NL8301818A - METHOD FOR PROCESSING WASTE AND WASTE COLLECTION WITH MEMBRANE FILTRATION UNIT. - Google Patents

Description

835048 / vdV / kd

Short designation: Method for processing waste as well as waste collection with membrane filtration unit.

The Applicant mentions as inventors H.F. Graf von Galen, 4405 Lingen / Altenlingen, B.R.D., V. Koestring, 4405 Lingen, B.R.D. and J. Gons in Dedemsvaart.

The invention relates to a method for processing waste by collecting the waste at a landfill.

Such a method is generally known. In this process, the waste is collected at the housing units and industrial units of a municipality, then transported to the landfill and dumping on these landfills continues for shorter or longer periods.

When the household and industrial waste is dumped at the landfill, the waste is spread and compacted by the 10 wagons that deliver the waste, so that in practice the above-mentioned waste can be dumped at a landfill for very long periods.

A drawback of this method is that the liquid and falling rainwater present in the waste seeps through the collection of the waste at the landfill and collects on the soil, from which this water can spread in the soil and in the groundwater.

Due to the increasing presence of environmentally harmful substances in household and industrial waste 20 and other waste deposited in such landfills, there is a great risk of contamination of the soil, and in particular / groundwater.

The object of the invention is now to provide a method in which the water collecting on the bottom of the landfill cannot spread freely and, moreover, this water is efficiently freed from the above environmentally harmful substances.

This object is achieved according to the invention in that the landfills are provided with a water impermeable soil and the liquid which collects on this soil is subjected to a membrane filtration whereby the permeate obtained is removed and the concentrate obtained. is subjected to a post-treatment.

After-treatment here is understood to mean, among other things, post-concentration by evaporation of the concentrate, burning of harmful components after drying of the concentrate, and recycling of the concentrated or non-concentrated concentrate into the waste collection. By providing the landfill with a water impermeable soil, the free spread of liquid collecting on the bottom of the landfill is prevented, whereby contamination of the soil and groundwater is excluded.

However, the amounts of organic oxidizable materials present in such liquids are too low to purify these liquids in anaerobic cleaning plants, while feeding into aerobic cleaning plants may also present difficulties. In addition, these liquids may contain harmful metals.

When a membrane filtration is used, the great advantage is obtained that the discharged permeate can be discharged directly into the environment without disadvantageous disadvantages for the soil, while on the other hand the obtained concentrate with a much higher content of organic oxidisable substances is easily used in anaerobic cleaning installations. can be further purified resp. can be converted into non-hazardous substances in other ways and, moreover, almost completely removes heavy metals.

Particularly advantageously, waste gas formed by anerobic conversion is collected in the waste collection and used as energy source for driving the membrane filtration. Namely, organic substances in such a waste collection are converted into waste gas by anaerobic conversion, usually in the form of methane, which can be used to provide heating energy for increasing the temperature of the liquid to be subjected to the membrane filtration. Namely, by the temperature increase of the liquid, the 8301818-3 flux, i.e., the amount of purified liquid passed per unit of time, area and pressure is significantly increased.

To increase the temperature of the liquid to be subjected to the membrane filtration, it is preheated by heat exchange with combustion gases.

Such combustion gases can be efficiently obtained by burning the formed waste gas in a combustion engine driving a generator for generating electric energy for driving at least one pump 10 for generating the pressure and longitudinal flow rate required for the membrane filtration.

By using the waste gas obtained in such a waste collection at a landfill, the energy required to carry out the membrane filtration can therefore be recovered from the waste itself, so that no high costs are incurred for cleaning the ones on the bottom of a landfill collecting liquid.

When the concentrate contains mainly organic substances, the concentrate can either be fed to an anaerobic cleaning installation where the organic substances are converted into methane or the concentrate can be returned to the waste collection. In that case, the organic material in the waste collection is put into waste gas and is therefore used efficiently. However, if harmful compounds are present in the concentrate obtained, it may in some cases be preferable to burn part of the waste gas formed in a combustion space by injecting the concentrate whereby harmful substances present in the concentrate are converted. can be in non-harmful substances. The combustion residues from the said combustion space can be returned to the waste collection.

It is of course also possible to concentrate or evaporate the concentrate in a dryer, for instance a belt dryer, after which, for example, harmful metals present in the concentrate can be encapsulated in molten silicate materials, as is generally known.

