DE29723344U1 - Device for dosing aqueous solutions containing hydrogen peroxide - Google Patents

Description

D43G2

- &igr; - KEIL&SCHAAFHAUSEN

PATENT ATTORNEYS

Description:

The invention relates to a device for dosing aqueous solutions containing hydrogen peroxide (active oxygen), in particular for water treatment (disinfection, prevention of algae, etc.) in swimming pools.

For several years now, the chlorine that has been used predominantly to disinfect and prevent algae in swimming pool water has been increasingly replaced by products containing hydrogen peroxide (active oxygen). These products are either added to the swimming pool water manually or via dosing pumps, which in turn are activated by time-controlled control devices. Although a certain degree of automation is achieved, there is no automatic control of the hydrogen peroxide content in relation to the concentration of the product in the water. The disadvantage of this time-controlled dosing is that the subsequent dosing is not based on consumption and this can sometimes lead to significant overdosing or underdosing. In the case of overdosing, there is a risk that aerosols with higher proportions of hydrogen peroxide can form, particularly in countercurrent swimming systems, which can lead to respiratory irritation. Concentrations that are too low do not ensure disinfection in the water and algae form to an increased extent.

0 All previous attempts to create electrochemical measuring methods that enable automatic measurement and control of hydrogen peroxide have not led to the desired results.

25.05.98

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&lgr;* * · _ 2 KEIL & SCHAAFHAUSEN
PATENT ATTORNEYS

The attempt to carry out a measurement and control based on the redox voltage failed, although such a measuring method is already used in swimming pools for oxidizing agents such as chlorine, chlorine dioxide and ozone, where an increasing content in the water causes an increasing redox voltage. It is known that a redox voltage of the order of magnitude above 700 mV ensures rapid germ killing and thus sufficient disinfection of the swimming pool water. However, this measuring method cannot be used for water treated with hydrogen peroxide, as the redox voltage does not change when hydrogen peroxide is added. Increasing concentrations are therefore not recorded via the redox voltage and do not generate a signal that can be used for control.

An amperometric measurement, as is known for chlorine, chlorine dioxide, ozone, etc., is also not possible with active oxygen. An amperometric measurement also records the electrical conductivity of the water, the oxygen content, the changing pH value and a number of other parameters, including the oxygen released by hydrogen peroxide, without hydrogen peroxide as an individual parameter leading to a selective measurement signal.

5 The object of the present invention is therefore to develop a device (measuring method) which enables a reliable measurement of the H ₂ O ₂ content in aqueous solutions, in particular in a concentration range between 1 and approx. 500 ppm, and a further use of the measuring signal for the automatic 0 dosing of aqueous solutions containing hydrogen peroxide

enabled.

This object is achieved according to the invention in that the device has a measuring and control device with a measuring cell designed as a flow fitting or the like for

25.05.98

- 3 - KEIL&SCHAAFHAUSEN

patent attorneys

Generation of a measurement signal and a reference signal, a control system for evaluating and further processing the measurement signal, a dosing device with a drive device for conveying the dosing medium (hydrogen peroxide-containing aqueous solution) and a storage container for the dosing medium, that a 3-electrode system is formed in the measuring cell for generating a concentration-proportional electrical measurement signal and an electrical reference signal, that the 3-electrode system consists of a measuring electrode, a reference electrode and a counter electrode, that the measuring electrode is a platinum electrode with a negative reference voltage, that the reference electrode is a silver or silver chloride electrode and that the counter electrode is a stainless steel, nickel or titanium electrode.

According to the invention, the active oxygen content is recorded as an electrical signal proportional to the concentration using a potentiostatic measuring method and is then used in a control system as a control variable for (re-)dosing.

0 Only the special selection of the electrodes of the 3-electrode system enables a reproducible measurement even at increasing concentrations (over 30 mg/1). Titanium has proven to be a particularly unproblematic material for the counter electrode.

The device according to the invention has proven to be extremely reliable, particularly in measurements of aqueous solutions containing hydrogen peroxide in a concentration range between 1 and approximately 500 ppm.

