DE2928476A1 - System for reclaiming energy from waste water - uses rain or melted snow from roof of house to drive turbine or water-wheel - Google Patents

Abstract

The installation for gathering or converting energy from waste water is constructed principally by positioning a collecting tank (10) beneath the ground floor (11) of a dwelling, and connecting all household waste water and rain water pipes to it. The collecting tank (10) is above the level of the main waste water pipe (24), and is connected to it by a down pipe (18), with a waterwheel (20) at an intermediate position between the two. This waterwheel (20) can be connected to a generator, whose output can be stored for emergencies, or for prewarming water for use in heat pump systems. After driving the waterwheel (20), the water can be stored in an intermediate tank (28), and pumped back into the main storage tank (10) by a wind driven pump (32) on the roof ot the house. This installation makes use of freely available natural energy.

Description

PLANT FOR GENERATING ENERGY FROM WASTEWATER

The invention relates to an arrangement for generating energy from wastewater.

Wastewater from the household, rain and snow water is so far only treated as annoying waste, spending considerable sums on its disposal are.

However, taking into account that these amounts of water are in front of their When entering the sewer, cover a gradient of several meters, so shows that in this way not negligible amounts of energy are constantly lost.

The invention has for its object to provide a possibility for Harnessing this energy to deliver This object is achieved according to the invention solved in that a water collecting tank below the ground floor and is provided above the level of the sewer into which the household sewers and the rain drainage pipes open, and that a water wheel in the connecting pipe is arranged between the water collecting tank and sewer so that it is from Wastewater on the way from the water collecting tank to the entrance to the sewer is applied.

In case the water wheel is used to drive a generator to produce electricity is used, the generated electricity can e.g. be stored in an accumulator for possible emergencies stored or directly to preheat the domestic water or to operate a Heat pump can be used.

In a preferred embodiment of the invention is between the An intermediate tank emerges from the water wheel and enters the sewer provided, and a pump is in the connecting line between the intermediate container and arranged the sewage collection tank.

In this way, there is by pumping from the intermediate container into the Water collecting tank a cycle of wastewater, so that in the event of an insufficient amount of wastewater the same amount of water can be used repeatedly to drive the waterwheel can, while with a normal attack the excess water through an overflow of the intermediate container is passed into the sewer.

In an advantageous embodiment of the invention, the pump operated by a wind motor attached to the roof.

Another embodiment of the invention is for storage Energy that is not required immediately is a conveyor system for bulk materials such as sand, grit etc., as well as a bulk material silo arranged under the ch.

If there is a lack of water, this bulk material is available for loading of the fan wheel is available via a switchable supply line.

In an expedient embodiment of the invention, the bulk material silo is connected to a spray device, the other hand connected to a source of compressed air is.

In this way, in the event of a fire, it is possible to save the sand to be sprayed onto the seat of the fire by means of compressed air. Also serves to generate compressed air here the wind engine mentioned above.

A further advantageous embodiment of the invention is distinguished characterized in that a power generator connected to a driven by the water wheel The heating insert is built into a water storage tank that is insulated against heat loss, which contains the water required for the heat exchange of a heat pump system.

Then provide this water storage tank with adequate insulation is, e.g. by an additional coating with fireclay bricks, it will open in this way possible, the T.lärmepumpe also below the otherwise assumed limit value from + 2 ° C can still be operated economically if for any reason the use of groundwater for this purpose is not possible.

Exemplary embodiments of the invention are illustrated in greater detail on the basis of the figures explained. It shows: FIG. 1 a schematic representation of the various waste water sources in a Claus and the water collecting tank attached to the basement ceiling, Fig. 2 a schematic representation of the inflow of rain and snow water into the Water collecting tank, Fig. 3 is a schematic representation of the waste water the water wheel driven by the water tank, FIG. 4 the one shown in FIG System with an additional intermediate tank and a wind motor on the roof for pumping the waste water from the intermediate tank into the water collecting tank.

As can be seen from Fig. 1, a lassersammlung 10 is under the Ground floor 11 attached or arranged on carriers so that the resulting Waste water via the supply lines 12 a from the kitchen, 12 b from the bathroom, 12 c from the where including Gaste-G, 12d from the work room and 12e from all other water points of the house, as well as the rain and snow water from the gutters 14 and 16, the at the same time serve for ventilation, is collected in it.

From Fig. 3 it can be seen that from the lowest point of the bottom of the Water collecting tank 10 leads a downpipe 18 to the tiasserrad 20, after its Besufachlagung the sewage is passed through the drain pipe 22 into the sewer 24. That Water wheel 20 is used, for example, to drive a generator (not shown), and the various possible uses of the electricity generated by it the switch box 26 indicated.

Like in Pig. 4 is shown, the wastewater can after exposure des \ ater wheels 20 are passed into an intermediate container 28 before it leaves the Overflow 30 of this intermediate container 28 reaches the sewer 24. One on Wind motor 32 attached to the roof of the house pumps the wastewater from the intermediate tank 28 back via the connection line 34 into the water collecting tank 10, so that If the wind conditions are sufficient, the light amount of water is reused inside can be, until further wastewater flows in, the excess over the overflow 30 flows into the sewer 24.

With the water wheel 20, instead of a generator, e.g.

also operate a conveyor system (not shown), the bulk material such as sand, gravel, etc. conveyed into a bulk material silo arranged under the roof. Optional this conveyor system can also be operated by the existing wind motor, if this proves to be more favorable due to the prevailing weather conditions.

If there is a lack of water, this bulk material can be used to act on the water wheel Can be used via a switchable supply line burning with the help of the existing Wind engine a pressure vessel is filled with compressed air via a compressor It is also possible to use the sand in the bulk material silo in the event of a fire to spray a spray device on the source of the fire.

Claims (6)

PATENT CLAIMS 1. Plant for generating energy from wastewater, thereby characterized in that a water collecting tank (10) below the ground floor (11) and above the level of the sewer (24) is provided in which the Household sewer lines (12a-e) and the rain drainage pipes (14, 16) open, and that r? in water wheel (20) in the connecting line (18) between the water collecting tank (10) and sewer (24) is arranged so that it is from the sewage on the way acted upon from the water collecting tank (10) to the entry into the sewer (24) will. 2. Plant according to claim 1, characterized in that between the An intermediate container emerges from the water wheel (20) and enters the sewer (24) (28) is provided and that a pump in the connecting line (34) between the Intermediate container (28) and the water collecting container (10) is arranged. 3. Plant according to claim 2, characterized in that the pump through a wind motor (32) attached to the roof can be operated. 4. Plant according to one of the preceding claims, characterized in that that a conveyor system for bulk material to store energy not required immediately, vie Sand, grit, etc., as well as a bulk material silo arranged under the roof are provided is. 5. Plant according to claim 4, characterized in that the bulk silo is connected to a spray device which, on the other hand, is connected to a source of compressed air connected. 6. Plant according to one of claims 1 - 3, characterized in that that a 'generator connected to a' water generator driven by the water wheel (20) The heating element is installed in a water storage tank that is insulated against heat loss, which contains the water required for heat exchange in a heat pump system.