DE4430077A1 - Method and device for regulating and improving water quality - Google Patents

Abstract

With the proposed process and device, water quality in particular in aquaria is regulated by measurement, assessment and adjustment of the redox potential, the device comprising a mixing box (2), a circulating pump (8) and a measurement sensor (6).

Description

The invention relates to a method and a device to regulate and improve water quality, esp special of aquarium water, with improvement also fertilizer may include.

Ideally, it is in closed water circuits biological equilibrium in terms of assembly and disassembly of fabrics before. In doing so, plant organisms withdraw the water substances for their biosynthesis, while tie corresponding organisms by means of Give digestion to the water.

As a rule, however, there is no balance, because at for example in aquariums with fish stocks, food from the outside fed, abge via the digestion of the animals in the water will give and this the capacity of the vegetable organisms by far. This leads to egg ner enrichment of the dissolved substances from the substance change of animals in the aquarium water, especially the Nitrate enrichment is a source of problems.

From the field of industrial wastewater treatment are known methods that are a biological Ni step degradation using nitrate-replacing bacteria serve. The appropriate techniques based on a sophisticated system of measuring devices and basins can not be transferred to the aquarium area gene.  

For the area of the much smaller scale ar in the aquarium are processes of nitrate degradation The exploitation of various anaerobically active bacteria known.

Such bacteria can only nitrate in air decompose oxygen seal. Inside an aquarium anaerobic conditions are naturally excluded. So the nitrate breakdown (denitrification) must be outside the aqua rienbeckens take place. Another requirement for a functional breakdown of the nitrate by bacteria is the adequate supply of bacteria with organi carbon compounds. These bacterial nutrients must be added to the water, which is particularly difficult doses.

Bacteria can either be autotrophic, i.e. H. an anor ganic energy source utilizing bacteria on sweat rock base or as heterotrophic, d. H. an organic Bacteria utilizing energy sources based on organi shear carbon compounds work.

A method based on heterotrophic bacteria is described in DE 34 10 412 C3. One becomes one Solid bodies incorporated and through microbial activity decomposable organic energy source that the Livelihood for the denitrifying bacteria creates. The advantage of using heterotrophic grow the bacteria exist against autotrophic, for example wise sulfur-utilizing bacteria in that the latter excrete sulfate as the final product, which subsequently must be removed again. DE 34 10 412 C3 thus delivers a process that denitrifies growth  organic carbon compounds of utilizing bacteria favored. These bacteria are able to under Oxygenation from nitrate to gaseous nitrogen build, which then escapes from the water. Because instead of Sulfate CO₂ occurs as a further degradation product is Use of these bacteria for living water, at for example aquarium waters with regard to their degradation pro products without problems.

Furthermore, biological filters work anaerobically known. The principle of operation of these filters lies based, nitrate-decomposing bacteria on the filter surface to settle. A corresponding device be writes the German utility model 84 38 440. Thereby are different filter materials for filtering the Suspended solids and, among other things, for settlement nitrate-replacing bacteria proposed. For the bak Series growth must also have corresponding organic Carbon sources are added.

Another denitrification process is in EP 0 096 170 B1. This process is based on the idea of taking a long exposure Atmospheric oxygen closure, the bacterial decomposition of the Nitrate using a carbon source respectively. This idea is shaped by a loop gen channel realized through which the water to be cleaned is directed. The oxygen content decreases during the course the route by the action of the bacteria, so that at the end of this route the conditions for a nitrate degradation prevail. This procedure is necessary because the water flowing in from the aquarium is initially one has a correspondingly high oxygen content at which  no denitrification can take place. The problem be stands in the reduction of the oxygen content of the Aquarium water after entering the device.

