228

The current state of the theory and scientific - theoretical foundations of
automatic control, modeling and control of technological processes of fuel combustion in
combustion furnaces are analyzed and he trends for their further improvement and
development are indicated. The analysis of methods of diagnostics, control and
automatic control of the process of combustion of gaseous fuel in gas-burning furnaces
and installations has been carried out, and research objectives have been formulated;
Methods for monitoring the ionization characteristics of the primary measuring
transducer in the form of ionization transition currents in the “electrode-torch-burner”
and “electrode-torch-electrode” circuits are analyzed by using high-temperature
measuring electrodes immersed in various zones of the gas-air torch. The relationship
between the parameters of the combustion zone of the furnace and the productivity of a
two-wire gas burner with the combustion coefficient is revealed. It has been established
that the measurement of low-frequency electrical signals of the torch is accompanied by
losses, leading to a decrease in the useful signal. It is shown that one of the promising
ways to modernize safety automation systems for the fuel combustion process is the
development and implementation of monitoring and control devices in the fuel
combustion mode, which provides for obtaining the specified characteristics of the
combustion process and combustion products in the working volume of the studied gas
combustion plant.

  • Internet ҳавола
  • DOI
  • UzSCI тизимида яратилган сана 06-09-2022
  • Ўқишлар сони 228
  • Нашр санаси 30-06-2022
  • Мақола тилиIngliz
  • Саҳифалар сони216-221
English

The current state of the theory and scientific - theoretical foundations of
automatic control, modeling and control of technological processes of fuel combustion in
combustion furnaces are analyzed and he trends for their further improvement and
development are indicated. The analysis of methods of diagnostics, control and
automatic control of the process of combustion of gaseous fuel in gas-burning furnaces
and installations has been carried out, and research objectives have been formulated;
Methods for monitoring the ionization characteristics of the primary measuring
transducer in the form of ionization transition currents in the “electrode-torch-burner”
and “electrode-torch-electrode” circuits are analyzed by using high-temperature
measuring electrodes immersed in various zones of the gas-air torch. The relationship
between the parameters of the combustion zone of the furnace and the productivity of a
two-wire gas burner with the combustion coefficient is revealed. It has been established
that the measurement of low-frequency electrical signals of the torch is accompanied by
losses, leading to a decrease in the useful signal. It is shown that one of the promising
ways to modernize safety automation systems for the fuel combustion process is the
development and implementation of monitoring and control devices in the fuel
combustion mode, which provides for obtaining the specified characteristics of the
combustion process and combustion products in the working volume of the studied gas
combustion plant.

Муаллифнинг исми Лавозими Ташкилот номи
1 Yusupbekov N.R. teacher TSTU
2 Gulyamov S.M. teacher TSTU
3 Rajabov A.T. teacher TSTU
Ҳавола номи
1 N.R. Yusupbekov, Sh.M. Gulyamov, N.K. Bobomurodov, E.Y. Bandenok, B. K. Zikrillaev. “Academy of sciences of the republic of uzbekistan”. 2011. 80
2 N.R. Yusupbekov, Sh.M. Gulyamov, N.Kh. Bobomurodov, E.Y. Bandenok, B. Kh. Zikrillaev. “Academy of sciences of the Republic of Uzbekistan”. 2011. 88
3 E.L. Loboda, V.V. Reino. The influence of the flame emissivity on the measurement of temperatures by IR methods during the combustion of forest and steppe combustible materials at different moisture content. Frequency analysis of temperature change. “Optics of the atmosphere and ocean”. 2011. 1002
4 O.A. Dorokhin, D.G. Starushko, E.E. Fedorov, V.Y. Shelepov. Segmentation of the speech signal. “Artificial intelligence”. 2000. 450
5 N.A. Krasheninnikova. The main factors that interfere with the recognition of speech commands. “Siberian scientific bulletin”. 2011. 188
6 A.B. Bakushinsky, M.Y. Kokurin, M.M. Kokurin. “Direct and inverse theorems for iterative methods for solving irregular operator equations and difference methods for solving ill-posed cauchy problems”. 2020. 939
7 B.N. Parsunkin, S.M. Andreev, T.U. Akhmetov, A.R. Bondareva. Optimal energysaving control of fuel combustion in industrial furnaces. “Engineering: a network electronic scientific journal”. 2013. 22.
8 B.N. Parsunkin, S.M. Andreev, T.G. Obukhova. Study of the optimal energy-saving process of fuel combustion in the working space of metallurgical furnaces. “Bulletin of the Magnitogorsk state technical university”. 2005. 28
9 A.L. Rutkovsky, E.I. Meshkov, A.M. Davidson, A.T. Zurabov, M.A. Kovaleva. “Study of the process of flaring combustion of gaseous fuel”. 2009. 243
10 I.V. Barmin, I.D. Kunis. “Liquefied natural gas: yesterday, today, tomorrow”. 2008. 264
11 A.A. Mutlag. Enabling technologies for fog computing in health care systems. “Future generation computer systems”. 2019. 62
12 Y. Wang, N. Hajli. Exploring the path to big data analytics success in healthcare. “Journal of Business Research”. 2017. 287
13 A.L. Beresnev. “Engineering Bulletin of the Don”. 2013
14 A.H. Huth. Fuel flexibility in gas turbine systems: impact on burner design and performance. “A volume in woodhead publishing series in energy, siemens AG energy”. 2013. 635
15 A.T. Rajabov, U.U. Kholmanov, Automatic control and management of technological processes of glassmaking production. “Journal of advanced research in dynamical and control systems”. 2020. 764
16 N.R. Yusuphbekov, U.U. Kholmanov. Dynamic model of the technological process of glass melting in glass furnaces. “Industrial ACS and controllers”. 2020. 19
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