AT10951U1 - METHOD AND DEVICE FOR RECOVERING THE HEAT CONTENT OF BUILDING WASTE WATERS - Google Patents

Description

Austrian Patent Office AT 10 951 U1 2010-01-15

Description: The present invention relates to a method and a device for recovering the heat content of building wastewaters. Here, the sensitive and, if necessary, the latent heat content of the building wastewater to be recovered and fed to the hot water.

The heat content of the effluents of a building represents a previously unused source of energy. Usually, the wastewater discharged are disposed of in the sewer. The resulting from washing machines, dishwashers, showers or tubs, large laundries, production facilities, air conditioning systems, etc. heat content, which is bound in the wastewater is lost so unused.

Reflections on the recovery of the heat content of wastewater were already made in the 80s. For example, DE 30 06 119 describes a heat exchanger with heat pump for recovering the heat energy of wastewater. This device is characterized in that the heat exchanger consists of at least two connection pipes with valves for connection and disconnection to a hot water collection and a water drain interconnected collecting tank, in each of which evaporator units or spiral tubes of the heat pump unit are arranged, and that the evaporator units on simultaneously or alternately connectable lines with the heat pump unit in combination, but this device only allows the recovery of the sensitive heat content up to a lower temperature limit of several degrees Celsius above zero. Below this limit temperature, the system is no longer economical to operate.

To reduce this disadvantage, DE 20 2007 010 849 proposes to combine this basic idea by combining with different air and water heating systems. Even with this heating system, the heat content of the wastewater can be used economically but only up to a lower temperature limit of a few degrees Celsius above zero.

Another device for recovering the sensible heat from wastewater proposes WO 03/074941. However, the heat exchanger described here has the same disadvantages as the systems described above.

In order to use a thermal energy yield even in the low temperature range up to the utilization of the latent heat energy content by converting the water into ice, DE 101 64 102 proposes that the water, which is collected in an external cistern, on the inclined To sprinkle the absorber surface of a collector. The water is thereby withdrawn heat until a thin layer of ice has formed on the absorber surface. The ice virtually forms an insulating layer and thus prevents further heat extraction from subsequent cistern water. Once the ice has reached a certain layer thickness, it is thawed by short-term heat recovery and slips down by the inclination of the bottom open collector of this and falls back into the cistern. Due to the higher volume of ice, this must be dimensioned correspondingly larger. The heating of the memory content is done by the geothermal, as well as by solar thermal energy. However, both energy sources lose their effectiveness in the cold season, ie when heat recovery becomes particularly interesting.

An alternative approach is described in EP 1 591 740. It provides for the attachment of heat exchange surfaces in the sewer pipe and in particular the use of copper sheet to avoid the Sielhautbildung. This invention thus relies on the public sewer network and thus differs significantly from the present invention, which aims at a heat recovery still in the building.

Object of the present invention is to develop a method and an especially working after device, which is suitable for recovering the sensitive heat content of all accumulating wastewater in the building, with at Demand also the latent heat content of the wastewater to be recovered by the same method and with the same device. Another object is that both the installation of the device in new buildings and the retrofitting of existing buildings should be possible. The heat recovery should therefore be made from the accumulating wastewater of a household, apartment block, industrial or commercial operation before its introduction into the public channel.

This object is achieved by a method for an open system consisting of a storage container with Abwasserzu- and -ablauf, at least one water / water heat pump with Wasserzu- and -ablaufverbindungen with this storage tank, and a storage tank downstream ice water heat pump.

In contrast to most known, closed systems here is an open system. An open storage system is characterized by the fact that - in addition to the heat pump - there are mass inflows and outflows. If necessary, so the wastewater can be disposed of only after recovery of Latentwärmeinhalts in the channel.

By mixing and melting the exiting the system ice wastewater in the public channel is a cooling of the canal water. Depending on the local branching structure of the channel and the local canal water supply, sewer sections can act as heat exchangers and supply thermal energy to the ice effluent. Over the entire inflow area to the sewage treatment plant, the maximum allowable cooling, which is still tolerable for the biology of the clarification, is not undershot.

It goes without saying that the device according to the invention can be combined with any known heat supply system for a building, such as solar panels, air heat pumps, exhaust air heat exchanger, waste heat exchanger various devices and storage devices, with an optimized use by a corresponding tax - And control device is effected.

The method for recovering the heat content of building wastewater, according to the invention is characterized in that the wastewater are collected in a storage container in which fatty substances, solids and sediment sludge largely separated from the wastewater and preferably disposed of in a channel that the openings of the Inlet and outlet lines are designed and positioned in the storage tank so that a temperature stratification forms in the storage tank, that from the upper third of the wastewater in the storage tank warm wastewater is fed directly or via an intermediate heat exchanger downstream water / water heat pump that the case cooled effluents are fed back to the storage tank, that is preferably supplied from the lower third of the waste water in the storage tank cold waste water an ice heat pump and that the charged with ice crystals wastewater with additional heat demand s the ice heat pump are fed to the channel.

