NL8401772A - Use of foamed synthetic resin to clean contaminated area - to create artificially high ground water level, or to increase water retention of ground - Google Patents

Abstract

A contaminated environment is cleaned or prevented by use of a foamed, open-cell, and to some extent hy drophobic synthetic resin. Pref. a urea/formaldehyde foam is ised. The contaminants are transported by water, esp. ground water. The foam is regenerated by pressing, and is then used again as absorbent. The contaminated area may be enclosed by a ring of foamed synthetic, extending to the ground water, and opt. using pieces of the foam, also extending to the ground water, within the ring. A central pump unit may be placed in a foamed synthetic borehole, reaching to the ground water; the contaminated ground water is transported for some distance to 1 or more cesspools with synthetic foam, and is allowed to settle there. Contaminants in or on the ground water may be fixed by injecting into the top layer of the ground water a synthetic resin which acts as absorbent.

Description

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Method for remediation or prevention of a polluted environment, as well as method for creating an artificially raised groundwater? terl level resp. The invention relates in the first place to a method for remediation or prevention of a polluted environment.

As it turned out lately, the receiver and the many fill? the occurrence of environmental pollution has taken particularly serious forms. Research, for example from the air, has shown that the number of places where the bottom is contaminated with, for example, chemicals such as toluene, benzene and the like, as well as heavy metals, is very considerable. Other examples of environmental pollution can be found in a leaking oil tank, jump pipes in which environmentally harmful substances are transported as well as the contamination, which only becomes apparent after the demolition of a factory and the like, which are located on its site? have accumulated large amounts of poison, chemicals or other dangerous substances.

Until now, it has often been necessary to excavate the soil and clean it by means of annealing or washing. When houses were built on these, they even had to be demolished before the soil cleaning could be started. However, such methods are particularly economically disadvantageous.

It has now been found a method for remediation of an impoverished environment, in which a foamed, open cellular and somewhat hydrophobic synthetic resin is used. As an example of such a synthetic resin, a foamed urea which has been modified in terms of absorption properties. formaldehyde resin are called. The above-mentioned self-curing foamed synthetic resin according to the invention, which is also referred to as C.A.F.t 30 foam (chemical absorbing foam), has good absorbed absorption properties for all kinds of chemicals, which can cause the environmental pollution.

In the case of soil contamination, groundwater is virtually the only further Irish of the harmful substances in the area. With the present out? In the case of soil remediation, the invention often uses groundwater as a means of transport for the pollutants present in the environment.

In this way, the contaminants are transferred to the C.A.F. foam. fed and absorbed there. When, after some time, an applied block of C.A.F. foam is saturated with impurities, that block can be compressed in a press container, whereby the impurities are released free of charge, which can then be discharged to a filling incinerator. These operations can be repeated several times if necessary. . To illustrate the good absorption properties of the U.F.t foam, reference is made to Fig. 1 which shows that diesel? 5 oil and trichlorethylene as impurities in the soil in 10 minutes for 82 vol. % resp. 58% by volume are absorbed.

For further explanation of the invention with regard to remediation of a polluted environment, the following is stated.

The types of soil contamination can be divided into four categories 10: 1) contamination of the soil by solid substances 2) contamination of the soil by low density liquid chemicals 3) contamination of the soil by liquid chemicals with a High specific gravity, and 4) contamination of the soil by chemicals which are or have been dissolved in the groundwater.

The method according to the invention is mainly aimed at the liquid impurities, which are shown under points 2), 3) and 4). In addition, however, the foamed, open cellular and somewhat hydrophobic synthetic resin according to the invention is very well applicable as a preflive measure.

When putting the method according to the invention into practice, a distinction can be made between the following systems: A) a skimming system without mechanical assistance and B) a skimming system with mechanical assistance.

