RU74480U1 - DEVICE FOR DETERMINING THE DEGREE OF ODOR - Google Patents

Abstract

A device for determining the degree of smell belongs to the field of analytical chemistry and is carried out by more accurately determining the concentration of the organic substances that make up the smell by measuring the chemical consumption of oxygen used to burn organic substances in the analyzed sample.

The device contains a sampling and injection unit, a combustion chamber, an oxygen sensor with a recorder and a flow inducer with a flow meter.

New in the device is that the device for sampling and introducing the sample is made in the form of a sorbent element connected with a mechanism for moving it into the combustion chamber, and an inert gas source with oxygen is connected at the entrance to the combustion chamber.

An option is a device that is equipped with a sorption chamber with a connected flow rate driver supplying the analyzed air to the sorption chamber, while the sorption element is provided with the ability to move it from the sorption chamber to the combustion chamber according to a given heating gradient, for example, linear or stepwise, and inside the sorption element or a temperature sensor is placed above its surface.

An option is a device in which the sorbent element is made porous.

An option is a device in which the sorbent element is made of activated carbon.

An option is a device in which the sorbent element is made of silica gel.

Description

Technical field

A device for determining the degree of smell belongs to the field of analytical chemistry and is carried out by more accurately determining the concentration of the organic substances that make up the smell by measuring the chemical consumption of oxygen (PC) used to burn organic substances in the analyzed sample at different temperatures.

State of the art

The smell is characterized by the presence of odorous substances in the air and, as a rule, organic. Therefore, the degree of smell can be determined by the concentration of these substances in the air.

Closest to the claimed object is a device for determining the amount of organic impurities in an aqueous medium [1]. This device is based on the determination of COD and contains a spoon on the rod (sampling and injection unit), a combustion chamber with a heater, an oxygen sensor with a recorder and a flow inducer with a flow meter.

Disclosure of Entity

The patented device for determining the degree of odor also contains a sampling and input unit, a combustion chamber, an oxygen sensor with a recorder and a flow inducer with a flow meter.

New in the device is that the device for sampling and introducing the sample is made in the form of a sorbing element associated with the movement mechanism, and at the entrance to the combustion chamber a source of inert gas with oxygen is connected.

An option is a device that is equipped with a sorption chamber, to which a flow inducer is connected, supplying the analyzed air to the sorption chamber, the sorption element is provided with the ability to move it from the sorption chamber to the combustion chamber according to a given heating gradient, for example, linear or stepwise, and inside the sorption element or a temperature sensor is placed above its surface.

An option is a device in which the sorbent element is made porous.

An option is a device in which the sorbent element is made of activated carbon.

An option is a device in which the sorbent element is made of silica gel.

Description of the drawing

Figure 1 shows a diagram of an odor device.

The device comprises a sampling and injection unit 1 with a moving mechanism 2 and a sorbing element 3, a combustion chamber 4 with a heater 5 and a catalyst 6 connected to a sequentially located oxygen sensor 7, a flow inducer 8 and a flow meter 9. The results of measuring the oxygen content are recorded on the recorder 10 The diagram also shows a source of inert gas with oxygen 11 and a stimulator of the flow rate of the analyzed air 12.

The sorbent element 3 is made in the form of a porous body attached to the movement mechanism 2. The oxygen sensor 7 is a ceramic sensor. The inert gas source with oxygen 11 is made in the form of an oxygen-dosing solid electrolyte cell operating in the pump mode and supplying oxygen to the inert gas [2].

Device operation

The sorbent element 3 is placed in the analyzed air and can withstand a certain time. Then they slide it into the combustion chamber 4, where, with the help of the heater 5, the temperature necessary for burning the organic substances of the odor is set. Into the combustion chamber 4, a flow inducer 9 continuously draws a mixture of inert gas with oxygen and passes it through an oxygen sensor 7. The measured oxygen concentration in the mixture is recorded in the recorder 10 in a straight line.

When the sorbing element 3 is introduced into the combustion chamber 4, organic substances are burned and consume part of the oxygen from the mixture stream, which is recorded on the recorder 10 in the form of a short-term dip in a straight line. By the parameters of the failure (peak) - height, width or area, the amount of oxygen consumed is judged, which means the amount of oxygen burned

organic matter i.e. about the degree of smell in the analyzed air.

Technical result

The technical result of the patented device is to increase the accuracy of determining odor by using a ceramic sensor in an oxygen sensor, which allows with increased accuracy, as in the prototype, to determine the PC during the combustion of organic substances in the sample.

Calibration of the device using known standards can further improve the accuracy of determination.

Literature

1. RF patent N 2073238, IPC 7 G01N 27/46, 1997.

2. Journal of analytical chemistry. 2004, vol. 59, No. 2, p. 185-189.

Claims (5)

1. A device for determining the degree of smell, containing a site for sampling and introducing a sample, a combustion chamber, an oxygen sensor with a recorder and a flow inducer with a flow meter, characterized in that the sampling and introducing device is made in the form of a sorbing element associated with a mechanism for moving into the combustion chamber and at the entrance to the combustion chamber a source of inert gas with oxygen is connected. 2. The device according to claim 1, characterized in that it is equipped with a sorption chamber, to which a flow inducer is connected, supplying the analyzed air to the chamber, and the sorption element is provided with the ability to move it from the sorption chamber to the combustion chamber according to a given heating gradient, for example, linear or stepwise, and inside the sorption element or above its surface there is a thermal sensor. 3. The device according to claim 1, characterized in that the sorbent element is made porous. 4. The device according to claim 3, characterized in that the sorbent element is made of activated carbon. 5. The device according to claim 3, characterized in that the sorbent element is made of silica gel.