UA149599U - SYSTEM FOR DIAGNOSIS OF IRRITANT GASES O ₃ AND C ₂ H ₅ ON ON THE BASIS OF NANOSTRUCTURAL SENSORS AgNO ₄ sub> 3 </sub> O ₄ - Google Patents

Abstract

The system for diagnostics of irritating gases O3 and C2H5OH, consisting of the basis for placement of sensors, according to the utility model additionally contains combinations of gas nanostructured sensors AgNO4 and Co3O4 to determine the qualitative and quantitative characteristics of irritating gases O3 and C2H5OH, microplate and controller.

Description

The useful model belongs to the field of nanotechnology and can be used for the purpose of identification of irritating gases Oz and SaN»OH in the environment, in production facilities of heavy and chemical industry, in factories, warehouses, places of disposal or storage of production waste, etc.

As the closest analogue, a device consisting of a base and one resistive gas sensor ERegOz was chosen, which can detect only one type of gas and is located on the surface of the fixation plate (1-5|.

The disadvantage of the known device is the determination of indicators of only one type of gas, as well as the dependence of the accuracy of determining the quantity and quality of gas on only one type of EEG sensor with the same response time, recovery time, and operating temperature. When determining gas indicators, we are forced to rely only on the reliability of one type of sensor, without the possibility of comparing the data obtained with other sensors. The inability to carry out mutual control and comparative analysis of gas detection between two or more types of gas resistive sensors negatively affects the accuracy of the measurement and the reliability of the results obtained.

The useful model is based on the task of identifying irritating gases Oz and SenH5OnH in the environment.

The task is solved by the following device, which consists of a metal base on which there are AdMO: and SozO4 gas sensors for determining the qualitative and quantitative characteristics of the irritating gases Oz and С2Н5ОН, a micro-board and a controller.

Ozone (Oz), irritating, toxic gas. Leads to the formation of insoluble forms of cholesterol, destroys male reproductive cells. It has antiviral, bactericidal and fungicidal effects (due to strong oxidizing properties). Applications - sterilization and disinfection, as well as oil purification, paper bleaching, etc. Ethanol SeH5OHn, an irritant, irritates the mucous membranes, affects the upper respiratory tract.

Gas sensors АЗдМО" and СозО4 are located on the outer surface of the metal base from opposite sides. The physical principle underlying the operation of the sensors is the change in the resistance of the sensor caused by the adsorption of gas on its surface. Accordingly, sensors of the resistive type are characterized by the value of the response, which is defined as the ratio of the change in resistance as a result

From gas adsorption to the resistance value of the sensor in air. Among known gas sensors, sensors based on semiconducting metal oxides (ZMO-5etisopaisiogtheia! okhidez5) are distinguished by the fact that, with relative simplicity of implementation, they provide a set of characteristics that make them suitable for detecting various gases in a sufficiently wide range of external conditions. The advantages of such sensors include, in particular: high sensitivity, fast response, short recovery time, a large number of gases that can be detected, a low detection limit (1 rt), reliability, compactness, ease of production and low cost. Applications of 5MO sensors include environmental monitoring, chemical industry, transport, medicine and agriculture (1-5).

The device is used as follows: the metal base (with sensors of both types on it) is placed in places where we need to obtain data on the determination of Oz and С2гН5Он gases.

Gas sensors AYAMO»x and SozO4 are located on a metal base opposite each other in order to prevent negative influence on each other and for greater accuracy in determining the qualitative and quantitative characteristics of the irritating gases Oz and SgH5OH. In turn, the micro-board and the controller provide fixation, processing and transmission of the data received from the sensors.

So, the proposed system for the diagnosis of irritating gases Oz and С2Н5»ОН based on nanostructured sensors АаМО» and СозО4 has a number of significant advantages, namely: the use of two types of different (chemically heterogeneous) gas sensors allows to significantly increase the accuracy and, accordingly, the efficiency of measuring the concentration of the gases under study . The system makes it possible not only to effectively evaluate the parameters of the studied gases, but also to determine the quality of the sensors, independently of each other.

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Ligapress. 2. Hip 2poy, bopdui Gaye, 7paosnao Khy apa Uuiusypd Moop (2015) "Nesepi Rgodge55 op She

YuOeeemeIortepi oi Spetozepvogz yTog Savzev", Spetisa! Nemiemuv, my. 115, pp. 7944-8000.

Z. I-Ooo Kit, Roinzepia A. apa TiPeg N. G. (2013) "Admapsez apa pemu adigesiopz5 ip daz-zepvipd demise5", Asia Mai., my. 51, pp. 974-1000. 4. Mi-Bepd B!cp, Zpao-Wo Pi, Rap-G and Mepo, Up-mMyp Hz, 2pep ip, Hipa-Tao Kopd apa Lip-Nyai

Shi (2012) "Mega! Ohide Mapovigisitsge5 apa TNeig Sav5 bepvipd Rgorepiev: A Nemiem", Zepvogv, my. 60 12, pp. 2610-2631.

5. pu 2papo, digap Ni, Repud 50p9, Nopodmueyi Oip, Kapu Ap, Hipddopud UUapd apa Mipptsa diapd

(2006).

Asitsayugz, my. 119, year 315-

Claims (1)

USEFUL MODEL FORMULA A system for diagnostics of irritating gases Oz and C2H5»OH, consisting of a base for placing sensors, which is distinguished by the fact that it additionally contains combinations of gas nanostructured sensors АЗ9МО» and СозО4 for determining the qualitative and quantitative characteristics of irritating gases Oz and СаН5ОН, a micro-board and a controller .