Aj Skimming system without mechanical assistance 30 This system is very applicable between existing buildings where it is not advisable to lower the groundwater level and consists of the following two parts: 1. First, the contaminated place is enclosed by a ring of foamed synthetic resin in accordance with the invention, so that no further paint can spread the contaminants in the environment (freezing). The foamed synthetic resin is applied in such a way that it reaches into the groundwater.

2. Then the contaminated place is provided with strips on? foamed synthetic resin according to the invention, which are also applied in such a way that they reach into the groundwater or are placed on 8401772 3 clay layer.

This situation is then maintained until water samples show that the contamination has been removed. The applied foamed synthetic resin can then be removed and pressed out, whereafter the ger 5 can be completely destroyed, for instance in a waste incineration device. For an illustration of the above-described skimming system without mechanical assistance, reference can be made to Figures 2 and 3.

B: Skimming system with mechanical assistance 10 Using this skimming system it is possible to clean up large areas of contaminated soil with relatively little earthmoving. More specifically, this system can be used in multiple ways, depending on the extent of the contaminated site.

According to this mechanical assist skimming system, a central pump unit is placed in a well with foamed synthetic resin according to the invention (C.A.F. foam) deep into the groundwater. After this pump has been put into operation, it causes a decrease in the groundwater level and the pumped up groundwater is led to sinks located at some distance from the pump, which are also provided with the C.A.F. foam 20. The groundwater is filtered in these latter wells, after which it sinks in purified form to the then obtained constitution level. Refer to Figures 4 and 5 to illustrate this skimming system with mechanical assistance.

According to this skimming system, the impurities are absorbed both at the pump unit and in the sinks. In principle, this absorption of paint impurities can be continued indefinitely without causing too much inconvenience to the residents of the adjacent plots. This method of remediation of contaminated soil is undoubtedly faster and, in particular, more economical compared to any other known method. The costs of the latter skimming system are expected to be about 10-25% of the usual clean-up costs.

With regard to the two aforementioned skimming systems, it can therefore be stated that these hardly cause any inconvenience to the residents of the adjacent plots, are inexpensive as little earthmoving and little labor is required, as well as easily controllable due to simple sampling. to be. Moreover, no contamination expands when an enclosure resp. containment of the contaminated soil is carried out.

The invention further relates to the prevention of a paint 8401772

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4 further distribution of pollutants into the environment. As is known, solid impurities are generally least harmful to the environment. If it is now possible to convert the liquid impurities into a solid form, the direct danger of a further contamination extending over a great distance can be eliminated. According to the invention, this conversion of liquid impurities into a solid form has been found to be possible by injecting synthetic resins according to the invention into the top layer of the ground water (see Fig. 6).

This method of "freezing" the groundwater can be divided more particularly into two applications: 1. "freezing" non-volatile liquids and 2. "freezing" volatile liquids.

A foamable synthetic resin according to the invention which can be pressed under high pressure into the top layer of the groundwater can be used with the type of contamination mentioned under point 1 above. The synthetic resin then mixes with the contaminated bone skeleton and the contaminated groundwater, after which the synthetic resin cures in a reasonably short time, for example 5-10 minutes, to an airy porous stony mass. Even after curing, the porous mass will have the ability to absorb chemicals.

With the aid of this method, the contamination in the groundwater is no longer able to spread further, so that the necessity to proceed to a complete excavation or other rigorous measure as soon as possible has become superfluous.

In the application mentioned under 2., that is to say with the volatile liquids, the synthetic resin is not foamed, so that after mixing a solid hard lump of plastic remains, which no longer causes any contamination. Due to its properties, the synthetic resin readily mixes with impurities such as benzene, xylene, oil products, turpentine, etc.

With regard to the above, it is noted that this method of immobilizing contaminants in the soil cannot or should not be considered as a final solution, but in some cases it may offer a quick and inexpensive solution to later at a more suitable time. if desired, remove the cured masses of synthetic resin.

