SU1752757A1 - Oxygen consumption rate test installation - Google Patents

Abstract

Use: Determination of the degree of biological wastewater treatment. Invention: The installation includes a tank with a tapering neck, the aeration unit is made in the form of an airlift circulation system that includes an air-separation tank located above the neck of the measuring tank, and a compressor with a control unit, sensor, signal converter and recorder. 1 il.

Description

The invention relates to the field of biological wastewater treatment, in particular, to a method for automatically determining the biochemical characteristics of activated sludge, and can be used to study the conditions for the cultivation of activated sludge and other microbiological cultures.

The closest in technical essence and the achieved result to the proposed is an installation for measuring the rate of oxygen consumption by active sludge, including a measuring tank, inside which a mixing device, a sensor for determining dissolved oxygen, a compressor with a control unit, a chart recorder and a converter are located. .

The disadvantages of the known installation are the measurement error caused by the presence of a water-air interface, through which, due to mixing, an uncontrolled amount of oxygen enters, a change in the average oxygen concentration during the course of the experiment, which affects the determined value. Listed

flaws cause systematic measurement errors.

The aim of the invention is to extend the measurement range of the degree of pollution of wastewater by reducing the systematic measurement error.

The goal is achieved by those. that in the installation for determining the rate of oxygen consumption, including a tank with a narrowing neck, aeration unit, a compressor with a control unit, a sensor for determining the concentration of dissolved oxygen, a signal converter and a recorder, the aeration unit is made in the form of an air-lift circulation system, air separation tank is located above the neck of the tank.

The proposed installation, in comparison with the known, will eliminate the systematic error by eliminating the water-air interface in the mixing zone and stabilize the oxygen concentration interval in which the measurement is performed.

By stabilizing the range of concentration of dissolved oxygen, it is possible to establish the effect of the concentration of dissolved oxygen on the respiration rate.

The drawing shows an installation for determining the rate of oxygen consumption.

The installation consists of a measuring tank 1 with a narrowing throat, an air separation tank 2, an air-lift system 3, which is operated by a compressor 4. A mixing device 5 and a sensor 6 for determining the concentration of dissolved oxygen connected to the cover of measuring tank 1 a signal converter 7, which in turn is connected to a recorder 8 and a control unit 9, which controls the operation of the compressor 4.

The device works as follows.

With the stirring device 5 turned on and the compressor 4 turned off, the tank 1 is filled with a mixture of active sludge and the original substrate, after which the compressor 4 is turned on. When the upper set concentration of dissolved oxygen, measured by sensor 6 to determine the concentration of dissolved oxygen, is reached, control unit 9 turns off The silt mixture located in the air separation tank 2 and in the airlift part protruding above the level of the measuring tank 1 is discharged into the measuring tank 1, the air is displaced from it spirit and ensure the absence of a water-air interface in the active mixing zone. Due to oxygen consumption by active sludge, the oxygen concentration in measuring tank 1 drops to a lower predetermined level, after which control unit 9 switches on compressor 4. This cycle of operations repeats during the whole experiment, and the curve of saturation and decrease in oxygen concentration is recorded on a chart recorder 8.

Thus, in comparison with the known, the proposed installation will eliminate the systematic measurement error and more efficiently use a complex and expensive control scheme.

Claims (1)

Invention Formula An installation for determining the rate of oxygen consumption by microorganisms, including a tank with a tapering neck, an aeration unit, a compressor with a control unit, a sensor for determining the concentration of dissolved oxygen, a signal converter, and a recorder, characterized in that, with the aim of extending the pollution measurement range by reducing systematic measurement error; the aeration unit is made in the form of an airlift circulation system including an air-separating tank, the air-separating tank being located above container necks.