized by a device placed between the tap water supply line and the tap water heating device for pre-heating the tap water, which pre-heating device is connected to the at least one space heating or cooling device. Residual heat from the space heating or cooling member can thus be supplied to the tap water to pre-heat it. After the tap water in the pre-heating device has been pre-heated, it can then be heated in the tap water heating device to the final, desired tap temperature.

In a preferred embodiment of the system, the pre-heating device comprises at least one heat exchanger, which is included with the at least one space heating or cooling member in a circuit of ducts, wherein furthermore at least one pump is included for transferring a heat transfer medium through the ducts to circulate. This way, the residual heat can be efficiently transferred to the tap water.

When the at least one space heating or cooling element is a space cooling element in which the heat transfer medium extracts heat from the space to be cooled, the tap water can be preheated by the extracted heat, whereby little or no energy has to be supplied from outside.

In another embodiment of the system according to the invention, the at least one space heating or cooling element is a space heating element, and the system further comprises at least one device connected to the space heating element for heating the heat transfer medium. If the space heating element is in use, because the outside temperature is lower than the required temperature in the space, then pre-heating the tap water with residual heat from the space heating still provides a saving of energy, albeit relatively smaller, because the heating device for the space heating will generally have a higher efficiency than the tap water heating device. In addition, in that case the system according to the invention offers the possibility of warmer tap water without having to use a heavier type of geyser or boiler.

Like the preheating device, the at least one space heater and the at least one heating device can also be included in a circuit of ducts, in which furthermore at least one pump is included to circulate the heat transfer medium through the ducts.

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A structurally simple system is then obtained when the at least one heat exchanger of the pre-heating device, the at least one space heater and the at least one heating device together with the at least one pump are included in a combined circuit of pipes.

On the other hand, it is also conceivable that the circuit comprising the at least one heat exchanger of the pre-heating device is separated from the circuit with the at least one heating device by means of controllable valves. The valves can thereby be integrated in a multi-way valve. The components of the system can thus be individually optimized for their respective function and can only be connected to each other when the tap water has to be pre-heated.

To that end, the system is then preferably provided with a control device which is connected to the controllable valves and to the pumps of the two cycles. The operation of the pumps can thus be adjusted to the position of the valves and, consequently, the function of the system. Thus, the space heating pump can be prevented from running while the system is in the preheating state, since in this state the circulation circuit of the space heating 20 is interrupted (blocked). In this way damage to the pump and / or valves is prevented.

The space heating heating device may, for example, comprise a central heating boiler or a heat pump.

The space heating or cooling member may comprise a liquid radiator, but also an air heater or air cooler is conceivable.

In addition, the space heating or cooling member may comprise a meandering conduit included in a floor, wall or ceiling of the space to be heated or cooled.

Finally, the invention relates to a pre-heating device for use in a system as described above.

Further advantages and embodiments are discussed below with reference to the accompanying figures, in which corresponding parts are indicated by reference numerals increased by 100, and in which:

Figure 1 shows a combined system for climate control and tap water supply according to a first embodiment of the present invention, and

Figure 2 shows an alternative embodiment of the system according to the invention.

A combined system 20 for climate control and tap water supply comprises, in the example shown, a space heating device in the form of a central heating boiler 50 (Figure 1). A pump 56 is included therein, which circulates a heat transfer medium, in this case central heating water, through a pipe system. The CH water is heated in a heat exchanger 52, through which a pipe 65 runs with CH water. Natural gas is burned in a burner 54 shown schematically. The heat of the flame and the flue gasses of the burner 54 heat the heat exchanger 52 and thus the CH water flowing through the pipe 65. Via a drain 67 of the central heating boiler, the heated central heating water is led through a pipe 81 to a feed 83 of a space heating element 70. In this space heating element 70, here in the form of a radiator, the CH water transfers heat to the environment 20 to thereby heat a space R in which the radiator 70 is placed. The cooled CH water leaves the radiator 70 via a drain 85 and is led through a return line 87 to the feed 63 of the CH boiler 50 to be pumped around there again by the pump 56 for a subsequent circulation through the CH circuit.