The foamed, open cellular and somewhat hydrophobic synthetic resins such as modified urea-formaldehyde resins used in the invention can be prepared on the basis of the knowledge known in the art and with regard to their absorption properties by a person skilled in the art. can be modified * In addition to urea * formaldehyde resins, other resins with the same properties as other aminoplasts can be used *

As mentioned, the resin can be built up, for example, from urea and formaldehyde 5 as basic raw materials. By controlling the pH, temperature and reaction time, a resin * condensate with the desired properties can be obtained. The pH is controlled with a weak acid (oxalic, citric, acetic, etc.) resp. with a base (sodium hydroxide, potassium hydroxide, triethanolamine, etc.). An alcohol (methanol, ethanol, glycol, etc.) can be used to control the polymerization rate. Furthermore, the alcohol can serve as a polymerization inhibitor in the resin ivory condensate mixture.

For example, a precondensate has the following composition: formaldehyde (40%) 46 wt.% Urea 20 wt.% Water 30 wt.% Alcohol 2.5 wt.% Triethanolamine 0.5 wt. weakly acidic as required.

The hardener is made up of an acidic solution (oxalic acid, phosphoric acid, etc.) with a pH of 2 and a polyvalent metal salt (eg the chlorides of iron, zinc, aluminum, but also of calcium). This acidic solution also contains urea, ammonium chloride or another 25 bond added to bind excess formaldehyde released during the curing process.

The addition of a polyvalent metal salt is considered essential for the final structure of the product obtained after addition of the hardener and the precondensate.

The foaming agent is added to the hardener or to the resin. This foaming agent may, for example, be of the alkylbenzene sulfonate type, the counterion of which is sodium or triethanolamine. Other foaming agents, which can form a stable foam in an acidic environment, are also suitable.

During or after the molding reaction, chemicals can be added to the hardener or the resin, which may influence the properties of the hardener, resin or the product formed therefrom. Examples of such chemicals are oils and fats of vegetable, animal and mineral origin, as well as soaps, which have the hydrophilic or hydrophobic properties of the resin resp. modify the product ultimately obtained. Chemicals can also be added which can influence the selective absorption by the resin / hardener product of certain certain chemicals, such as toluene, benzene, heavy metals and the like. Such specific properties can be obtained, for example, with the additional use of 15% urea and 6% alcohol after the reaction.

In addition to the above-described remediation and resp. the invention also relates to a method for creating an artificially elevated soil water level, respectively. of an increased water resistance capacity of soil.

The latter method makes it possible to make an important contribution to reducing the food protease problem in the world. It is known that many poor countries often have fertile soils but far too little water. Water is often present in such dry areas, but this is at great depth. However, when this water, which is found at great depth, is pumped up to the surface for irrigation purposes, a considerable evaporation loss occurs, so that only a small part of the pumped-up water is usefully utilized.

To overcome this problem, the invention relates to the creation of an artificially elevated groundwater level by applying foamed resin moldings in the ground with a large water absorption capacity. In this way it is possible to retain the water at a higher level, and at such a level that cultivated plants in particular can benefit from it. The applied foamed synthetic resin moldings can be in the form of slabs or plates and have, for example, a water absorption capacity of 0.8 liters of water per liter of synthetic resin. In this way it is possible to store an enormous water supply 30 in the top layer of the bottom.

Examples of such synthetic resins are foamed amino plastics such as urea formaldehyde synthetic resins, the water retention properties of which can be modified by those skilled in the art.

Aging tests have also shown that the foamed synthetic resins (W.A.F.TS foams = Water Absorbing Foams) are very durable and will still be present in the soil after hundreds of years. Microt and macroorganisms have no influence on these foam materials. In addition, these materials are cheap to manufacture and easy to apply.

40 Two techniques have been tested to date, namely: 8401772 7 1) the W.A.F.foam slabs with a covering layer of soil and 2) the W.A.F.foam flakes, which are plowed into the top layer of the soil (molded in).