In known, with heterotrophic bacteria, ie organi carbon source processes and pre directions is also the problem of dosing organic nutrients not satisfactorily solved. An incorrect dosage has significant consequences for the Aquari Residents: an overdose leads to education toxic hydrogen sulfide during an underdose tion leads to nitrate not becoming a gaseous stick but converted into toxic nitrite. Thu sation is further complicated by the fact that the bacteria no constant demand, but with decrease the need for orga decreasing in the nitrate content of the water niche substances.

A particular problem in regulating the nutrient salary results in particular from sea water aquariums from the high calcium requirement of living beings, which in ge closed systems can not be satisfied. At there is an addition of calcium in the aquarium water the danger of chemical burns to the living being since the encore usually according to the so-called lime water method in Formed a calcium hydroxide solution, which one has a pH of over 10. The initiation also leads of calcium to a significant reduction in CO₂-Ge stops and for the precipitation of calcium carbonate in the water.

In the known method of using a lime freak the water flows through a calcium carbonate bed in a separate reactor. Here CO₂ can be added at the same time  will give. However, the solution requires a high one Effort due to the additional lime reactor and the separately required carbon dioxide station.

The invention is therefore based on the object, a Ver drive and a device of the type mentioned create that enables problem-free nitrate breakdown and avoids the disadvantages of the prior art.

This object is achieved with the features of independent claims solved.

The invention is based on the idea of solving the Task the redox potential of water as a guide value for measure the need for organic matter. The green The principle is based on the fact that the content of or ganic substances affect the redox potential of the medium flows. A high salary lowers the redox po tentials. This possibility is with the known before directions and procedures excluded in principle. Be condition for using the redox potential as a guide What is worth is that this value is a statement about the entire medium, so the measured value in each Range of the filter is present.

This is impossible with conventional systems because either the water, as in EP 0 096 170 B1, over the length of the loop-shaped flow path has completely different redox behavior and no internal mixing of the water takes place, at least but in any case there are zones that are more or less are flowed through. In addition, a useful statement a measurement of the redox potential prevents that  the distribution of the bacteria in the water is uneven, either on a carrier material or on a fixed bed is present. The uneven distribution of the bacteria also reduces the nitrate breakdown rate and the bacteria all growth rate. An optimal growth rate is basically to be achieved when the nutrients and the bacteria are distributed homogeneously in the room.

The invention uses one from the aquarium physika The reaction basin in which the bacterial Nitrate breakdown can take place, as a mixing box simple geometric shape a homogeneous mixing of a liquid contained therein. This mixing box aquarium water is supplied, which then with the help circulation pump is set in constant circulation. The mixing box can either be spatially from the aquarium be separated, d. H. outside the aquarium tank or be arranged within the aquarium. Is located the mixing box outside the aquarium, so is the water from the aquarium via a feed line with the help of a Controller fed into the mixing box and the cleaned Water through a drain and another pipe to the Aquarium released. When operating the mixing box inside of the aquarium tank, the water can pass through a passive one Inflow that is caused by the fact that the Water with the help of a built in the mixing box Circulation pump, for example via a bypass line preferably over the slightly above the aquarium edge of the mixing box lying in the water level - in the Aqua rienwasser is passed and one on the mixing box Preparing water from the aquarium is provided.  

The redox potential of the in the Mixing water located determined. The result of Measurement delivers due to the constant mixing of the Water an appropriate statement about the reaction ver Ratios anywhere in the mixing box. With help the measured value can control the redox potential in the medium will.

The mixing box becomes denitrifying for nitrate degradation Bacteria and an organic carbon source puts. The carbon source can biodegrade in shape buildable packing material in the mixing box. Therefor injection moldings are particularly advantageous use biodegradable plastic. By the order Rolling pump are then those of the degradable packing continuously released organic carbon compounds evenly distributed in the medium.

