SE454419B - Fill and ground binding agent - Google Patents

Abstract

Fill and ground binding agent comprises (by wt.%) cement 1-30 pref. 1-15, more pref. 7-10; and waste (I) 99-70, (I) being fly ash or prods. of de-sulphurisation of granulated blast-furnace slag, mixed with water and/or air, pref. fly ash 99-85 pref. 93-90. The compsn. pref. contains water to a water binder index (water/(cement + fly ash) of 0.20-0.60 pref. 0.38.

Description

454 419 Table 1 Chemical compound Weight percentage CaSO3.1 / 2aq 50-30 CaSO4.2aq 5'2Û CaCl2.2aq 1-10 cawmz 5-20 CaCO3 5-15 The desulphurisation product consists of a fine powder with a particle size of 2-S pm which normally flocks around fly ash particles. In the absence of fly ash, the desulfurization products are agglomerated into coherent agglomerates with very high porosity.

The problem with the desulphurisation product is the stability of the calcium sulphite and the question of whether a chemically unstable residual product can be used directly in cement production, whether oxidation can be prevented or whether the material must be oxidized before use.

Attempts to oxidize the desulfurization product and use it instead of gypsum as a binding time regulator in cement production have given good results. In practice, however, difficulties can arise due to the varying composition of the material, especially the chloride content, which may exceed the current limit value for cement. The oxidation plant is also very expensive and therefore such use is less suitable. On the other hand, soil cement is less sensitive and it has been shown that in the manufacture of binders for soil purposes, non-oxidized desulphurisation product has also been shown to give good results.

The desulphurisation material itself can activate the glass phase in granulated blast furnace slag and in fly ash. Strength growth is controlled by the addition of Portland cement. However, the strength is not the most interesting parameter, as the material is not in a chemically stable phase. Even if too high a content of Portland cement gives an Unacceptable swelling reaction, the cement is a suitable activator as the material thereby has an internal, alkaline environment which strongly inhibits the oxidation of the unstable sulphite. The strength values of the mixture become high enough to also significantly inhibit the acid diffusion into the material.

Luz 454 419 The most critical property of the desulphurisation product is its content of readily soluble salts. This promotes water uptake and reduces resistance to the effects of frost, and a prerequisite for successful use is therefore to seal the matrix with another, stronger binder or to build up an air pore system that provides the required amount of swelling. However, a dense product is preferred, e.g. because the easily soluble salts can damage conventional concrete by so-called sulphate infestation and the dense product reduce the risks of such leaching and thus secondary damage.

Our soil binder is characterized by a composition of 2-20% by weight of cement, 10-40% by weight of desulphurisation product and the remainder up to 100% by weight of fly ash and / or granulated blast furnace slag, the desulphurisation product, which is produced on the dry road by injecting a lime solution in the flue gases from coal combustion to give a dry residual product, the composition has 50-80% by weight of CaSO 3, 1/2 aq, 5-20% by weight of CaSO 4, 2 aq, 1-10% by weight of CaCl 2, 2 ag, 5-20% by weight of Ca (OH) 2 and 5-15% by weight of CaCO3.

There are many environmentally hazardous waste materials that are laid out on dumps and according to investigations, waterproofing layers must be applied, e.g. ash storage, so that water penetration is avoided. The same problem with water not passing through the material exists for all waste and the more finely divided the waste, the more sensitive it becomes to water leaching, as the contact surface of the material increases sharply with the fine-grained material.

Very hazardous hazardous waste should therefore be poured in completely so that the contact surfaces are minimized. For this, one can use such a filling mass as stated in our previous patent application 8401776-3, but even better is the mixture according to the present invention of cement, desulphurisation product, fly ash and slag. For less dangerous tips, you can also be content with making tight lids that prevent water from penetrating. Already today, clay layers and sand-bentonite mixtures are used for this purpose. Concrete, on the other hand, has been avoided due to fear of cracking. However, by adjusting the amounts of the various components in our mixture according to the invention, we obtain extremely good properties. If the amount of desulfurization product is too large, the material becomes water sensitive and it is fresh for a swelling reaction if the sulphite changes to sulphate. Excessive cement content also causes swelling problems due to ettringite formation, and in cement the maximum content of SO4 454 must be 4%. For our mixture, however, the harmful effects are limited by the fact that the cement content is so low that the ettringite formed does not swell to such an extent that it causes cracks in the material.

We have found suitable amounts in our soil binder to be a cement content of 2-30% by weight, an amount of desulfurization product of 10-40% by weight and with the rest consisting of a pozzolanic material which reacts on contact with a certain substance, for example high content of OH ions, and which can be sulfate activated. This pozzolanic material can be fly ash or granulated blast furnace slag. A sealing compound according to the invention can thus be prepared by mixing 60-90% fly ash with 10-40% desulfurization product, and 80-98% of this mixture is added with 2-20% Portland cement.