In the application of W.A.F. foam slabs mentioned under 1), a layer of foam is applied, for example, at a depth of about 30 to 50 cm in the soil, which makes it possible to raise the groundwater level to this depth. The roots of the plants do draw water from the foam, but there is no rooting in the foam. With these methods, very good results have been achieved with low * 10 growing cultivated plants, such as beans, bean sprouts, tomatoes, etc.

The water contained in the foam slabs applied is laboriously released therefrom * When the foam material rises above its saturation point (80% of the volume), the excess water is released downwards, so that a heavy pool will not form during heavy rainfall.

Moreover, this method has the advantage that any fertilizers can be optimally consumed and that they do not immediately dissolve in the water and disappear with the subsidence of the water.

In the use of W.A.F. foam flakes mentioned under 2), the foamed synthetic resins are applied in flakes, not in slabs or plates, but in the top layer of the bottom. In this way, the roots of the vegetation can properly embrace the foam flakes and therefore also give the opportunity to anchor themselves deeper in the ground, which also allows for higher planting. The soil can also be worked with heavier earthmoving.

The flakes to be introduced into the soil can be introduced in bags and mixed with the soil by plowing or by means of worm wheels.

To illustrate the above technique with W.A.F. foam foams (W.A.F .: water absorbing foams), reference is made to FIG. 7 while the technique discussed with W.A.F. foam flakes is illustrated by FIG. 8.

8401772

Claims (16)

1. Procedure for remediation or prevention of a polluted environment, characterized by the use of a foamed, open cell 5 uses aire and some hydrophobic synthetic resin. 2. Process according to claim 1, characterized in that a foamed urea-formaldehyde resin adapted in terms of absorption properties is used. Method according to claim 1 or 2, characterized in that wafer 10 ter, preferably groundwater, is used as a means of transport for the pollutants present in the environment. 4. Process according to one or more of claims 1 * 3, characterized in that the foamed synthetic resin is regenerated by pressing and then the regenerated synthetic resin is used again as absorbent for the pollutants present in the environment. 5. Method according to one or more of claims 1 * 4, characterized in that the polluted environment is enclosed by means of a ring of foamed synthetic resin reaching into the groundwater and within the? if necessary, it applies moldings of the foamed synthetic resin, which reach up to 20 in the groundwater. 6. Method according to one or more of claims 1 * 5, characterized in that in the polluted environment a central pump unit is placed in a well of foamed synthetic resin, which reaches into the groundwater, and the pumped contaminated groundwater over some transports distance 25 to one or more foamed synthetic resin sump? and let it settle in it. 7. Process according to claim 1 or 2, characterized in that impurities present in or on the groundwater are bound by injecting resins acting as absorbent for impurities into the top layer of the groundwater. Process according to claim 7, characterized in that a foamable urea-formaldehyde synthetic resin is used. 9. Method for creating an artificially elevated groundwater level, characterized in that foamed synthetic resin * 35 moldings with a high water absorption capacity are applied in the ground. 10. Process according to claim 9, characterized in that moldings of a foamed urea-formaldehyde resin are used. Process according to claim 9 or 10, characterized in that synthetic resin material with a water absorption capacity of 0.8 liters of water is used per liter of foamed synthetic resin. 8401772 9; . 5, note that the foamed synthetic resin moldings are placed in the bottom at a depth of 30-50 cm. 13. Method according to one or more of the claims 9r12, characterized in that the foamed synthetic resin is applied in the bottom in the form of slabs or plates, respectively. 14. Method for increasing the water-resistance capacity of soil, characterized in that foamed synthetic resin particles with a large water absorption capacity are applied in the upper bottom layer. Method according to claim 14, characterized in that it is used thereon with a foamed urea-formaldehyde resin * Method according to claim 14 or 15, characterized in that synthetic resin material with a water absorption capacity of 0.8 liters of water per liter of synthetic resin is used. Method according to one or more of claims 14fl6, characterized in that the synthetic resin material is used as foam flakes. ****** 8401772