Combustion monitoring

The invention claimed is: 1. A radiant burner for treating an effluent gas stream from a manufacturing process tool, the radiant burner comprising: (a) a combustion chamber having a porous sleeve through which combustion materials pass for combustion proximate to a combustion surface of the porous sleeve; (b) a combustion characteristic monitor mounted in a non-invasive manner relative to the combustion chamber and operable to determine combustion performance of the radiant burner by monitoring infra-red radiation emitted from the combustion surface; and (c) a radiant burner controller operable to control operation of the radiant burner in dependence upon combustion performance determined by the combustion characteristic monitor; wherein the combustion characteristic monitor is operable to determine combustion performance of the radiant burner by monitoring intensity of radiation received at one or more infra-red radiation wavelengths indicative of desired operation parameters of the radiant burner at that wavelength. 2. The radiant burner of claim 1 , wherein the combustion characteristic monitor is operable to determine whether the infra-red radiation emitted by the combustion surface lies within acceptable operational parameters. 3. The radiant burner of claim 2 , wherein if the combustion performance determined by the combustion characteristic monitor is determined to lie outside the acceptable operational parameters, then the radiant burner controller is operable to initiate one or more ameliorative actions. 4. The radiant burner of claim 3 , wherein the ameliorative actions include initiation of a radiant burner shutdown and/or activation of a user alarm. 5. The radiant burner of claim 1 , wherein the radiant burner controller is operable to control the combustion materials fed to the radiant burner combustion surface in dependence upon the combustion performance determined by the combustion characteristic monitor. 6. The radiant burner of claim 1 , wherein the radiant burner controller is operable to increase or decrease a feed rate of the combustion materials fed to the radiant burner combustion surface in dependence upon the combustion performance determined by the combustion characteristic monitor. 7. The radiant burner of claim 1 , wherein the radiant burner controller is operable to control a composition of the combustion materials fed to the radiant burner combustion surface in dependence upon the combustion performance determined by the combustion characteristic monitor. 8. The radiant burner of claim 1 , wherein the radiant burner controller is operable to increase or decrease a ratio of fuel to air in the combustion materials fed to the radiant burner combustion surface in dependence upon the combustion performance determined by the combustion characteristic monitor. 9. The radiant burner of claim 1 , wherein the combustion characteristic monitor is operable to determine combustion performance of the radiant burner by monitoring one or more infra-red radiation wavelength indicative of desired operation parameters of the radiant burner. 10. The radiant burner of claim 1 , wherein the combustion characteristic monitor is operable to monitor electromagnetic radiation emitted by the combustion surface and determine combustion performance of the radiant burner by performing spectroscopic analysis in relation to that monitored electromagnetic spectrum. 11. The radiant burner of claim 1 , wherein the combustion characteristic monitor and the radiant burner controller are operable to continuously monitor and control operation of the radiant burner thereby operating to form a feedback loop of operation.