The method of covering tips etc. with the soil binder according to the invention is characterized in that first a lower layer of latent, hydraulic material capable of hardening under the influence of activating substance such as water and hydroxide and / or sulphate ions is applied and then an upper cover layer with excess of the activating substance.

The use of our soil binder for covering waste will be described in more detail in connection with the accompanying drawings, which show in Fig. 1 the covering of a landfill, Fig. 2 ruptures when settling in the waste heap and Fig. 3 an enlarged detail of fig. 2 showing the healing of the cracks.

Fig. 1 shows one of, for example, rubbish, household waste, coal ash or similar less risky material 1. The rubbish heap is covered with a layer 2 of material that can be activated by sulphate or react with cement solution extracts, ie a high content of OH ions such as a pH value of 12-14. Such materials include fly ash, and granulated blast furnace slag that can be laid out wet, and various mixtures that must be laid out dry, such as a mixture of fly ash and desulphurisation product, a mixture of desulfurization product and granulated blast furnace slag or fly ash mixed with both slag and desulfurization product. This material 2 must not react until the surface layer 3 has been damaged. The hard layer lying on top of the powder material 3 must contain cement in such an amount that a basic reserve remains which can be leached out. Such m 454 419 materials are all kinds of concrete, filling mass with more than 10% cement and our mixture according to the invention of fly ash and / or granulated blast furnace slag which is activated with desulphurisation product and cement.

At the very top, the pile is covered with a layer 4 of soil or similar that serves as a base for vegetation, grass, shrubs and eventually trees.

During a settling in the rubbish heap, as shown in Fig. 2, no arch is formed but the hard shell 3 cracks and remains on the powder material 2 as merelkx smaller pieces. The material in the shell is so shaped that it cracks relatively easily and collapses as soon as the tendency to arch arises. The underlying powder layer must also be so thick that during settling it still forms a continuous layer without fracture, which in practice corresponds to a layer thickness of at least about 1 meter. The enlarged crack zone in Fig. 3 shows how rainwater gradually passes through the cracks and activates the underlying powder material so that it hardens.

On its way over the hard layer 3 and through the cracks, OH ions also leach out and raise the pH of the rainwater so that the hardening of the powder material 2 is further activated. After 2-3 months, all cracks are usually completely healed.

Waste that can damage the surrounding environment if water is allowed to pass through the material can be given a safer disposal if all such waste is mixed with the binders mentioned above and cast into homogeneous dense foundations. The density is regulated with normal proportioning / onering technology.

The soil binder according to the invention can of course also be used for backfilling pipe trenches, for other fillings, as floor material in outbuildings and garages and the like and more.

Claims (4)

10 15 20 25 30 35 4 »year .Pi 4s -A MD Patent claim Ground binders for covering waste heaps, landfills and similar less hazardous materials, characterized by a composition of 2-20% by weight of cement, 10-40% by weight of desulphurisation product, and the remainder up to 100% by weight of fly ash and / or granulated blast furnace slag , the desulfurization product, which is prepared on the dry road by injecting a lime solution into the flue gases from coal combustion to give a dry residual product, the composition has 50-80% by weight of CaSO 3, 1/2 aq, 5-20% by weight of CaSO 4, 2 aq, 1-10 weight percent CaCl 2, 2 aq, 5-20 weight percent Ca (OH) 2 and 5-15 weight percent CaCO 3. 2. When covering tips, waste heaps and the like with two layers of a soil binder with the composition 2-20% by weight cement, 10-40% by weight desulphurisation product, and 4 'the rest up to 100% by weight fly ash and / or granulated blast furnace slag, wherein the desulphurisation product, which prepared on the dry road by injecting a lime solution into the flue gases from coal combustion to give a dry residual product, characterized in that a lower layer of latent, hydraulic material capable of hardening under the influence of activating substance such as water is first applied and hydroxide and / or sulfate ions and then an upper cover layer with excess of the activating substance. 3. A method according to claim 2, characterized in that the lower layer of the soil binder, which is applied dry, has a higher content of blast furnace slag and / or fly ash, and a lower content of activating substance, cement and desulphurisation product, and is applied dry. 4. A method according to claim 2, characterized in that the upper cover layer has an excess of activating substance due to a higher content of cement and desulfurization product, whereby in case of cracking in connection with settlements, rainwater leaches out hydroxide and / or sulphate ions, which react with and hardens the underlying first layer so that the cracks heal themselves.