DD246334A1 - METHOD AND DEVICE FOR DRYING MOISTORED WALLS - Google Patents

Abstract

1. Method for desalting, drying and keeping dry brickwork using iron electrodes positioned in or on the brickwork and connected by means of mortar bridges with the brickwork and subjected to a direct voltage, characterised by the fact that to the mortar is added, in accordance with the measured moisture and salt content of the brickwork, barium salts, cation-active surfactants and/or graphite powder, after the desalting the soluble salts and iron oxides deposited in the space between the brickwork and the electrodes are removed mechanically by rinsing with water and that the space is neutralised with a solution of barium hydroxide before the application of a direct voltage sufficient for the creation of a permanent electrokinetic barrier.

Description

Field of application of the invention

The desalination, drainage and dry maintenance of masonry is often a necessary prerequisite for the complete renovation of old buildings in which water rises from the soil, which transports soluble salts into the masonry and enriches them in the evaporation zone. ' _v

Characteristic of the known state of the art

It has often been attempted to dry wet masonry by electro-osmotic methods and apparatus. This has been done with varying success, so that the application of these methods and devices in the literature is still controversial.

One reason for this is seen in the fact that after application of electro-osmotic processes and devices, the destructive and sometimes highly hygroscopic salts remain in the masonry. These cause a hygroscopic residual moisture, which can be up to 8% at high salt concentrations, and favor the re-rising of the water in the masonry. In DD-PS 2003987 it is proposed to combine the active electroosmotic drying with a previous desalination of the masonry. However, this invention has the disadvantage that corrosion-resistant electrodes of graphite or platinized titanium are used. In order to enable their reuse, it is proposed to replace these expensive electrodes by cheaper ones after desalting, but it has been found that the electrodes are also subject to severe corrosion even after desalting. In the case of iron electrodes, their volume increases many times as a result of anodic oxidation, whereby the electrodes can be forced out of the masonry and the electrokinetic permanent barrier can be interrupted.

A drawback which all known electroosmotic desalination methods have for masonry is that they are not adapted to the salt concentration of different composition and to the different moisture content in the masonry. According to DE-OS 3430449 and 3430450, only anodically formed chloride hydrates can be discharged from the masonry. The soluble sulphates also found in masonry are not sufficiently considered. These sulfate ions, like the chloride ions, are enriched at the anode and can interfere in large quantities with the desalting process. Adaptation to the moisture content in the masonry is desirable to prevent the masonry from drying out before the desalting process ends and interrupting the desalting process.

Object of the invention

The aim of the invention is a method by which a masonry in which water rises, can be easily desalinated and drained and permanently kept dry.

Explanation of the essence of the invention

The invention has for its object to find a method by which a wet-damaged masonry with any moisture and salinity first desalted, then drained and then kept dry, without the electrodes must be replaced and without this process by premature dehydration or by the electrodes deposited on the salts and iron oxides are interrupted.

According to the invention, this object is achieved in that between the arranged in a known manner in or on the masonry electrodes, preferably made of iron, and the masonry one or more depending on the measured moisture content and salt content of the masonry mortar bridges are brought, the electrodes with the Join masonry, but so that there is enough space between the electrodes and masonry to absorb the soluble salts and iron oxides deposited on the electrodes.

The invention is based inter alia on the recognition that the direction of the water flow in the masonry is determined solely by the sign of the zeta potential.

This results from the formation of a double layer of electrically charged ions at the phase boundary solid to liquid. The charge carriers in the immediate vicinity of the solid are compensated by ions which are in a rigid and in a diffuse double layer. The potential measured at the boundary between the rigid and diffuse double layers is called the zeta potential. Its sign and size depend on the one hand on the structure and the chemical composition of the solid, ie the masonry, and on the other hand on the properties of the adjacent liquid. At a negative zeta potential, the liquid moves in the direction of the cathode, a positive zeta potential causes a liquid movement in the direction of the anode.

In the brickwork, negative zeta potentials are very likely to occur. The arranged in or on the masonry electrodes are connected in this case as the anode, the ground electrodes as cathodes.

