DE19512244A1 - Ceramic moulded body for keeping fresh water in slightly acidic state - Google Patents

Abstract

A ceramic produced from an inorganic amorphous moulded body, which is for keeping fresh water in a slightly acidic state, is novel in that the moulded body contains SiO2 and Al2O3 in a wt. ratio of 1.5-6.0 (SiO2/Al2O3).Also claimed is a process for mfg. the above ceramic comprising: (a) kneading of the main raw materials and a pore-forming organic material while adding water, the main raw materials comprising gairome clay and diatomite; (b) moulding of a moulded body from the kneaded mixt. to a predetermined size; (c) sintering of the moulded body; and (d) rubbing off of the surface of the moulded body to reveal its innards.

Description

The present invention relates to an inorganic, amorphous Molded ceramic to make fresh water in a slightly acidic state hold. In particular, it concerns a ceramic for cleaning fresh water in one Aquarium with aquatic animals and plants.

Tap water is commonly used in an aquarium to be used in fresh water breed live animals, such as tropical fish, and freshwater plants. Dependent from the water source, the pH of the tap water is generally in the range between 7.5 and 8.5. The one for breeding tropical freshwater fish like Discus fishing, etc., however, the desirable pH is in the range of 5.5 to 6.6. A higher pH value will cause problems for these fish. Such Problems include skin irritation, body color changes, and difficulty in Spawning or maturing eggs. It is also for breeding Freshwater plants, such as Amazonian soil plants and Anubias nana also in the Range from about 5.5 to 6.5. A higher pH value causes the leaves of the  Freshwater plants wither and dissolve. Generally speaking, live Freshwater plants through daytime photosynthesis, being in the water contained carbon dioxide is absorbed. This inclusion therefore causes one Increase in pH. Therefore, it is necessary for the fresh water a little Maintain acidity so that fish and plants stay healthy.

To date, certain agents have been used in fresh water to reduce the pH added. However, since these agents quickly dissolve in water and become one sudden drop in pH must result in the prescribed Application amount are strictly observed. The sudden drop in pH results in unsuitable environmental conditions for the fish and the plants. For Maintaining the water in a low acidity state is it required to use these agents frequently because they have low buffering properties to have. As a result, it is troublesome to keep the fresh water environment stable.

The aim of the present invention is to provide a ceramic that is suitable for fresh water can maintain a low acidity in the long term.

It is another object of the present invention to provide a ceramic that can clean the fresh water and keep the water quality stable in the long term.

A ceramic according to the invention is made of an inorganic, amorphous molding manufactured and contains silicon dioxide (SiO₂) and aluminum oxide (Al₂O₃) as the main Links. The weight ratio of SiO₂ to Al₂O₃ (SiO₂ / Al₂O₃) must be in Range of 1.5 to 6.0 can be kept. This weight ratio is special suitable for that the pH value of the fresh water with low acidity in the range from about 5.5 to 6.5. This ceramic also has a specific surface advantageous, which is 1 m² / g to 10 m² / g. A surface that is smaller than that The aforementioned value of 1 m² / g leads to a deterioration in the property Keep pH constant. A surface area larger than 10 m² / g results in easy fragile fittings and handling difficulties.

To maintain the pH of the fresh water with a little weakened Acidity, it is advantageous that the ceramic as the main compounds  Contains alumina-silica double oxide and amorphous silica. The The main compound should take up more than 70% by weight in the ceramic.

According to this invention, the effects of this ceramic are not fully known, they can however be understood as follows. First of all, there is this ceramic preferably from two phases. One is made of the amorphous silicon dioxide and the others formed from the amorphous SiO₂-Al₂O₃ double oxide.

The amorphous silicon dioxide has a high affinity for fresh water Hydroxyl groups. As a result, hydroxyl groups from freshwater accumulate amorphous silicon dioxide, causing hydrogen ions in the water molecule dissociate. This leads to an increase in the acidity in fresh water.