8301 818 -4-

The invention also relates to a waste collection, which according to the invention is characterized in that the collection is provided with a water-impermeable bottom and the liquid discharge from this bottom is connected to a membrane filtration provided with a pressure-generating pump member. device with a permeate discharge and a concentrate discharge.

A waste gas discharge is expediently present for collecting and discharging waste gas formed in the waste collection, which waste gas discharge is connected to a gas combustion engine which in turn can be in active connection with a generator.

When using a gas combustion engine, the waste gases generated in the waste collection can be used to drive the gas combustion engine which in turn drives a generator for generating electric energy to drive the pump means for the membrane filtration device.

A heat exchanger connected to the liquid discharge and with a combustion gas discharge is expediently present for passing liquid from the liquid discharge under heat exchange with combustion gases from the combustion gas discharge. In this way, the concentrate to be subjected to the membrane filtration can be brought to a higher temperature in order to obtain a higher flux and therefore faster cleaning of the liquid that collects at the bottom of the landfill.

A combustion device connected to the waste gas discharge expediently cooperates with a concentrate treatment zone, so that harmful substances present in the concentrate can be concentrated or even burned.

The invention will now be elucidated on the basis of an exemplary embodiment in which:

Fig. 1 shows a first embodiment of a method according to the invention and

Fig. 2 another embodiment of the implementation of the method according to the invention.

8301818 -5-

Fig. 1 shows a landfill 1 of waste, which includes household waste, among other things, with the bottom part provided with a plastic foil layer 2. As a result, the liquid 3 collecting on the underside of the waste collection 1 can accumulate. det freely and give rise to soil contamination.

The liquid 3 mainly comes from rainwater that seeps through the waste collection and dissolves organic substances and inorganic substances with environmentally harmful effect during the passage of the waste. The liquid 3 collecting on the bottom 2 flows via discharge 20 into a storage vessel 15 in which solids can settle, while the remaining liquid flows via line 14 into a heat exchanger 13. For the transport of the liquid, use is made of a pump 11 included in a connecting pipe 23 between the heat exchanger 13 and a membrane filtration unit 4. This membrane filtration unit is a reverse osmosis unit operating at a pressure of 4000 kPa and a longitudinal flow velocity of 2.03 m / sec.

In order to obtain the best possible purification, a recirculation pump 21 is connected between the concentrate discharge 6 of the reversing osmosis unit 4 and the supply 24, so that the desired pressure in the reversing osmosis unit 4 can be guaranteed.

The reverse osmosis unit 4 is furthermore provided with a permeate discharge 5, through which purified liquid can be discharged directly into the environment [or possibly on surface waters.

In order to increase the temperature of the liquid 3 supplied in the heat exchanger 13, the heat exchanger is provided with combustion gases via flue gas outlet 12 of a gas engine 9. After passing the heat exchanger, these gases flow away via line 25. The gas engine 9 drives a generator 10 which generates electricity to drive the pumps 11 and 21. The heated liquid 3 flows via line 23 into reverse osmosis unit 4. Liquids 3 with high concentrations of dissolved environmentally harmful substances are led into the unit without heating to be used in 8301818 -6- * in that case to keep the concentration of harmful substances in the permeate low. For driving the gas engine 9 made from the waste gas generated in a waste collection which contains large amounts of mainly methane gases. This waste gas is supplied via line 7 to a moisture separator 8 from which the moisture flows via line 17 5 into the storage vessel 15, while part of the gas is discharged to the gas engine 9 and the rest of the gas escapes via line 16 and is used, for example. can be used for other purposes.

The concentrate from the reverse osmosis unit 4 can be fed via line 6 to a cleaning unit for anaerobic digestion (not shown) or to an evaporation installation 22 in which the water is evaporated with the aid of waste gas burned in combustion unit 18 to obtain a solid or concentrated liquid.

When the concentrate does not contain any harmful metals and mainly consists of organic substances, the concentrate can be fed via line 6 'to the waste collection 1 in which the organic substances are at least partially converted into waste gas, provided that they are not rinsed out by drenching rainwater. Post-concentrated concentrate from evaporation installation 22 can also be returned to waste collection 1 via outlet 19, which flows into or above waste collection 1.

In the embodiment of fig. 2, the gas 25 from the moisture separator 8 is supplied via line 16 to a combustion device 18, which is on the other hand fed with concentrate via line 6a, in this combustion device 18 the concentrate is concentrated in the after-treatment zone 18 'and the harmful substances after which the combustion residues can either be removed via discharge 19 or returned to the waste collection. In this case, the combustion device 18 also includes the concentrate post-treatment zone 18 'in which the concentrate is concentrated to dryness before combustion.