With a low moisture content of less than 8% in masonry, there is a risk that the masonry at the anode will dry out before completion of desalination. For this reason, the mortar according to the invention admixed with additives that keep the zeta potential small and prevent premature electro-kinetic outflow of water from the anode compartment. These additives may be calcium or barium salts. '

This effect can be further enhanced according to the invention by admixing cationic surfactants, such as cetyltrimethylammonium bromide, because it reverses the sign of the zeta potential and this causes a weak flow of water towards the anode, which promotes desalting. At a high chloride content of the masonry graphite powder is added to the mortar according to the invention, in the presence of chloride ions are discharged to elemental chlorine. Contains the wet masonry a high proportion of sulfates, the mortar according to the invention, a high proportion of barium carbonate or barytocalcid added, which bind the sulfate ions as sparingly soluble barium sulfate. The connected via the mortar Brückeh with the masonry electrodes are electrically connected to each other, and against a system of earthing rods, the highest possible DC voltage is applied in compliance with occupational health and safety and the applicable statutory provisions. This is maintained until the current has dropped to a constant limit, indicating that desalination is complete. Subsequently, the accumulated in the anode compartments salts and iron oxides are removed mechanically and by rinsing with water, then the anode compartments are neutralized with a solution of barium hydroxide. If necessary, damaged mortar bridges are renewed. Subsequently, a DC voltage is applied again, so that the electrodes now act as electrokinetisch ^ permanent barrier against rising moisture.

embodiments

The invention will be explained below in some embodiments:

1. A building should be renovated against rising damp whose masonry contains less than 8% water, 1 χ 10 ~ ⁴ mol / g chloride and low sulphate.

In the evaporation zone recesses are introduced into the masonry for receiving the cylindrical electrodes at intervals of about 40 cm, whose volume is about 5 times larger than that of the electrodes made of iron. The electrodes are supported in the recesses by two mortar bridges of the following compositions in% by weight:

0.5% calcium chloride

40% graphite powder

the remainder is half calcium carbonate and calcium hydroxide. Among the electrodes, liquid-impermeable grooves are arranged between the mortar bridges, which drain the dripping salt solutions to the outside. After the desalination, which is indicated by a decrease of the current to a constant value, after clamping the voltage source, the salts and iron oxides accumulated in the anode compartment are removed, and then the anode compartment is neutralized with a solution of barium hydroxide.

Thereafter, a DC voltage is applied again to prevent re-rising of the water by an electrokinetic permanent lock.

2. Does the masonry 5 to 8% water, 5 χ 10 ^-5 mol / g of chloride and 5 χ 10 ^-5 mol / g of soluble sulfate, then the following mortar composition in Ma is selected .-%:

1% cetyltrimethylammonium bromide 20% graphite powder the balance half of each barium carbonate and white lime.

3. In a masonry with 15% water, 4 χ 10 ~ ^β mol / g chloride and 1 χ 10 ~ ⁴ mol / g ^ sös sulfate the mortar is made

10% white lime and

Composed of 90% barium carbonate.

In these embodiments, a DC voltage of 50 V was applied for desalting, and a DC voltage of 10 V was used to establish the electrokinetic continuous barrier.

Claims (5)

Claim: 1. A process for desalination, drainage and dry maintenance of masonry using arranged in or on the masonry electrodes, characterized in that the electrodes are connected to the masonry bridges over one or more mortar, composed in function of the moisture content and salinity of the masonry be that between the electrodes and the masonry enough free space is left to absorb the deposited in him soluble salts and iron oxides that these salts and iron oxides are removed mechanically and by rinsing with water after desalination that the free space between the electrodes and masonry after the desalting is neutralized with a solution of barium hydroxide and that between the electrodes and a system of earthing rods during desalination as high as possible and after desalting sufficient for the establishment of an electrokinetic permanent lock DC voltage is applied. 2. The method according to claim!, Characterized in that at a moisture content of less than 8% in the masonry of the mortar up to 1 Ma .-% additives of soluble calcium and barium salts are added. 3. The method according to claim 1, characterized in that at a moisture content of less than 5% in the masonry of the mortar up to 1 Ma .-% of a cationic surfactant, such as cetyltrimethylammonium bromide, be admixed. 4. The method according to claim 1, characterized in that at a high chloride content of 5 χ 1O ^-5 mol / g in the masonry mortar up to 80 wt .-% graphite powder are added. 5. The method according to claim T; characterized in that at a high sulfate content of 5 χ 10 ~ ⁵ mol / g in the masonry mortar up to 40Ma .-% barium carbonate or Barytocalcid be admixed.