NL2000211C2 - Treatment of waste in care institution, e.g. hospital, comprises grinding waste and containers added to pipe system, separating waste and container debris and purifying waste - Google Patents

Abstract

The treatment method comprises the following steps: (A) disposing of the waste in containers into different points of a pipe system; (B) grinding the waste and containers; (C) separating the waste and container debris from the resulting waste stream; (D) supplying the waste to a purification installation; and (E) cleaning the liquid components (predominantly water) of this waste. The containers can comprise a biodegradable material, which after fermenting with kitchen waste, is also supplied to the purification installation. Membrane filtration is used to clean the liquid components. An independent claim is also included for the treatment arrangement (1), comprising a pipe system with multiple inlets (2) each including a grinding device (3), the outlet for the latter being connected to a separator device (4) with a waste outlet connected to a purification installation (5).

Description

Method and system for treating a waste stream.

The present invention relates to a method for treating a waste stream in a care institution, such as a hospital, retirement home, nursing home and the like. Such a waste stream can comprise all kinds of materials. The most basic are urine and faeces that are collected via pans and urinals. High costs are associated with handling this. Further waste is formed by kitchen waste and waste that is released during the treatment of patients such as medicines, bandages and so on. The direct discharge of such waste 10 presents major disadvantages. First of all, the environment in which the discharge takes place suffers greatly. If such waste ends up in a sewage treatment plant (STP), additional measures must be taken in connection with the disposal of that waste. This would mean that the entire volume of waste, including the less polluting components thereof, must be treated, which entails high costs. Moreover, there are various waste streams. A waste stream is discharged via the usual sewerage system and other waste streams are collected separately and disposed of via separate systems.

It is an object of the present invention to make the treatment of waste streams more efficient, whereby the costs for care institutions can be reduced, but the hygienic conditions can be guaranteed under all circumstances and even improved. Another aim is to clean the quality of the waste water from contaminated, toxic and medicinal substances in such a way that the quality of the waste water is greatly improved.

These objectives are achieved in a method for treating a waste stream in that this method comprises discharging waste via a piping system into the container used therein, wherein that waste in that container is supplied to said piping system at different locations, grinding that waste with that container, separating the actual waste and the container waste from the waste stream thus obtained, supplying the actual waste to a purification plant and cleaning the liquid components present therein.

According to the present invention, a separation of container and actual waste no longer takes place as is customary in the prior art. That is, faeces are discharged as a whole with the container (such as a pot), as a result of which the expensive handling of containers can be completely eliminated. The holders are made disposable. According to the present invention, it is possible to supply waste to a pipeline system at various points, for example in each department.

As a first step, grinding takes place directly at the feed so that the waste can be introduced into a pipeline system without risk, without having to fear blockage.

The waste from various inputs is then preferably subjected to a separation treatment at a central point. During this separation treatment, the container material is separated from the actual waste stream. The actual waste stream consisting of urine, feces, medicines and the like is supplied to a purification plant and after processing, purified water is obtained, which can possibly be used for reuse but can in any case be discharged into the sewer without environmental damage. The purification plant can consist of a bio-membrane reactor, that is to say a reactor in which the released liquid is subjected to membrane filtration in order to be able to guarantee purity. Periodically collected sludge can be disposed of periodically. However, the amount of sludge is very small and does not constitute a substantial cost item. In addition to or instead of purification by means of a biomembrane reactor, other cleaning techniques can also be applied, which are based, for example, on filtration.

Multiple filter systems can also be used one after the other.

If the container material used consists essentially of plastic material, it is cleaned after the grinding and separation operation and can be removed for reuse. The rinsing water released thereby can be supplied to the purification plant 25.

If the container material comprises biodegradable substances, such as substances based on PLA, cleaning also preferably takes place after the actual waste has been separated. Here too rinsing water can be supplied to the bioreactor. The subsequently relatively clean PLA can be subjected to a fermentation treatment in a digester. Waste streams from, for example, the kitchen of a hospital or the like can also be supplied to this. Such waste streams will also preferably be crushed in advance.

3

During fermentation, both solid / liquid material and gas are released. This gas can be used for heating purposes, for example for heating the digester and / or generating energy. The solid / liquid material is preferably separated into hard parts and non-hard parts. The hard parts can be composted. The non-hard parts can be supplied to the inlet of the purification plant. With the present invention, it is possible to process a stream of waste in a continuous manner, wherein the released substances are generally usefully reusable, so that no high costs are associated with their processing. Ultrafiltration or osmosis filtration may preferably take place in the purification plant. In the purification plant described above, a further separation of toxic / non-toxic material can optionally take place.

The invention also relates to a system for carrying out the method described above.

The invention will be explained in more detail below with reference to two exemplary embodiments. Show:

FIG. 1 schematically a first variant of the invention for use with non-biodegradable containers; and

FIG. 2 is a variant of the invention for use with biodegradable containers.

In Fig. 1, 1 denotes a first variant of the system according to the present invention. Such a system is preferably applied in a care institution or other place where people are cared for intensively, such as a hospital, retirement home and the like.