With the help of the measuring probe can now about the redox potential the state of the medium in terms of concentration organic carbon compounds, depending on the Bacterial density and the nitrate content of the water, be determined. Experience has shown that the critical Value for the redox potential above -50 mV and below -300 mV. A measured value above -50 mV means that there is too little organic carbon in the medium. This can lead to the nitrite formation already mentioned above Ren. Nitrite then forms as an incomplete product constantly reduced nitrate. Because the chemical reaction of converting nitrate to molecular nitrogen Reduction reaction is the result of a deficiency Reduction equivalents, such as. B. organic coals material compounds that the process is not completely off  runs, but remains at the nitrite level. This is what happens when there is a lack of organic carbon compounds in the medium for the formation of the toxic nitrite.

The overdosing of organic carbon also leads to a toxic breakdown product. At values below -300 mV the excess reduction potential leads to education of toxic hydrogen sulfide. Due to the constant measurement solution of the redox potential enables the invention ent speaking measures to maintain the desired tole range of the redox potential. Avoiding one Underdosing prepares because of the simple possibility addition of additional organic carbon connections usually not a problem. Is problematic on the other hand avoiding too high an or ganic carbon compounds. The invention strikes to avoid such an overdose that invented according to a decrease in the value of the redox potenti is found to be below -300 mV, the supply of Atmospheric oxygen via a provided in the mixing box Aerator in front, preferably in the lower area of the Mixing box opens. The supply of atmospheric oxygen leads in this way continued to increase the redox potential, whereby a Hydrogen sulfide formation is prevented.

A second possibility according to the invention for increasing the Redox potential is achieved by introducing an Oxidati onsmittel suggested. Any fixed or liquid oxidizing agents such as water fabric peroxide can be used. Another fiction appropriate possibility to increase the redox potential the increase in flow rate. This can be done at the  Mixing box provided inlet controller for controlling the Flow rate can be used.

It is particularly advantageous to use a measuring probe Control with the aerator and / or the flow control connection. This enables an automatic on hold a certain redox value. The increase in Flow rate has a higher nitrate concentration in the Mixing box result, which increases the redox potential leads.

In addition, the circulation pump with the control device for optimal coordination of the pump performance with the Flow rate and the oxygen supply are connected. To further increase the homogeneity of the medium can the circulation pump instead of the conventional impeller Have a pinwheel that breaks up clumps of bacteria and such for a better distribution of the bacteria in the medium leads.

To further improve the reaction conditions in the Mixing box and the optimal supply of the aquarium the invention proposes the necessary nutrients, Use calcium carbonate body in the mixing box. Of the CO₂-related low pH leads to the fact that from the used calcium carbonate calcium and bicarbonate ions to be released. On the one hand, this leads to the desired Increase in pH and on the other hand for supply the aquarium with calcium-containing, nitrate-free water. Thus, in addition to the advantages mentioned, is unnecessary Use of the device according to the invention or of the inventin the method according to the invention the otherwise required lime supply.

Using the accompanying drawings, in which a before zugtes embodiment of the invention direction is shown, this as well as its functi explained in detail below. In the Drawings show:

Fig. 1 shows a mixing box for operation outside of an aquarium; and

Fig. 2 is a mixing box for operation within an aquarium.

The milieu automat 1 shown consists essentially of a mixing box 2 , which receives the introduced aquarium water and degradable injection molding filler 3 with a large surface area and calcium carbonate body 4 . The packing consists of plastic. The mixing box sits on its top a cover 5 with a re dox probe 6 for measuring the redox potential of the medium in the mixing box, an aerator 7 for the supply of oxygen when the pressure falls below a critical rex value, a circulation pump 8 for mixing the medium to produce a homogeneous substance and bacteria distribution and an inlet 9 with a flow rate controller 15 for controlling the amount of water supplied by the aquarium. In the upper area of the mixing box there is a drain 13 to the aquarium. The water optimized for the environment reaches the aquarium through the drain. The redox probe 6 is connected via a display 11 to a controller 12 , to which in turn the aerator, the circulation pump and the flow regulator are connected. The arrows A, B, G, D symbolize the flow direction of the water from the aquarium via the inlet 9 through the mixing box 2 and from the mixing box through the outlet 13 .

