DE102009051840A1 - Process for accelerating the pozzolanic reaction with lime or lime-cement mixed binders of improved soils through CO2-enriched atmosphere - Google Patents

Abstract

Process to accelerate the pozzolanic reaction in soils that are improved with lime or lime-cement mixed binders by adding CO: 1. with a CO-enriched air or air-gas mixture 2. with a powdery CO carrier 3. with a liquid CO carrier 4. with a pure CO gas with mobile construction machines or by means of stationary systems. Due to the CO enrichment of a soil stabilized with a high amount of lime or lime-cement mixed binder, an accelerated reaction takes place between the hydrated lime Ca (OH) and the CO and leads to the formation of CaCO. to rock the stabilized soil. (Monocarbonate) As a result, the stabilized soil develops very quickly at a pH value> 11 into a frost-resistant soil with high load-bearing capacities, e.g. in road construction and further up to a rock-like soil type.

Description

The invention relates to a method whereby calcium hydroxide Ca (OH) ₂ by the high addition of 4-5% of white fine lime or cement-mixed binders to improve soils especially moist and cohesive soils, carbonated by CO ₂ and thus quickly frost-sensitive soil with high load-bearing capacity arises with a pH> 11 and further solidified by the formation of the monocarbonate (CaCO ₃ ) to a soil class 6-7 (difficult to dissolve to rocky)

For the improvement of soils in road construction, to stabilize the soil and thus to improve the load-bearing capacity, fine white lime or lime-cement mixture is sprinkled onto the prepared surface and milled using a tiller. The binder removes moisture from the soil, resulting in the soil achieving the required levels of compaction and carrying values (Proctor and load plate values) according to the technical regulations for earthworks (ZTVE). Generally, depending on the moisture of the soil, 2-3% binders are added and milled by means of a self-propelled or powered by a tractor with cardan drive and powered tiller.

Lime has been used to improve soil quality for many years. Since the early 1990s, lime-cement mixers have also been used, as it has been discovered that the cement acts "like an accelerator".

In the investigation report "Long-term behavior of cohesive soils after the improvement and solidification with fine lime" by Dipl. Ing. HJ Ritter of the Research Association Lime and Mortar e. V. Cologne and Mr. Dipl. Geol. U. Stauff of the Highway Directorate Southern Bavaria, who in 1991 in the journal "civil engineering" has been published, it is shown that the pozzolanic reaction hardens the fine lime-treated soil to a soil class of 6-7, ie it is difficult to dissolve or rock-like. This investigation took place about 11 years after completion of the construction work.

As a pozzolanic reaction, the chemical reaction of the calcium hydroxide formed from lime and water (CaO + H ₂ O = Ca (OH ₂ ) with the clay minerals and silicates in the soil, for example, also [CaCOH ₂ ] CO ₂ = CaCO ₃ (monocarbonate) For this purpose, the investigation report refers to corresponding literature by Abicht, Freudenberg, Hundt [1].

In practice, such a behavior of soil had already emerged after 3 years. By empirical approach it was found that the carrying capacity of treated soils z. B. for building foundations, building backfill and embankments, can be controlled by the addition of lime or lime-cement mixed binders.

It has also been found that, depending on the presence of the main soil reactors such as silicon SiO ₂ and clay minerals, Al ₂ O ₃ with a suitably coordinated mixed binder optimum carrying values can be achieved within a relatively short time.

In contrast to the high metering to achieve fast high load values, only very little is added in sewer and pipeline construction (0.25 - max 1%). In this case, after aggregate formation and formation of a pseudo sand, excess calcium hydroxide is carbonated or neutralized by CO ₂ . However, due to the very small amount, this has no further influence on the carrying capacity of the soil. Cohesive soils, however, lose their tixotropic behavior as a result of aggregate formation, ie they no longer become plastic due to the energy input during compaction and can easily be compacted to 98% Proctor and easily achieve the similar values as in the natural environment of the trench.

