Abstract: A method and apparatus for measuring the concentration of at least one gaseous component and/or vaporous component of a gaseous mixture in which a controlled sensor flame is introduced into the gaseous mixture and at least one narrow spectral band in the controlled sensor flame is optically measured. The concentration of the gaseous component using a result obtained from the optical measuring of the at least one narrow spectral band is then calculated. The method of this invention is particularly suitable for substantially real-time control of combustion processes.

Abstract: A combustion system for automatic, real-time control of a combustion process which can be applied with significant advantage to a wide range of furnaces, boilers and combustors. The system includes a burner body having a primary first fluid inlet end forming at least one primary first fluid inlet and a first fluid outlet end forming at least one first fluid outlet. An inner conduit is disposed within the burner body, forming a fluid flow region between the burner body and the inner conduit. The inner conduit has a second fluid inlet distal from the first fluid outlet and a second fluid outlet proximate the first fluid outlet. An internal adjustment device is provided for adjusting a flow cross-sectional area for a first fluid and/or a second fluid disposed within the burner body.

Abstract: A method for high temperature process control in which the surface emission intensity of a surface is measured at two near-infrared wavelengths over an array of points covering a fill field of view. The emissivity variable is removed from the temperature calculation and the surface emission intensity measurements are digitally processed, resulting in generation of a color temperature map. The color temperature map is processed in a thermal imaging control algorithm process, producing control output signals, which are then input to a temperature control means for controlling the surface temperature. The apparatus used in carrying out this method is surface temperature monitoring system which includes a multiple-wavelength, near-infrared thermal imaging system.

Abstract: A combustion system for automatic, real-time control of a combustion process which can be applied with significant advantage to a wide range of furnaces, boilers and combustors. The system includes a burner body having a primary first fluid inlet end forming at least one primary first fluid inlet and a first fluid outlet end forming at least one first fluid outlet. An inner conduit is disposed within the burner body, forming a fluid flow region between the burner body and the inner conduit. The inner conduit has a second fluid inlet distal from the first fluid outlet and a second fluid outlet proximate the first fluid outlet. An internal adjustment device is provided for adjusting a flow cross-sectional area for a first fluid and/or a second fluid disposed within the burner body.

Abstract: A method and apparatus for measuring the concentration of at least one gaseous component and/or vaporous component of a gaseous mixture in which a controlled sensor flame is introduced into the gaseous mixture and at least one narrow spectral band in the controlled sensor flame is optically measured. The concentration of the gaseous component using a result obtained from the optical measuring of the at least one narrow spectral band is then calculated. The method of this invention is particularly suitable for substantially real-time control of combustion processes.