Low NOx burner and method of operating a low NOx burner

What is claimed is: 1. A method of operating a low oxides of nitrogen (NOx) burner, comprising: emitting a diverging fuel stream from a fuel nozzle, the fuel stream diverging at a substantially constant angle from the fuel nozzle, thereby increasing a diameter of the diverging fuel stream with distance from the fuel nozzle; entraining air or other surrounding fluid in the diverging fuel stream; supporting a conductive flame holder proximate the diverging fuel stream at a position along the diverging fuel stream that substantially corresponds to a flammability limit of the fuel; imparting an electric charge onto a flame surface held by the conductive flame holder and supported by the diverging fuel stream; applying or maintaining a voltage condition to the conductive flame holder; wherein applying or maintaining a voltage condition to the conductive flame holder includes applying a voltage different than a voltage applied to a charge source that imparts the charge onto the flame; and causing electrical current to flow between the flame and the conductive flame anchor. 2. The method of operating a low NOx burner of claim 1 , wherein: cooperation between the imparted charge on the flame and the conductive flame holder maintains ignition of the flame and flame holding by the conductive flame holder. 3. The method of operating a low NOx burner of claim 1 , further comprising: applying heat from the flame to a heat-receiving surface. 4. The method of operating a low NOx burner of claim 1 , further comprising determining a selected distance between the conductive flame holder and the fuel nozzle generating the diverging fuel stream, and wherein determining the selected position further comprises: receiving a signal or operating a sensor to generate a signal indicative of a fuel condition; calculating or looking up a position along a stream of the fuel, the position having a relationship to a lean flammability limit corresponding to the fuel condition; and outputting the position data corresponding to the position or a signal corresponding to the position to drive a conductive flame holder support to the position or outputting an indication of the position on an instrument for viewing by a user. 5. The method of operating a low NOx burner of claim 4 , further comprising: driving an actuator to support the conductive flame holder at the selected position along the diverging fuel stream. 6. The method of operating a low NOx burner of claim 1 , further comprising: applying a voltage to the charge source; wherein the charge source imparts the charge concentration responsive to the applied voltage. 7. The method of operating a low NOx burner of claim 6 , wherein applying a voltage to the charge source includes applying a time-varying voltage to the charge source. 8. The method of operating a low NOx burner of claim 7 , wherein applying a voltage to the charge source includes applying a periodic voltage waveform. 9. The method of operating a low NOx burner of claim 1 , wherein imparting a charge includes applying a voltage to a sharp electrode proximate to the flame. 10. The method of operating a low NOx burner of claim 1 , wherein imparting a charge includes applying a voltage to a substantially dull electrode proximate to the flame. 11. The method of operating a low NOx burner of claim 1 , wherein imparting a charge includes applying a voltage to a depletion electrode configured to deplete from the flame ions or electrons having a non-majority charge sign. 12. The method of operating a low NOx burner of claim 1 , wherein imparting a charge includes applying a voltage to a charge adding apparatus configured to apply a majority charge to the flame. 13. The method of operating a low NOx burner of claim 1 , wherein applying or maintaining a voltage condition to the conductive flame holder includes applying a second time-varying voltage to the conductive flame holder, the second time-varying voltage being opposite in sign to the charge imparted onto the flame. 14. The method of operating a low NOx burner of claim 1 , wherein applying or maintaining a voltage condition to the conductive flame holder includes maintaining substantially voltage ground. 15. The method of operating a low NOx burner of claim 1 , wherein applying or maintaining a voltage condition to the conductive flame holder includes maintaining electrical isolation from ground and from voltages other than the voltage corresponding to the charges imparted onto the flame. 16. The method of operating a low NOx burner of claim 1 , including selecting a diameter of the diverging fuel stream, and adapting a shape of the conductive flame holder to the diameter of the diverging fuel stream. 17. The method of operating a low NOx burner of claim 1 , including selecting a diameter of the diverging fuel stream, and selecting the conductive flame holder to have a conductive flame holder diameter corresponding to the diameter of the diverging fuel stream. 18. The method of operating a low NOx burner of claim 1 , wherein the conductive flame holder includes a conductive flame holding surface, and further comprising: providing a conductive flame-holder support configured for mechanically coupling the conductive flame holding surface; and using the conductive flame-holder support to mechanically couple to the conductive flame holding surface and configured for mechanical coupling to another surface. 19. The method of operating a low NOx burner of claim 18 , wherein the other surface comprises the fuel nozzle that supports the diverging fuel stream. 20. The method of operating a low NOx burner of claim 19 , wherein the conductive flame holder and the fuel nozzle are mechanically coupled to form an integrated, non-unitary fuel nozzle and conductive flame holder. 21. The method of operating a low NOx burner of claim 19 , wherein the conductive flame holder and the fuel nozzle are formed as a unitary single piece. 22. The method of operating a low NOx burner of claim 19 , wherein the fuel nozzle is conductive. 23. A non-transitory computer readable media carrying computer executable instructions configured to cause an electronic control module to perform the method of claim 1 and further comprising the steps of: receiving a signal or operating a sensor to generate a signal indicative of a fuel condition; calculating or looking up a position along a stream of the fuel, the position having a relationship to a lean flammability limit corresponding to the fuel condition; and outputting the position data corresponding to the position or a signal corresponding to the position to drive a conductive flame holder support to the position or outputting an indication of the position on an instrument for viewing by a user.