Furthermore, aluminum oxide-silicon dioxide double oxide contains Al atoms, which are part of the Substitute Si sites in the SiO₂ structure. Due to the difference in the electrical balance between Si (valence electron: +4) and Al (Valence electron: +3) there is a certain instability in the SiO₂ and Al₂O₃ double oxide in front. Accordingly, the hydroxyl groups tend to stabilize themselves To coordinate the double oxide bond. Consequently, there is SiO₂- and Al₂O₃- Double oxide a tendency that more hydrogen ions (H⁺) are released than with a single SiO₂ phase. Because of this, it is from the Si-O-Al bond composite oxide better suited to increasing the acidity of fresh water increase than an oxide composed only of silicon dioxide.

This ceramic according to the invention preferably has on its surface corresponding pores in the range between 0.1 µm to 1000 µm and a large one specific surface. Therefore, the effect of the release of Preserve hydrogen ions in the long term. In addition, the already mentioned serve Pores as a suitable living environment for small and large microorganisms. Thereby will the decomposition and removal of organic substances which affect the quality reduce fresh water, reinforced by microorganisms.

In addition, the invention is based on the object of presenting a method for producing this ceramic. The method according to the invention for producing a ceramic with which a low acidity is maintained in fresh water comprises the steps:
kneading main raw materials and a pore-forming organic material in the presence of water, the main starting materials containing Gairome clay and diatomite,
forming a molding from the kneaded mixture, the molding being molded into a predetermined size,
sintering the molding, and
rubbing the surfaces of the molding to expose its interior.

The pore-forming organic material preferably contains powdered walnut wood.

In the process, the molding is preferably in the range from 800 ° C to 950 ° C sintered.

The objects and advantages of this invention will become apparent with reference to the following Description of the currently preferred embodiments in conjunction with best understood from the accompanying drawings. Show it:

Fig. 1 is a diagram showing the result of X-ray spectral a ceramic according to the invention, and

Fig. 2 is a diagram showing the relationship between the SiO₂ / Al₂O₃ ratio and the pH.

A method for producing the ceramic according to the invention is first explained.

By mixing together 65 parts by weight of Gairome clay (in English as gairome clay known) with 35 parts by weight of diatomite were 100 parts by weight of a main raw material. The 100 parts by weight of The main raw material was 20 parts by weight of powdered walnut wood, which serves as a pore-forming organic material, mixed and with addition kneaded by water. The mixture thus obtained was introduced into an extruder elongated tube with an outer diameter of 1 cm and a  Molded inside diameter of 0.6 cm. The elongated tube was cut in 1 cm Distances cut so that a plurality of fittings were obtained.

The moldings were sintered at 900 ° C for 20 hours to produce moldings in one Get shape similar to a Raschig ring. These fittings were then in one sealed containers spent and their surfaces rubbed, leaving pores were exposed that were present within these fittings. The surface this molded article with the pores was 7.1 m 2 / g when used by the BET method was measured. Furthermore, the sizes of the pores were in the range of 0.1 µm to 1000 µm distributed.

A spectral analysis of the ceramic obtained using an X-ray diffractometer is shown in FIG. 1 as an X-ray spectrum. This spectrum shows only peaks indicating the presence of the starting material, in particular quartz from the Gairome clay and crystoballite from the diatomite. This means that the moldings sintered according to the invention at a temperature of not less than 900 ° C. contain no kaolinite from the Gairome clay. As a result, it is confirmed that the fittings are substantially amorphous.

By changing the mixing ratio between Gairome clay and diatomite 4 further types of fittings similar to a Raschig ring were obtained. Each of the five types of fittings produced, distilled water was added, the weight ratio between the distilled water and the Moldings was 10: 1. The resulting mixture was for 30 minutes a shaker. Then the fittings were left for an hour set aside, after which a pH value for the upper area of the distilled water Test was performed. An investigation of the connection was also carried out between the proportion of diatomite and the pH. The Results are shown in Table 1. The original pH of this Experiment distilled water used was 7.5.  

Table 1

Fig. 2 shows the relationship between the SiO₂ / Al₂O₂ ratio and the pH, as shown in Table 1. From Fig. 2 it is clear that the SiO₂ / Al₂O₃ ratio must be between 1.5 and 6.0 in order to keep the pH of the fresh water in the range of 5.5 to 6.5.

