CATALYST FOR SELECTIVE METHANE SENSOR
Abstract
The work shows the possibility of using 0.75In2O3-0.25 Ag2O and 0.25Fe3O4-0.75 Ni2O3 as a catalyst for a measuring and comparative sensitive element in the manufacture of a selective catalytic sensor for the determination of methane and natural gas in the presence of hydrogen and carbon monoxide, which are often encountered with natural gas, in the atmospheric air of mines, process gases, vehicle exhaust gases, etc.
References
2. Abdurahmanov E., Daminov G.N., Sultanov M.M., Tillajev S.U. Obespechenie selektivnosti termokataliticheskogo sensora komponentov vyhlopnyh gazov //Ekologicheskie sistemy i pribory. Moskva. 2008. №5. S.30-32.
3. Abdurahmanov E., Murodova Z. i dr. Katalizator dlya glubokogo okisleniya etanola // Zhurn. Him. Promyshlennost. 2011. № 3. C.67-74.
4. Golinko V.I., Kotlyarov A.K., Belonozhko V.V. Kontrol vzryvoopasnosti gornyh vyrabotok shaht. D: Nauka i obrazovanie, 2004. 207 s.
5.Abdurahmanov E. Sozdanie selektivnyh termokataliticheskih sensorov i ih primenenie v monitoringe atmosfernogo vozduha. //Katalog referatov i statej mezhdunarodnogo foruma «Analitika i Analitiki», Voronezh. 2003., t.1, s.242.
6. Abdurahmanov E. Sensor dlya selektivnogo monitoringa oksida ugleroda v vozduhe i promyshlennyh gazoobraznyh vybrosah. //Zhurnal Analitika i kontrol (Rossiya), 2004g. t.8, № 2, s.165-169. 7. Abdurahmanov E., Daminov G., Sultanov M. Selektivnyj himicheskij sensor dlya monitoringa parov benzina i dizelnogo topliva iz sostava vyhlopnyh gazov dvigatelej vnutrennego sgoraniya//Himicheskaya promyshlennost. 2007. T.84. № 6. s.317-320.
8. Margolis Z.I. Okislenie uglevodorodov na geterogennyh katalizatorah M.: Himiya, 1977. 363 s.
9. Krylov O.V. Kataliz nemetallami. Zakonomernosti podbora katalizatorov// L.: Himiya, 1987, S. 210
10.Abdurahmanov I.E Murodova Z.B., Sattarova M.Dzh., Abdurahmanov E.Vysokochuvstvitelnyj avtomaticheskij gazoanalizator ammiaka VG-NH3. // Zhurnal «Himicheskaya promyshlennost» Rossiya. 2015. S.138-141
11.Abdurahmanov E., Sattarova M.Dzh., Katalizatorov dlya selektivnogo okisleniya ammiaka// Zhurnal «Aktualnye problemy sovremennoj nauki». Moskva. Rossiya .№3(82).2015. S.246-249.
12.Eshkobilov Sh.A., Eshkobilova M.E., Abdurahmanov E.A. Opredelenie prirodnogo gaza v atmosfernom vozduhe i tehnologicheskih gazah.//Zhurnal Ekologicheskie sistemy i pribory, 2015. №9. S.11-15
13.Abdurakhmanov E., Ykhshilikova L. J., Murodova Z.B. Development of the semi-conductor analyzer for the control steam ethanol.// European Journal of Analytical and Applied Chemistry.(Evropejskij zhurnal analiticheskoj i prikladnoj himii. g. Vena. Astriya) № 2. 2015. r. 3-5.
14.Maksimov A.I., Moshnikov V.A., Tairov Yu.M., Shilova O.A. Osnovy zol-gel-tehnologii nanokompozitov Sankt-Peterburg.: Izdatelstvo SPbGETU«LETI» .2007. 273s.
15. Abdurahmanov, E. A. Ruziev E.A. Selektivnye termokataliticheskie sensory v ekologicheskom monitoringe gazoobraznyh vybrosov // Himicheskaya promyshlennost. 2003. T.
CC BY-ND
A work licensed in this way allows the following:
1. The freedom to use and perform the work: The licensee must be allowed to make any use, private or public, of the work.
2. The freedom to study the work and apply the information: The licensee must be allowed to examine the work and to use the knowledge gained from the work in any way. The license may not, for example, restrict "reverse engineering."
2. The freedom to redistribute copies: Copies may be sold, swapped or given away for free, in the same form as the original.
