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Electromagnetic Technologies to Decrease Atmospheric Emissions from Gas Burners

Electromagnetic Technologies to Decrease Atmospheric Emissions from Gas Burners The combustion of gaseous fuel in burners in the presence of electromagnetic fields is considered. Activation of the gas fluxes by the field improves the combustion efficiency and decreases atmospheric emissions of toxic oxides. On activation, methane is converted to hydrogen, ethane, and ethylene. The experimental apparatus is described. The fundamentals of the refined physical model describing the activation of air and gas fluxes are outlined. The quality of fuel combustion may be assessed by an indirect index of air ionization (the electrical conductivity) and the activation time. Active control of combustion by subjecting the fuel and oxidant to an electromagnetic field improves the energy and resource efficiency of the fuel and the environmental impact of the equipment. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Coke and Chemistry Springer Journals

Electromagnetic Technologies to Decrease Atmospheric Emissions from Gas Burners

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Publisher
Springer Journals
Copyright
Copyright © Allerton Press, Inc. 2022. ISSN 1068-364X, Coke and Chemistry, 2022, Vol. 65, No. 3, pp. 112–118. © Allerton Press, Inc., 2022. Russian Text © The Author(s), 2022, published in Koks i Khimiya, 2022, No. 3, pp. 38–44.
ISSN
1068-364X
eISSN
1934-8398
DOI
10.3103/s1068364x2203005x
Publisher site
See Article on Publisher Site

Abstract

The combustion of gaseous fuel in burners in the presence of electromagnetic fields is considered. Activation of the gas fluxes by the field improves the combustion efficiency and decreases atmospheric emissions of toxic oxides. On activation, methane is converted to hydrogen, ethane, and ethylene. The experimental apparatus is described. The fundamentals of the refined physical model describing the activation of air and gas fluxes are outlined. The quality of fuel combustion may be assessed by an indirect index of air ionization (the electrical conductivity) and the activation time. Active control of combustion by subjecting the fuel and oxidant to an electromagnetic field improves the energy and resource efficiency of the fuel and the environmental impact of the equipment.

Journal

Coke and ChemistrySpringer Journals

Published: Mar 1, 2022

Keywords: electromagnetic technologies; gas burner; electromagnetic field; energy system; heating system; combustion; activator; generator; ozone; intensified combustion; collision energy

References

  • Reducing toxic emissions by electromagnetic treatment of gas fluxes in burners
    Meshalkin, V.P.; Mikhailin, S.V.; Chelnokov, V.V.
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    Meshalkin, V.P.; Bobkov, V.I.; Yakimenko, I.V.
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    Bogomolov, B.B.; Boldyrev, V.S.; Zubarev, A.M.
  • Distribution of positive ions in flames of mixtures of propane-butane with air
    Fialkov, B.S.; Shcherbakov, N.D.
  • The influence of an electric field on the combustion process, Vestn. Univ. Grazhd. Zashch.
    Il’yushonok, A.V.; Goncharenko, I.A.; Leshenyuk, N.S.