It has also been found that a pH> 11 of the improved soil must be achieved in order to achieve a long-term behavior towards a frost-proof, rocky soil.

By means of an X-ray-Fractometry these values can be determined. Silicon is usually always available. The clay mineral content (Al ₂ O ₃ ), however, is very different, so that at low Al ₂ O ₃ content, a poor reaction takes place in the soil.

A good clay mineral carrier is the cement. By adding cement (lime-cement mixture), the lack of "pozzolans" (Al ₂ O ₃ ) can be compensated. Cement is also a low-cost, bulk product that is transported and handled like lime, making it ideal for making mixed binders to make a well-reactive mixed-bottom binder mixture. If the soil has a relatively high Al ₂ O ₃ content, z. B. lime-cement mixture of 70% CaO + 30% cement added. If the soil has a very low Al ₂ O ₃ content, a lime-cement mixture of 30% CaO + 70% cement is added. In between, customized mixtures can be used.

Another influence of the reaction rate is the heat. A primary heat of reaction results from the reaction of CaO (white fine lime) and H ₂ O (the soil moisture). It is generally known that the pozzolanic reaction doubles at every 10 ° C increase in temperature. at summery temperatures and sunshine, the pozzolanic reaction is therefore faster than in autumn, winter and spring.

The erosion of the soil-mixed binder mixture is carried out by the formation of the monocarbonate CaCO ₃ from calcium hydroxide and CO ₂ . There is CO ₂ in the air, in the soil and in the water. In the air, the CO ₂ content is about 0.03%. Also in the soil and in the water which is present in the soil, the CO ₂ content is of a similar order of magnitude. Accordingly, in order to accelerate the pozzolanic reaction, it is useful to artificially supply the calcium hydroxide contained in the soil with CO ₂ to provide a CO ₂ -enriched atmosphere.

Accordingly, it is the task of developing a practical, adapted to the conditions of the site and the used equipment shank procedure.

The present invention is based on the object to propose a method for producing a CO ₂ -enriched atmosphere and thus a rapid carbonation of relatively high in the improved soil portion of calcium hydroxide, which is reliable, flexible and, above all, economical.

In order to achieve a good carbonation, the can contained in the soil in relatively high dose of calcium hydroxide CO ₂ in gas form, is supplied liquid or powder.

The object is achieved by the method specified in claim 1.

The enrichment of the air with gaseous CO ₂ and the inflow into the z. B. by the tiller ( 1 ) under the milling hood ( 2 ) ground up ( 3 ), is easy to realize. An admixture of a powdered CO ₂ carrier is also conceivable and can by classical ( 4 ) Metered addition of powdered substances can be achieved.

The incorporation of a liquid CO ₂ carrier is also possible in the classical manner via the metered liquid addition or spraying ( 4 ) in fogged form.

An easy way to enrich the air is the use of the exhaust gases ( 5 ) of the motor of the self-propelled milling machine or of the tractor engine, in the event that a cultivator is used to a tractor for soil stabilization. These exhaust gases contain up to about 10% CO ₂ , which as well as by compressed CO _2, a much higher proportion of the air of about 0.03% CO _{2 is available} for reaction with the calcium hydroxide available.

In one variant, the reaction acceleration of the calcium hydroxide is proposed by the supply of CO ₂ enriched air. The enrichment of the air can be achieved by using compressed CO ₂ from a pressure vessel.

This CO ₂ -enriched air or exhaust gas can be injected into the milling drum located under the milling hood (FIG. 7 ) are blown by means of a distributor nozzle, so that enriched in the air or exhaust gas CO ₂ (carbon dioxide) with the Ca (OH) ₂ (calcium hydroxide) can react ( 9 ).

The use of the exhaust gases of the internal combustion engine of the self-propelled milling machine ( 1 ) or the tractor of a cultivator, removed from the exhaust ( 5 ) via an exhaust hose ( 6 ) has the further advantage that at the same time moisture evaporates from the soil due to the dry and warm gas.

