SU1081467A1 - Device for measuring biochemical oxygen consumption - Google Patents

Abstract

A DEVICE FOR MEASURING THE BIOCHEMICAL CONSUMPTION OF OXYGEN, containing a vessel equipped with a carbon dioxide absorber for the substance under study, an electrolyzer connected to one other by the oxygen outlet, another to this vessel, and another to the atmosphere, damping vessel, one pipe to the other, another to the atmosphere, damping a vessel, one pipe of which is connected to another, another to the atmosphere, damping vessel, one pipe of which is connected to the atmosphere, the other to the atmosphere, damping vessel, one pipe of which is connected to the atmosphere, the other to the atmosphere, damping vessel, one pipe of which is connected to the atmosphere, the other to the atmosphere, damping vessel, one pipe to the atmosphere, another to another, another to the atmosphere. a vessel that is connected to a research vessel through a differential pressure gauge, characterized in that, in order to increase the measurement accuracy, the compensation vessel vnde Ks1mery configured in a variable volume, and the electrolytic compound to the manifolds and the damping of the vessel to the atmosphere is connected via a locking device the device for varying the pressure in the nozzles.

Description

The invention relates to agricultural instrumentation and can be used in agriculture, the food industry and analytical chemistry.

A device for measuring biochemical oxygen consumption is known, consisting of a measuring vessel with a carbon dioxide absorber, an electrolytic cell, a manometer, and a compensation vessel of constant volume Cl.

However, this device does not have sufficient accuracy.

The closest to the technical essence of the invention is a device for measuring biochemical oxygen consumption, containing a vessel for a test substance supplied with a carbon dioxide absorber, an electrolyzer connected with an oxygen outlet nozzle with this vessel, and a second nozzle with atmosphere, a damping vessel one of which is connected with the atmosphere, and the other with the compensation vessel, which is connected to the vessel for the investigated substance through the differential pressure gauge C2J.

However, the known device has a low accuracy in measuring the respiration of substances of unknown volume, such as grain or plants, due to the influence of atmospheric pressure and its change with the inequality of the gas phases in the compensation and measurement, vessels.

The purpose of the invention is to increase the measurement accuracy.

The goal is achieved by the fact that in a device for measuring biochemical oxygen consumption, containing a vessel dp of a test substance supplied with a carbon dioxide absorber, an electrolyzer connected with one oxygen outlet pipe to this vessel, and another atmospheric pipe, a damping vessel, one pipe of which is connected to the atmosphere and the other with the compensation vessel, which is connected to the vessel for the investigated voestry through the differential pressure gauge, the compensation vessel. ennogo volume, and the compound to the manifolds and the cell dempfirukschego vessel to atmosphere is connected via a locking device the device for varying the pressure in the nozzles.

The electrolyzer and sump damping are connected via a three-way valve, when measured, to the atmosphere, and, when adjusted, to a device for smooth pressure variation in nozzles within certain limits relative to atmospheric pressure. The change in the free volume of the compensation vessel is ensured by changing the amount of inert liquid in it, a chamber of variable volume is obtained, and the device for changing the pressure in the nozzles during the adjustment process is made in the form of a rubber bulb.

The drawing shows the proposed device, a common Vice.

A device for measuring biochemical oxygen consumption contains a measuring vessel 2 for test substance 3 supplied with an absorber 1 of carbon dioxide, an electrolyzer 4 connected by the oxygen outlet nozzle 5 with this vessel, and a second nozzle b with the atmosphere, a damping vessel 7, one nozzle 8 of which is connected to the atmosphere, and the other 9 - with a compensation vessel 10, which is connected to vessel 2 for the test substance through a differential pressure gauge 11. The compensation vessel 10 is made in the form of a variable volume chamber, and through the shut-off device 12, the device 13 for changing the pressure in the pipes b and 8 is connected to the pipes 6 and 8 of the connection of the electrolyzer and the damping vessel with atmosphere. The compensation vessel is equipped with a pressure vessel 14 and a valve 15. The volume change in the compensation vessel the construction of its variable volume chamber is carried out by filling it with the required amount with an inert liquid 16. The damping vessel 7 is shaped in the same way as the electrolyzer 4.

The compensation 10 and measuring 2 vessels can be connected to the atmosphere with cranes 17. In turn, the nozzles b and 8 of the electrolyzer and the damping vessel are connected through a three-way valve 12 of the locking device or with the atmosphere or with the device 13 to change the pressure in the form of a rubber bulb. The electrolyzer is powered and controlled by the device 18 by signals from the sensor 19 of the position 20 of the differential pressure gauge 11. The counter 21 of the oxygen supplied by the electrolyzer is turned on by the command of the device 18. All elements of the device, except for the electrical circuit, are in the thermostat.

A device for measuring biochemical oxygen consumption works in the following way.

Test vessel 3 is placed in measuring vessel 2 with carbon dioxide absorber 1, and inert liquid 16 is poured into compensation vessel 10, which is the same in volume as measuring vessel 2, approximately equal to the volume of the test

substances 3 with an absorber volume 1. Close the taps 17, and a three-way valve 12 connects the electrolyzer and the damping vessel with a rubber bulb 13, gently squeezing the pear 13, following the reading of the pressure gauge I. In the vessel where the volume of the gas phase is less, the outflow pressure . For example, if the pressure is higher in the compensation vessel, then liquid is poured from it when using the crane 15 and vessel 14, if it is lower than the measuring vessel, then the volume is filled up, and the volume of the liquid 16 is changed with the valves 17 open. until the pressure change created by the rubber bulb ceases to influence the readings of the differential pressure gauge. Crane 12 soob- spraying the electrolyzer and the damping vessel with the atmosphere, and this completes the tuning process. By means of the device 18, the device is switched on to the measurement mode. When the test substance absorbs a certain amount of oxygen in the vessel 2, the sensor 19 is triggered, the device 18, the cell 18, the electrolyzer and the meter 21 are turned on until the oxygen selected in the cell balances the pressure. The counter registers the amount of oxygen released by the electrolyzer and, therefore, absorbed by the test substance.

The proposed device, as compared with the previously unknown volumes known in the study (for example, grain, plants), has a greater accuracy due to a decrease (by the order) of the effect of changes in atmospheric pressure on the readings of the instrument. .

The device makes it possible to find Q in a short time and with high accuracy the optimal modes required in agricultural practice and technology of the food industry.

Claims (1)

DEVICE FOR MEASURING THE BIOCHEMICAL CONSUMPTION OF OXYGEN, containing an absorbent equipped with a carbon dioxide analyzer, an electrolyzer connected by one outlet pipe of oxygen to this vessel, and the other pipe to the atmosphere, a damping vessel, one pipe of which is connected to the atmosphere, and the other, with a compensation * which is connected to the vessel for the test substance through a differential pressure gauge, characterized in that, in order to increase the accuracy of measurements, the compensation vessel is made in the form of a camera variable volume, and to the nozzles the connection of the electrolyzer and the damping vessel with the atmosphere is connected through a shut-off device (in the device, a device for changing the pressure in the nozzles). gas vessel for Οι to 4 * od