The nitrate-containing aquarium water reaches the mixing box 2 via the inlet 9 with the regulator 15 . The flow rate depends on the amount specified by the control. The medium in the mixing box is regularly circulated by the circulating pump 8 , which is also connected to the control 12 , and thus is flushed past the degradable packing elements. This leads to a great homogeneity of the medium, which increases the accuracy of the measurement results of the redox probe 6 . In addition, the needle wheel of the circulating pump 8 prevents the bacteria from clumping together, so that they are evenly distributed in the mixing box.

In Fig. 2 an automatic milieu is shown, which is located within the aquarium (not shown). Since the mixing box 2 has an inlet 109 and an outlet 113 with a controller 115 . The drain 113 is connected to a junction of the outlet of the circulation pump 8 . Through the operation of the circulation pump 8 , a regulatable amount of water from the mixing box 2 is pressed over the edge into the aquarium. This results in a passive inflow from the aquarium via the inlet 109 into the mixing box 2 . In this way, the water exchange between the mixing box and the aquarium can be carried out without an additional pump and still be precisely regulated.

If the redox potential falls below the value of, for example, -300 mV, this value is measured by the probe 6 and passed on to the controller 12 , which in turn switches on the aerator 7 . The aerator 7 then supplies oxygen to the medium via an aeration tube 14 . Since the redox potential of the medium increases to a preselected value, which causes the aerator 7 to be switched off via the measuring probe 6 in conjunction with the controller 12 .

The CO₂ released as a result of the denitrification reaction by the implementation of the organic carbon compound results in a lowering of the pH value, which leads to a release of calcium and bicarbonate ions in the calcium carbonate bodies 4 used. This affects buffering of the vending machine environment as well as supplying the aquarium with calcium.

Overall, the milieu automat according to the invention offers opti male conditions for reprocessing with the consequence improving water quality from both fresh as well as seawater biotopes.

Claims (14)

1. Device for regulating and improving the water quality, especially with aquarium water

• - a mixing box ( 2 )
• - A circulation pump ( 8 ) and
• - A measuring probe ( 6 ).

2. Device according to claim 1, characterized by egg NEN aerator ( 7 ). 3. Apparatus according to claim 1 or 2, characterized in that the aerator has a vent pipe ( 14 ) opening into the lower region of the mixing box. 4. Apparatus according to claim 1 to 3, characterized by a flow controller ( 15 , 115 ). 5. Device according to one of claims 1 to 4, characterized by a ventilation control ( 12 ). 6. Device according to one of claims 1 to 5, characterized marked by a flow controller ( 12 ). 7. Device according to one of claims 1 to 6, characterized in that the mixing box ( 2 ) with biodegradable packing ( 3 ) is equipped. 8. Device according to one of claims 1 to 7, characterized in that the packing ( 3 ) made of organic cal material with plastic-like properties, for example made of polyhydroxybutyrate (PHB). 9. Apparatus according to claim 7 or 8, characterized in that the packing ( 3 ) are made by injection molding technology with a large surface volume ratio. 10. The device according to claim 7 or 8, characterized in that the packing ( 3 ) are made by extrusion and optionally length-cutting with a large surface area to volume ratio. 11. The device according to one or more of claims 7 to 10, characterized in that the packing ( 3 ) nutrients (z. B. Vitamins and / or organic acids) both for the bacteria and for the organisms in the aquarium and / or Trace elements (e.g. iron, molybdenum and / or strontium) are added. 12. The device according to one of claims 1 to 11, characterized in that the circulation pump ( 8 ) has a Na delrad. 13. Device according to one of claims 1 to 12, characterized in that the mixing box ( 2 ) with kalzi-delivering bodies ( 4 ) is equipped. 14. Methods for regulating and improving water quality, especially the water of aquariums, characterized in that the redox potential of Water and measured by a) ventilation and / or b)  Increasing the flow rate and / or c) adding Oxidizing agents is regulated.