With this method, both the sensitive and - if necessary - recover the latent heat content of the wastewater and feed the hot water cycle or the heating circuit of the building. The method according to the invention therefore also represents a sensible supplement to existing hot water treatment and heating systems. Thus, the efficiency of existing plants can be further increased and the demand for fossil fuels with all its negative side effects, in particular emissions of CO 2 can be further reduced. It can not only be used in the construction of new buildings, but also very well retrofitted to existing buildings.

The system is coupled to a control and regulating device, which activates the supply of cold wastewater from the lower third to Einschwärmepumpe and their connection with an increased energy demand.

About the same or a separate control and regulating the discharge of separated fatty substances and / or solids and / or sunken sediment is for example in the channel continuously or discontinuously carried out.

In order to increase the thermal efficiency of the building, the inventive method is designed in a preferred embodiment so that it is also suitable for receiving waste heat from other heat sources. Thus, for example, the waste heat of cooling systems, ventilation systems, collectors, or other, even irregular waste heat sources can be integrated in the process according to the invention by suitable known methods and the hot water cycle can be supplied only when needed. In this way, the time differences between the generation of heat from regenerative energy sources and the usage peaks can be optimally compensated. A common integration takes place in a preferred embodiment on register tubes which penetrate the storage container and thereby derive the heat content of the heat transfer medium to the wastewater.

A device for recovering the heat content of building wastewater in the form of an open, integrable to existing buildings system, in particular for carrying out the method according to the invention consists of a storage tank with Abwasserzulauf- and wastewater discharge devices, at least one directly or via an intermediate heat exchanger downstream water / Water heat pump with water inlet connection and water drain connection with this storage tank, an ice heat pump downstream of the storage tank with ice water drainage, a public sewer system, and control and regulating devices for this purpose.

Depending on the size of the system or operating mode, it may be advantageous to provide more than a water / water heat pump connected directly or via an intermediate heat exchanger. The waste water cooled in the heat exchanger is returned to the storage tank.

The wastewater collected in the storage tank can be loaded with fats and / or solids. In order to ensure trouble-free operation, the storage container in a preferred embodiment, a grease trap in a suitable design, and a solids separator for solid suspended matter. Sediment-forming solids sink to the deepest area of the storage tank and are removed there in a further preferred embodiment of the invention by means for discharging the sediment sludge and discharge into the channel. Such devices consist of the objects known in the art and are therefore not explained here.

It has been found to be particularly effective when the storage container and its facilities such as supply and discharge lines are designed such that forms a temperature stratification of the effluents in the storage space. For this purpose, for example, the entry port for fresh wastewater is positioned so that these fresh wastewater enter the upper third of the liquid volume, wherein the geometric design of the outlet opening is preferably designed so that do not form larger vortexes to an existing temperature stratification not too swirl. Particularly advantageous here is a vertically movable connection of the outflow opening with a float. For the same motive, the inlet opening for the return flow of the water / water heat pumps or the heat exchangers opens in the lower third of the collected liquid. This also takes into account different filling levels.

In a further preferred embodiment, there is also the intake for sediment, possibly for rinsing water for easier removal of the sediment sludge in the channel and in particular the opening of the supply line to the ice heat pump in the lower third of the storage liquid.

In a further preferred embodiment, the storage container on additional register tubes through which heated heat transfer medium unwanted waste heat from other heat sources of the building emits to the storage liquid. These register tubes penetrate the interior of the storage container preferably in a plurality of vertically and / or horizontally arranged planes, these planes preferably in the middle to lower 3/7

Claims (9)