The amount of use of this ceramic in water is preferably 0.5 or more vol .-% of the amount of water. If the amount used in water is less than 0.5 vol .-% is the quick cleaning process for the water in which the fish and the plants live, not reached because too little space for the activity of Microorganisms is available. The influences of this ceramic on the Water quality was examined using Sample No. 2 from Table 1. These influences of this ceramic were examined on the condition that 0.5 liters this ceramic 50 liters of water in a container with some goldfish and Plants were added.

In this investigation, the amount of ammonium nitrogen and nitrite nitrogen, which were collected in the water in the nitrogen form, measured while the water quality changed. After three months after the start of Investigation showed that only 5 mgN / l ammonium nitrogen accumulated had, and nitrite nitrogen was hardly detectable. The next step were the ceramics obtained in the manner described above by means of a  Scanning electron microscope examined. It has been shown that the Inside and outside of these ceramic pores some small and large ones There were microorganisms that can be assumed to be Nitrobacteria, Protozoa, etc. These microorganisms come in all sizes from Living pores are helpful for the decomposition of organic substances in water, so that the water condition suitable for the fish and the plants and that for them desirable environment is maintained in the long term.

Although only one embodiment of the invention has been described here, results to those of ordinary skill in the art that the invention is in a variety of other particular Forms can be realized without losing sight of the idea and the area of Invention is departed.

For example, any clay or mineral with the main compounds SiO₂ and Al₂O₃ can be used as a starting material. One will also take into account that the total proportion of SiO₂ and Al₂O₃ of the starting material is greater than 70% by weight or is preferably greater than 80% by weight. The clay, which is mainly a mineral like Containing kaolinite or dickite, etc. can be used as a raw material. Instead of powdered diatomite, silicon dioxide smoke or silica can also be used be used as starting diatomite mineral.

The sintering temperature can be changed in the area where this ceramic remains amorphous. To predict the amorphous structure, the temperature is in the range between 800 ° C and 950 ° C particularly suitable.

This ceramic according to the invention is made by sinking to the bottom of the aquarium brought or inserted into the filter area, which is within a cycle for the Fresh water located. To this end, it is desirable that this ceramic be similar to one Raschig ring is shaped so that the contact area with the fresh water increases is, although there are otherwise no restrictions on the shape. For convenient handling takes the form similar to a Raschig ring, if necessary preferably a cubic space of 1 cm × 1 cm × 1 cm.  

As described above, the ceramic according to the invention keeps the water in one Aquarium in a slightly acidic state. It can also worsen the Water quality can be slowed down.

Thus, the present example and embodiments are illustrative and not to be considered restrictive, and the invention is not details specified, but can be within the limits specified by the certain claims are modified.

Claims (8)

1. Ceramic made from an inorganic amorphous molding to keep fresh water in a weakly acidic state, characterized in that the molding silica and alumina in the range of 1.5 to 6.0 for the weight ratio between the silica and the alumina (SiO₂ / Al₂O₃) contains. 2. Ceramic according to claim 1, wherein the molding has a specific surface in Has a range of 1 m² / g to 10 m² / g. 3. Ceramic according to claim 1, wherein the alumina-silica Contains double oxide and amorphous silicon dioxide. 4. Ceramic according to claim 1, wherein the silicon dioxide and the aluminum oxide in Fitting as main links are included and a ratio of Main connections to the fitting is more than 70 wt .-%. 5. Ceramic according to claim 1, wherein the molding has a plurality of pores in the area between 0.1 µm and 1000 µm. 6. A method of manufacturing a ceramic that maintains low acidity in fresh water, comprising the steps of:
kneading main raw materials and a pore-forming organic material with the addition of water, the main starting materials containing Gairome clay and diatomite,
forming a molding from the kneaded mixture, the molding being molded into a predetermined size,
sintering the molding, and
rubbing the surfaces of the molding to expose its interior. 7. The method of claim 6, wherein the pore-forming organic material contains powdered walnut wood. 8. The method of claim 6, wherein the molding in the range of 800 ° C to 950 ° C is sintered.