The system 20 further comprises a device 30, for example a geyser, for heating tap water which, via a supply 21, originates from a water supply network. That tap water is introduced into the geyser 30 via a supply 43. There it passes through a line 45 into a heat exchanger 32. The heat exchanger 32 is heated by a flame and hot flue gases from a burner 34 (shown schematically). The water flowing through the line 45 is heated in the heat exchanger 32 to a typical temperature of, for example, 60 ° C. The hot tap water leaves the geyser 30 via a drain 44 and is taken by a user at tap 49.

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So far, the combined system 20 for climate control and tap water supply essentially corresponds to similar prior art systems.

The embodiment of the present invention shown in Figure 1 differs from the prior art in that a preheating device 10 is connected between the tap water supply 21 and the tap water heating device 30, which heating device is connected to the space heating element (the radiator) 70. The pre-heating device 10 comprises a heat exchanger 12, in which a pipe 95 is formed for the central heating water, as well as a pipe 25 for tap water originating from the water pipe network. Furthermore, the pre-heating device 10 comprises a pump 16 with which the heating water can be pumped through the pipe 95, to a drain 93 which connects to the pipe 67 of the heating circuit. The pump 16 of the pre-heating device 10, just like a controllable multi-way valve 18 and the heating pump 56, is controllably connected to a control device 15.

The outlet 85 of the radiator 70 carries the heating water to the controllable three-way valve 18. Through this controllable three-way valve 18, the heating water can be led into the pre-heating device 10. If the preheating device 10 is not operating, the water is further led via the return line 87 to the boiler 63 supply 63 to follow the normal path through the heating circuit. However, as soon as hot tap water is requested, and it is checked that the pump 56 of the central heating boiler 50 is not active, the control device 15 switches the system from circulation through the above-described central heating circuit to circulation through a pre-heating circuit.

The prior check of the operation of the heating pump 56 prevents this pump 56 from running against a closed three-way valve 18. This pre-heating cycle is formed by the heat exchanger 12 containing the central heating water pipe 95, the drain 93 of the pre-heating device 10, the central heating pipe 81, the feed 83 of the radiator 70, the radiator 70, the drain 85 of the 3 Radiator 70, the return line, the three-way valve 18 and the pump 16 of the pre-heating device 10.

If tap water is requested, the three-way valve 18 is converted by the control device 15 from the heating circuit to the pre-heating circuit. The pump 16 is then started to circulate the heating water in the pre-heating circuit. The heating water in the radiator 70 is at room temperature. This relatively warm water is conducted via the outlet 85 of the radiator 70 to the three-way valve 18, and from there via the supply 99 of heat exchanger 12 to the line 95 in the heat exchanger 12. In the heat exchanger 12, the CH water transfers heat to tap water that flows through the other line 25 of the heat exchanger 12. The tap water originating from the water supply network, as indicated by arrow 21, enters the preheating device 10 via a supply 23 with a temperature of typically approximately 10 ° C. Due to the pressure of the water supply network, the tap water is forced through the pipe 25 into the heat exchanger 12, where it is heated by the central heating water. The heated tap water leaves the pre-heating device 10 via outlet 27 at a temperature which is typically between 15 and 25 ° C. Subsequently, the preheated tap water in the geyser 30 is further heated to a typical temperature of, for example, 60 ° C. Because the tap water is already raised by 5 to 150 in temperature with the help of the residual heat in the central heating water, the geyser 30 need to heat the tap water less far, so that the energy consumption of the geyser 30 can be lower.

The heating water that has (partially) transferred its heat into the heat exchanger 12 leaves the pre-heating device 10 via outlet 93. Via a T-piece 94, the heating water is fed through the pipe 81 to the inlet 83 of the radiator 70 guided, thus completing the cycle again.

In an alternative embodiment of the system 120 according to the invention (Figure 2) there is no question of heating the space R, but rather it is cooled. To this end, a cooling member 170 is provided in the space R, which means that heat is extracted from the space R, for example by evaporation of a heat transfer medium. This extracted heat can again be used to pre-heat tap water. In the example shown this is achieved by directing the heat transfer medium directly from the cooling member 170 through a drain 185 to a heat exchanger 112 of a pre-heating device 110. After the medium in the heat exchanger 112 has given off its heat to the tap water, this is led through a pump 156 via a line 181 back to the cooling member 170.