Another advantage results from the blowing of the warm exhaust gases by the resulting heating. The pozzolanic reaction is a chemical reaction that, like all chemical reactions, is accelerated by heat. It is known that at every 10 ° C temperature increase, the reaction rate of the pozzolanic reaction doubles.

The same principle can also be applied in the extraction of scree earth masses for a dam construction for roads, railways or flood and power dam construction by the use of a mobile or stationary twin-shaft sizer (DWSK) for equalization and premixing of coarse cohesive soils. The DWSK produces a premixed soil-scree material from 0-120 mm that can be milled. After blending and premixing, the CO ₂ is supplied to the soil in powder or liquid form as a gas or exhaust mixture by the milling cutter during the mixing.

literature

• [1] E. Abicht, G. Freudenberg, J. Hundt: The Long-Term Behavior of Lime Stabilizers Under Practical Conditions, Die Straße Heft 5, 1976 ,
• [2] Long-term behavior of cohesive soils after improvement and solidification with fine lime. Dipl. Ing. HJ Ritter, Dipl. Geologist, W. Stahff, civil engineering 5/91

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited non-patent literature

• "Long-term behavior of cohesive soils after improvement and solidification with fine lime" by Dipl. Ing. HJ Ritter of the Research Association Lime and Mortar [0004]
• Cologne and Dipl. Geol. U. Stauff of the motorway administration Südbayern, which was published in the journal "Civil Engineering" in 1991 [0004]
• Abicht, Freudenberg, Hundt [0005]

Claims (5)

Process for the enrichment of calcium hydroxide Ca (OH) ₂ in high doses (4-6%) with white fine lime (CaO) or lime-cement mixed binders, improved soil to accelerate the pozzolanic reaction, the soil containing calcium hydroxide being propelled by a self-propelled tractor or a tractor Rotated tiller is blown with a CO ₂ -enriched air-gas mixture or gas mixture, which is evenly distributed in the milling hood, with the CO ₂ enriched air or the air-gas mixture with high CO ₂ content supplied sufficient CO ₂ In order to react with the calcium hydroxide (Ca (OH) contained in the soil and thus to accelerate the pozzolanic reaction (carbonation), a soil layer of soil class 6-7 (difficult to dissolve to rocky) with high load bearing capacity and freezing safety is formed. A method according to claim 1, characterized in that the calcium hydroxide-containing soil is mixed with a powdered CO ₂ carrier, the soil is metered the required CO ₂ -containing powdery substance is added, after which the soil intensively through the cutter with the powdered CO ₂ - Carrier is mixed and can be reacted by the intensive mixing so the calcium hydroxide with the CO ₂ and thus the pozzolanic reaction is accelerated. A method according to claim 1 or 2, characterized in that the calcium hydroxide-containing soil is mixed with a liquid CO ₂ carrier, the soil is metered the required CO ₂ -containing substance is added, after which the soil intensively through the milling machine with the liquid CO ₂ carrier is mixed, so that by the so intensive mixing, the calcium hydroxide can react with the CO ₂ and the pozzolanic reaction is accelerated. The method of claim 1, 2, 3, characterized in that as CO ₂ -containing gas mixture, the exhaust gases of the drive motor of the self-propelled tiller or the tractor of the cultivator are used, which contain about 10% CO ₂ and thus by a rich CO ₂ supply rapid reaction can take place with the mixed in the soil calcium hydroxide. A method according to claim 1, 2, 3 and 4, characterized in that as CO ₂ -containing gas mixture, the hot exhaust gases of the drive motor of the self-propelled tiller or the tractor of the cultivator be used to heat in the fluidized soil with the calcium hydroxide and CO ₂ mixture enter, whereby the reaction rate of the pozzolanic reaction increases, the reactivity doubles at every 10 ° C increase in temperature.

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