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The mathematical modeling of processes, flowing gas burners of glass melting furnaces, is performed. Models are proposed in the form of equations for the material and heat balance with the physical variables of natural gas and air entering the burner. Calculations of the calorific value of gas fuel are performed, the equations of combustion of simple gases, the consumption of the oxidizer and the amount of products of complete combustion are given in theoretical conditions.

  • Web Address
  • DOI
  • Date of creation in the UzSCI system 10-01-2020
  • Read count 79
  • Date of publication 19-10-2018
  • Main LanguageIngliz
  • Pages158-161
English

The mathematical modeling of processes, flowing gas burners of glass melting furnaces, is performed. Models are proposed in the form of equations for the material and heat balance with the physical variables of natural gas and air entering the burner. Calculations of the calorific value of gas fuel are performed, the equations of combustion of simple gases, the consumption of the oxidizer and the amount of products of complete combustion are given in theoretical conditions.

Author name position Name of organisation
1 Bobomurodov N.X. Department of “Automation of production processes” Tashkent State Technical University, Uzbekistan Address: Prospect Uzbekistanskya-2, 100095, Tashkent city, Republic of Uzbekistan 2Department of “Automation of production processes” Tashkent State Technical University
2 Holmanov U.U. Department of “Automation of production processes” Tashkent State Technical University, Uzbekistan Address: Prospect Uzbekistanskya-2, 100095, Tashkent city, Republic of Uzbekistan 2Department of “Automation of production processes” Tashkent State Technical University, Uzbekistan
Name of reference
1 1. Genkin A.L., Kudelin A.R. Problems of Energy-saving Control of Sheet Mill. Part 1. Problemy upravleniya [Control sciences], 1. 2006, no.6, pp. 50-54. (In Russian). 2. Genkin A.L. Information Capacity of Power Parameters in Controlling the Temperature and Speed Mode of Hot Strip. 3. Avtomatizatsiya v promyshlennosti [Automation in Industry], 4. 2008, no.8, pp.45-48. (In Russian). 2. Parsunkin B.N. Sistema ekstremalьnogo regulirova- niya s ispolьzovaniem iskusstvennoy neyronnoy seti / B.N. Parsunkin, S.M. Andreev, M.YU. Ryabchikov // Tvorcheskoe nasledie B.I. Kitaeva: trudы Mejdunarod. nauch.-prakt. konf. – Ekaterinburg: UGTU-UPI, 2009. – S. 376-379. 3. Yan A., Chai T., Wu F., Wang P. Hybrid intelligent control of combustion process for ore-roasting furnace // Jour-nal of Control Theory and Applications. – 2008. – Vol. 6. №1. – P. 80-85.
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