According to a further embodiment of the invention, it is provided that the microprocessor-controlled control system keeps the reference signal constant and the measuring signal for the dosage of the hydrogen peroxide-containing aqueous solution (active oxygen) is continuously compared with the reference signal

25.05.98

_ 4 - KEIL&SCHAAFHAUSEN

PATENT ATTORNEYS

This makes the electrical measurement signal the control variable for the subsequent dosing.

The device according to the invention also delivers a defined concentration-proportional electrical signal if organic and/or inorganic biocides and/or silver and/or organic peroxides are added to the aqueous solution of hydrogen peroxide to improve and/or accelerate the effect. 10

Further features, advantages and possible applications of the invention emerge from the following description of an embodiment and the drawing.

The single figure shows in a block diagram the schematic structure of a device according to the invention for dosing aqueous solutions containing hydrogen peroxide.

The device consists of a measuring and control device 0 with a measuring cell 1 designed as a flow fitting, which contains an inlet for a measuring water supply 2 and an outlet for a measuring water return 3. The measuring cell 1 has a 3-electrode system (not shown). The electrical measuring signal generated between a measuring electrode and a counter electrode of the electrode system is fed to a control system 5 via a line 4, as is the reference signal generated between a reference electrode and the counter electrode. In the control system 5, the measuring signal and the reference signal are evaluated and processed to control a dosing device 6. This control signal is fed from the control system 5 to the dosing device 6 via an electrical line 7. In the dosing device 6, a synchronous gear motor (not shown) is arranged as a drive device for conveying the dosing medium, i.e. the aqueous solution containing hydrogen peroxide.

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- 5 - KEIL&SCHAAFHAUSEN

PATENT ATTORNEYS

If the evaluation of the measurement signal shows that additional dosing of the hydrogen peroxide-containing aqueous solution is necessary, the synchronous gear motor sucks the dosing medium from a storage container 9 into the pipe system of the swimming pool or similar via a pipe 8. This is shown schematically in the form of a supply line 10 to the pipe system.

The measuring electrode provided in the measuring cell 1 is a platinum electrode with a negative reference voltage. The counter electrode is a titanium electrode. However, a stainless steel or nickel electrode can also be used. For the reference electrode for determining the reference signal, silver or silver chloride has proven to be particularly advantageous as an electrode material.

This electrode combination enables monitoring of the active oxygen content in a concentration range between 1 and 500 ppm. Permanent monitoring of the water quality is particularly easy if the reference signal is kept constant using the control system's computer program and only the changes in the measurement signal are used to control the dosage of the active oxygen content. If the active oxygen content in the water is in line with the target value, no dosage is carried out and the synchronous gear motor stops. If the active oxygen content in the water falls below a specified value, the control system 5 switches on the synchronous gear motor of the dosing station 6 until the required dosage amount from the dosing container 9 is added to the water via the supply line 10.

To improve and/or accelerate the effect, additives in the form of organic and/or inorganic biocides, as well as silver and/or organic peroxides, can be added to the aqueous solution containing hydrogen peroxide.

25.05.98

Claims (1)

_ 6 - KEIL&SCHAAFHAUSEN PATENTS ATTORNEYS Protection claims: 1. Device for dosing aqueous solutions containing hydrogen peroxide (active oxygen), in particular for water treatment (disinfection, algae prevention, etc.) in swimming pools, characterized in that the device has a measuring and control device with a measuring cell (1) designed as a flow-through fitting or the like for generating a measuring signal and a reference signal, a control system (5) for evaluating and further processing the measuring signal, a dosing device (6) with a drive device for conveying the dosing medium (active oxygen) and a storage container (9) for the dosing medium, that a 3-electrode system for generating a concentration-proportional electrical measuring signal and an electrical reference signal is designed in the measuring cell (1), that the 3-electrode system consists of a measuring electrode, a reference electrode and a counter electrode, that the measuring electrode 0 is a platinum electrode with a negative reference voltage, that the reference electrode is a silver or silver chloride electrode and that the counter electrode is a stainless steel, nickel or titanium electrode. 2. Device according to claim 1, characterized in that the measuring range of the measuring device covers a concentration range between 1 and approximately 500 ppm hydrogen peroxide. 3. Device according to claim 1, characterized in that the microprocessor-controlled control system (5) keeps the reference signal constant and continuously compares the measuring signal for the dosage of the hydrogen peroxide-containing aqueous solution (active oxygen) with the reference signal. 25.05.98