EXAMPLE I

- ,a

Waste collection is used with a soil surface of 6 ha, from which 35,000 m of fluid 3 8301818 -7- must be discharged per year on the soil 2 formed as film layer, while 500 m of waste gas is extracted from the waste collection per 3 hours can become.

The liquid 3 collecting on the bottom 2 of the waste collection stream flows into a storage vessel 15 with a volume of, for example, 130 m, from which 10 m per hour is supplied to the heat exchanger 13.

3

The reverse osmosis unit 4 then supplies 7.5 m per hour of permeate with a COD content of at most 170 ml O2 / per liter.

On the other hand, 2.5 ml per hour of concentrate is obtained which can burn or concentrate in the combustion device 18 in the evaporation device 22.

Of the amount of waste gas from the waste collection 3

65 m per hour is fed to a 120 kw generator 10 15 floating gas engine 9 which supplies 100 kwh of energy for driving the pumps 11 and 21 of the reverse osmosis unit 4. EXAMPLE II

From a waste collection with an important amount of industrial waste, liquid 3 is obtained on the bottom 2, with a total organic carbon content of 1200 mgC / l.

By reverse osmosis in membrane filtration unit 4, 20% concentrate with a total organic carbon content of 5800 mg / l and 80% permeate with a total organic carbon content of 40 mgC / l are obtained. The concentrate is evaporated and burned, after which the combustion residues are encapsulated in molten silicates because of and the danger of harmful metals.

EXAMPLE III

From a waste dump of mainly household waste, a liquid 3 with a COD content of 8,320 mg O2 / I and a total content of soluble heavy metals (mainly zinc, copper, palldium, and cadmium) of 58 mg / 1 is obtained.

The liquid 3 is separated by reverse osmosis 35 in membrane filtration unit 4 in equal parts of permeate and concentrate.

The concentrate with a COD of 30,300 mg O2 / I is fed 8301818-8 to a methane gas producing anaerobic reactor.

The permeate with a COD content of 65 mg Cl / l and a dissolved metal content of 0.12 mg / l is discharged into surface waters.

8301818

Claims (11)

Method for processing waste by collecting the waste at a landfill, characterized in that the landfill (1) is provided with a water-impermeable soil and the liquid (3) that collects on this soil is subjects a membrane filtration (4), the resulting permeate (5) being discharged and the resulting concentrate (6) being subjected to a post-treatment. 2. Process according to claim, characterized in that waste gas formed by anaerobic conversion is collected in the waste collection (1) and used as energy source for driving the membrane filtration (4). 3. A method according to claim 1 or 2, characterized in that formed waste gas is burned in a combustion engine which drives a generator for generating electric energy for at least driving one pump for generating the pressure required for the membrane filtration and longitudinal flow rate. 4. Process according to claims 1-3, characterized in that at least a part of the formed waste gas (7) is burned in a combustion space (18) and the heat generated is used to further concentrate the concentrate and burn it if desired. . 5. A method according to claim 4, characterized in that the product obtained upon further concentration of the concentrate is returned to the waste collection. Method according to claims 1-5, characterized in that the liquid to be subjected to the membrane filtration is preheated by heat exchange (13) with combustion gases (12). Waste collection, characterized in that the collection (1) is provided with an impermeable bottom (2) and the liquid discharge (20) from the bottom (2) is connected to one of a pressure-generating pumping member (11, 21) provided membrane filtration device (4) with a permeate discharge (5) and a concentrate discharge (6). 8301818 t 1 -10- Waste collection according to claim 7, characterized in that a waste gas discharge (7) is provided for collecting and discharging waste gas formed in the waste collection (1), said waste gas discharge (7) being connected to a gas combustion engine (9) in turn can be in active connection with a generator 10. Waste collection according to claims 7 or 8, characterized in that a heat exchanger (13) connected to a liquid discharge (20) and a combustion gas discharge (12) is provided for the passage of liquid from the liquid discharge (20) under heat exchange with combustion gases from the combustion gas discharge. Waste collection according to one or more of the preceding claims, characterized in that a combustion device (18) connected to the waste gas discharge (7) interacts with a concentrate after-treatment zone (22, 18 '). Waste collection according to claim 10, characterized in that the outlet (19) of the concentrate after-treatment zone (18 ', 22) opens into or above the waste collection (1). 8301818