Austrian Patent Office AT 10 951 U1 2010-01-15 third of the memory are arranged. Thus, consideration is given both to the formation of a temperature stratification and to the different fill levels. The heat sources for these heat transfer mediums may be solar collectors, air heat pumps, exhaust air heat exchangers, refrigeration units and other facilities where heat is generated but is not needed at the point of origin. The device according to the invention is shown in the following figures for better illustration. 1 shows a device for carrying out the method according to the invention. From Fig. 2, a possible, possibly existing plant for heat recovery for domestic hot water and heating of a building is shown, which can be combined with a device of Figure 1. The apparatus of Figure 1, with the method of the invention can be carried out, consists of the storage tank 1, with wastewater inlet 2 and wastewater drain 3, which directly or at least via an intermediate heat exchanger 4 with at least one downstream water / water heat pump 5 with water inlet connection 6 and water drain connection 7 are connected to this storage tank, a storage tank downstream ice heat pump 8 with Eisbeziehungsweise ice water drainage 9 and a silting device 10 to the public channel. The necessary control and regulating devices are not shown separately here, since their arrangements and designs are obvious to the person skilled in the art. In a preferred embodiment, the storage container 1 has means 11 for fat separation, means 12 for solids separation and means 13 for the collection of sediment sludge, and other, not shown in detail here devices for discharging the deposited substances in the channel. These other facilities are also familiar to the skilled person. In a further preferred embodiment, the openings 15, 16 and 17 of the inlet and outlet lines 2, 6 and 7 are formed and positioned in the storage container 1 so that forms a temperature stratification in the storage container 1. For this purpose, it has proved to be particularly advantageous if the wastewater inlet 2 near its outlet opening 15 has a vertically movable connection with a float 18, by means of which according to the temperature stratification in the storage tank 1, the wastewater is introduced. The storage container 1 has in an advantageous variant at its lowest point and / or in the lower third of an opening into the channel discharge 14 for sediment, a derivative 19 for rinse water and a discharge 20 for wastewater to ice heat pump. In order to couple the device according to the invention in an optimal manner with other heat sources of the building, in a particularly preferred embodiment in the storage container 1 in addition register tubes 21 are provided with these other heat sources of the building, such as solar panels, air heat pumps, exhaust air heat exchangers, cooling for processors, ventilation systems , Air conditioners, and similar facilities. From Figure 2, such other heat sources of the building are exemplary. The joints are marked with the letters A-A and B-B in both figures. Claims 1. A process for recovering the heat content of building waste water, characterized in that • the effluents are collected in a storage tank (1) in which fatty substances, solids and sediment sludge are largely separated from the waste water and preferably disposed of in a channel, • that the openings (15, 16, 17) of the inlet and outlet lines (2, 6, 7) in the storage container 4/7 Austrian Patent Office AT 10 951 U1 2010-01-15 (1) are designed and positioned so that in the storage container (1 ) a temperature ration forms, • that from the upper third of the waste water in the storage tank (1) warm waste water directly or via at least one intermediate heat exchanger (4) a downstream water / water heat pump (5) is supplied, • that by the water / Water heat pump (5) or in the heat exchanger (4) cooled waste water to the storage tank (1) are fed, • that at additional heat demand from the lower third of the effluents in the storage tank (1) cold waste water an ice heat pump (8) is fed and • that the fraught with ice crystals wastewater from the ice heat pump (8) by means of a sump (10) whose rinse water (19) from the lower third of the waste water of the storage container (1) is supplied to the channel. 2. The method according to claim 1, characterized in that take place via a control and regulating device, the discharge of separated fatty substances and / or solids and / or sunken sediment sludge, for example, in the channel continuously or discontinuously. 3. The method according to claim 1 or 2, characterized in that via register tubes (21) in the storage tank (1) waste heat from other heat sources of the building is supplied to the collected wastewater. 4. A device for recovering the heat content of building wastewater in the form of an open, integrable to existing buildings system, in particular for carrying out a method according to any one of the preceding claims, characterized in that it consists of a storage tank (1) with wastewater inlet (2) and waste water drain (3), directly or at least via an intermediate heat exchanger (4) with at least one downstream water / water heat pump (5) with water inlet connection (6) and water drain connection (7) with this storage tank, an ice heat pump downstream of the storage tank (8) Ice or ice water drainage (9) and a silting device (10) to the public channel, as well as control and regulating devices. 5. The device according to claim 4, characterized in that the storage container (1) means (11) for fat separation, means (12) for separating solids and means (13) for collecting sediment sludge, and means for discharging the deposited substances in the channel , 6. Apparatus according to claim 4 or 5, characterized in that the openings (15, 16, 17) of the inlet and outlet lines (2, 6, 7) in the storage container (1) are designed and positioned so that in the storage container ( 1) forms a temperature stratification. 7. Apparatus according to claim 4, 5 or 6, characterized in that the waste water inlet (2) near its outlet opening (15) has a vertically movable connection with a float (18), by means of which according to the temperature stratification in the storage tank (1) the waste water is initiated. 8. Apparatus according to claim 4, 5, 6 or 7, characterized in that the storage container (1) at its lowest point and / or in the lower third opening into the channel discharge (14) for sediment sludge, a derivative (19) for Rinse water and a discharge (20) for wastewater to the ice heat pump has. 9. Apparatus according to claim 4, 5, 6, 7 or 8, characterized in that in the storage container (1) register tubes (21) are provided which with other heat sources of the building, such as solar panels, air heat pumps, exhaust air heat exchangers, cooling for processors, ventilation systems, Air conditioners, and similar facilities are connected. For this 2 sheets drawings 5/7