DE3843679A1 - Process for water treatment - Google Patents

Abstract

In a process for water treatment, the amount of hydrogen peroxide required for the oxidation of impurities is preferably continuously added to the water to be treated, depending on conductivity and/or turbidity measurements, the mixture is passed through a reactor in which it is exposed to ultraviolet radiation in the wavelength range from 200 to 400 nm and, if necessary, a conventional secondary purification follows.

Description

The invention relates to a method for water supply preparation by treating the if necessary mechanically pre-cleaned water with a Oxidizing agent.

It is known to use chemical oxidizing agents such as hydrogen peroxide or in particular ozone for the purification of waste water. Here, some of the water's organic constituents are broken down to the level of carbon dioxide. Because of the low oxidation potential of 0.68 V for H ₂ O ₂ , this is unsuitable as the sole agent for water treatment, especially when halogenated carbons are present in the water as impurities.

It has now been found that one can be a good one Purification of water, especially with halogenated Is contaminated by a hydrocarbon Combination of chemical treatment with hydrogen peroxide and ultraviolet radiation can.

The method for water treatment according to the invention by treating the optionally mechanically pre-cleaned Water with an oxidizing agent is characterized that the water to be treated with that for oxidation amount of water required from contaminants added peroxide, the mixture through a reactor conducts in which there is an ultraviolet radiation in the Wavelength range from 200 to 400 nm is exposed and,  if necessary, a normal post-cleaning connects.

As has been found, the dosage may be required Amount of hydrogen peroxide by a microprocessor take place depending on the measured values chemical oxygen demand (COD) is controlled. For this purpose, there is, for example, an upstream or downstream one Potentiometric oxygen electrode suitable.

In addition, the pre- or post-cleaning can be carried out mechanical filters, centrifugation, etc. as required a continuous conductivity and / or Turbidity measurement done.

Irradiation with ultraviolet light can preferably different wavelengths in the same Reactor or in several interconnected Reactors take place.

As found, it should preferably be at least a low-pressure mercury lamp in the wavelength range from 250 to 260 nm and at least one High-pressure mercury lamp in the wavelength range from 200 to 600 nm can be used. Preferably are self-cleaning lamps that are arranged in bundles and from the hydrogen-containing, flows around the water to be treated in a thin layer will.

The exact reactor size and the number and power the ultraviolet emitter depends on the type of  water to be treated and its contamination hold off.

If necessary, a further supply of Chemicals are made, the type of which also Contamination depends. So chemical Precipitating agents for phosphates, such as iron chloride, before or after treatment with UV light and Hydrogen peroxide metered in and separated off again will.

Further processing measures known per se can be connected upstream or connected to the process will.

The method according to the invention permits a gentle one Water treatment, e.g. B. for drinking water using modern microprocessor technology continuously can be managed and controlled.

The drawing is an example of one Water treatment, the water being oxidizable Contains substances and halogenated hydrocarbons.

It is controlled via conductivity (LF) measurement and oxygen electrodes (O ₂ probes), hydrogen peroxide (commercially available, 3%) is entered by the metering pump M and the mixture is exposed to UV radiation in the range of 200-600 nm in a preferably mirrored reactor . The conductivity, COD value and turbidity are then measured for return to the microprocessor.

Claims (4)

1. Process for water treatment by treating the optionally mechanically pre-cleaned water with an oxidizing agent, characterized in that the water to be treated is mixed with the amount of hydrogen peroxide required for the oxidation of impurities, the mixture is passed through a reactor in which it is exposed to ultraviolet radiation in the Wavelength range of 200 to 400 nm is exposed and, if necessary, subsequent cleaning. 2. The method according to claim 1, characterized characterized in that hydrogen peroxide according to the measured chemical Oxygen demand continuously metered. 3. The method according to claim 1 to 2, characterized characterized that the pre or subsequent cleaning in accordance with continuous Conductivity and / or turbidity measurements carries out. 4. The method according to claim 1 to 3, characterized characterized that you have a reactor used at least one low pressure mercury lamp in the wavelength range from 250 to 260 nm and at least one high pressure mercury lamp in the waves contains a length range of 200 or 600 nm.