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.

中文翻译：

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减少气体燃烧器大气排放的电磁技术

摘要

考虑了在存在电磁场的情况下燃烧器中气体燃料的燃烧。通过现场激活气体通量提高了燃烧效率并减少了有毒氧化物的大气排放。活化后，甲烷转化为氢气、乙烷和乙烯。描述了实验装置。概述了描述空气和气体通量激活的精细物理模型的基本原理。燃料燃烧的质量可以通过空气电离（电导率）和活化时间的间接指数来评估。通过使燃料和氧化剂经受电磁场对燃烧的主动控制提高了燃料的能源和资源效率以及设备对环境的影响。