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The embodiments described here and shown in the figures are merely examples and serve solely to illustrate the invention. It will be clear, however, that many modifications and additions are possible within the scope of the invention. For example, it is possible to combine features of the different embodiments to further embodiments within the invention. For example, in the first embodiment, the individual pumps could be replaced by a single pump in a conduit section between the space heater and the pre-heater. Instead of the central heating boiler shown, another heating device would also be conceivable, for example a heat pump.

Furthermore, the embodiment with the cooling member could be provided with a controllable valve, to selectively transfer the heat to the tap water or to otherwise use, remove or store it. Tap water heating could also be a boiler instead of a geyser. The tap water heating and the space heating could also be integrated in a so-called combi boiler. The requested protection is therefore only limited by the following claims.

Claims (19)

A method for preparing hot tap water, comprising: supplying tap water from a water supply network, and guiding and heating the supplied tap water therein to a tap water heating device, characterized by: preheating the supplied tap water before it enters the tap water heating device achieved by using residual heat that is released when heating or cooling a room. 2. Method as claimed in claim 1, characterized in that for heating or cooling the space use is made of a heat transfer medium which is passed through or along the space, and the tap water is preheated by bringing it into heat-exchanging contact with the heat transfer medium. 3. Method as claimed in claim 2, characterized in that the heat transfer medium cools the room by extracting heat therefrom, and pre-heating the tap water by releasing at least a part of the extracted heat therefrom. 4. A method according to claim 2, characterized in that the heat transfer medium is heated in a heating device, subsequently heats the space by releasing at least a part of the heat contained in the heating device, and then pre-heating the tap water by at least to transfer part of the remaining heat to it. Method according to claim 4, characterized in that the heat transfer medium is optionally returned to the heating device after the space has been heated or is brought into heat-exchanging contact with the tap water. 6. Combined system for climate control and tap water supply, comprising: at least one room heating or cooling unit in a climate controlled room, a tap water supply pipe connected to a water supply network, and a heating device connected to the supply pipe of the tap water, characterized by a device for preheating the tap water placed between the tap water supply line and the tap water heating device, which preheating device is connected to the at least one space heating or cooling member. 7. System as claimed in claim 6, characterized in that the pre-heating device comprises at least one heat exchanger, which is included with the at least one space heating or cooling member in a circuit of ducts, in which furthermore at least one pump is included around a heat circulating the transfer medium through the pipes. 20 A system according to claim 6 or 7, characterized in that the at least one space heating or cooling element is a space cooling element, wherein the heat transfer medium extracts heat from the space to be cooled. A system according to claim 6 or 7, characterized in that the at least one space heating or cooling element is a space heating element, and the system further comprises at least one device connected to the space heating element for heating the heat transfer medium. 10. System as claimed in claim 9, characterized in that the at least one space heating element and the at least one heating device are included in a circuit of pipes, wherein furthermore at least one pump is arranged for passing the heat transfer medium through the pipes circulate. 11. System as claimed in claims 7 and 10, characterized in that the at least one heat exchanger of the pre-heating device, the at least one space heating element and the at least one heating device together with the at least one pump are included in a combined circuit of pipes . 12. System according to claims 7 and 10, characterized in that the circuit with the at least one heat exchanger of the pre-heating device therein is separated from the circuit with the at least one heating device by means of controllable valves. A system according to claim 12, characterized by a control device connected to the controllable valves and to the pumps of the two cycles. 14. System as claimed in any of the claims 9-13, characterized in that the at least one heating device comprises a central heating boiler. A system according to any one of claims 9-14, characterized in that the at least one heating device comprises a heat pump. A system according to any one of claims 6-15, characterized in that the at least one space heating or cooling member comprises a liquid radiator. 17. System as claimed in any of the claims 6-16, characterized in that 3. the at least one space heating or cooling member comprises an air heater or air cooler. A system according to any one of claims 6-17, characterized in that the at least one space heating or cooling member comprises a meandering conduit included in a floor, wall or ceiling of the space to be heated or cooled. 5 A pre-heating device, apparently intended for use in a system according to any one of claims 6-18.