This care produces waste such as feces and the like and these are removed, including the container thereof, via inlets placed on different departments 2. A grinding device 3 is located immediately downstream of it at each inlet 2. After the milling, the waste can easily be passed through a pipeline system. A central separation device 4 is preferably present on which different inlets open. In this separation device, separation takes place between the actual waste (feces and the like) and the containers, that is, the container waste. The actual waste is supplied to a purification plant 5. The liquid material (water), which forms by far the largest part, is discharged after further separation at 15 and can optionally be reused. Incidentally, discharge to the sewerage system does not lead to environmental damage, so that no additional environmental taxes have to be paid.

The stream of container waste is led to a cleaning device 6. Cleaning of the plastic or other material takes place with the aid of rinsing water which can for instance be the rinsing water released at outlet 15, 5. Thereafter a separation takes place between rinsing water and cleaned material and this rinsing water is fed back to the purification plant 5 via line 14. The cleaned container material is discharged via outlet 7 for reuse.

In the above manner, in contrast to the state of the art, large amounts of contaminated waste no longer arise, the processing of which involves high costs.

Fig. 2 shows a variant of the present invention. The system is thereby indicated in its entirety by 31 and waste is supplied via inlets 32. In contrast to the embodiment according to Fig. 1, the container part of the waste 15 consists of biodegradable types of material, such as paper-like materials, biodegradable plastics such as PLA plastics. These are ground in a milling device 33 in the manner described above and fed centrally to a separation device 34 where again separation between the actual waste stream and the container waste takes place. The actual waste stream is supplied to purification plant 35 and the water released thereby is discharged via outlet 45 for reuse.

The biodegradable material released in the separation device 34 is first cleaned in the manner described above in the cleaning device 36. Here too, the rinsing water used therein, which may come from outlet 45, is fed back to the purification plant 35. The cleaned container material is supplied via conduit 37 to a digester 38. Kitchen waste can also be supplied to this digester 38 via inlet 39 and further grinding device 40.

Heat / gas is released during the fermentation in the digester 38. This heat / gas can be used for heating the digester 38 and / or generating energy to promote the degradation process and the conditions for the microorganisms in the digester. The solid / liquid waste stream is supplied to separator 41. Hard parts are filtered out there and removed for composting. The softer parts including liquid are supplied to the purification plant via line 43.

5

From the above variants it appears that many variations are possible on the basis of the inventive idea. Steps can be added and / or skipped. The foregoing lies within the scope of the appended claims in which explicit rights are requested for the subject matter in the subclaims without combination with the main claim.

In the foregoing there is talk of a waste stream obtained by grinding a container with waste therein. However, the described device is not limited to treating such a waste stream alone. Water that comes from showers, toilets, kitchens, can also be included in the waste stream to be treated, indicated by 47 in Fig. 2. Such a device is connected to the pipe system via line 46.

In fact, all the water that is consumed in a health care institution, and that has so far been discharged into the sewer, can be treated in this way. Shower water has already been mentioned as an example. When showering a patient whose body perspiration contains any medicinal or hormonal waste, or other harmful waste (such as chemotoxic agents), such substances end up in the shower water. These substances can then also be removed in the purification plant according to the invention.

Claims (14)

Method for treating a waste stream in a care institution, comprising discharging via a piping system into the container of waste used therewith, wherein said waste is supplied to said piping system at different places in said container, the milling of said waste with said waste system container, separating the actual waste and the container waste from the waste stream thus obtained, supplying the actual waste to a purification plant and cleaning the liquid components present therein. 10 Method according to claim 1, wherein said container comprises a biodegradable material and is supplied to the purification plant. 3. Method as claimed in claim 2, wherein the biodegradable material of said container is fermented for the supply to a purification plant. Method according to claim 3, wherein kitchen waste is added to said fermentation. Method according to claim 3 or 4, wherein the heat released during fermentation is used for heating the waste stream in the fermentation tank and / or the use of generating energy. 6. A method according to any one of claims 3-5, wherein hard parts from the waste stream released during fermentation are removed from the feed to the purification plant. 7. Method as claimed in any of the foregoing claims, wherein the material of said container and / or non-biodegradable substances in that waste is separated from said biodegradable substances in that waste and after use is discharged separately from said bioreactor / fermentation . A method according to any one of the preceding claims, wherein the cleaning of the liquid components from said waste stream comprises membrane filtration. 9. Method as claimed in any of the foregoing claims, wherein via said piping system also the remaining water is supplied which is consumed in the care institution, such as shower water. 10. System for treating a waste stream, comprising a piping system with a number of inputs (2, 32), each input being provided with a grinding device (3, 33), the outlets of said grinding device being connected are with a separation device (4, 34) for separating actual waste materials and container materials from the waste stream, wherein a purification installation (5, 35) is connected to the output of said separation device (4, 34) for the actual waste material. 15 A system according to claim 10, wherein a digester (38) is connected to the output of the separator for the container materials. 12. System as claimed in claim 11, wherein said fermenter comprises an inlet for kitchen waste. System according to one of claims 10 or 11, wherein a liquid separator (41) is arranged between said separator and said digester, the outlet of which is connected to said purification plant (35). 25 A system according to any one of the preceding claims 10-13, wherein the pipe system comprises at least one further input (47) connected to a water-consuming device (46) of the care institution, such as a shower or kitchen and the like. 30