Burner with a perforated flame holder and pre-heat apparatus

What is claimed is: 1. A burner, comprising: a primary nozzle having a longitudinal axis and configured to emit a fuel flow; a primary flame holder having first and second faces and a plurality of apertures extending through the flame holder from the first face to the second face, positioned with the first face toward the nozzle and intersecting the longitudinal axis of the nozzle; the primary nozzle and the primary flame holder being separated by a distance D 1 in an operational mode wherein an operational flame is primarily within the apertures of the primary flame holder; and a preheat mechanism configured to preheat the primary flame holder in a startup mode and not to preheat the primary flame holder in the operational mode, the preheat mechanism being configured to support a preheat flame in a position between the primary nozzle and the first face of the primary flame holder. 2. The burner of claim 1 , wherein the preheat mechanism includes a secondary flame holder selectively in contact with the fuel flow and configured to support the preheat flame at a position between the primary nozzle and the first face of the primary flame holder. 3. The burner of claim 2 , including first and second electrodes configured to apply electrical energy to the flame. 4. The burner of claim 3 , wherein one of the first and second electrodes is integral with the primary nozzle. 5. The burner of claim 3 , wherein one of the first and second electrodes is integral with the secondary flame holder. 6. The burner of claim 3 , wherein one of the first and second electrodes is movable between an extended position and a retracted position. 7. The burner of claim 2 , wherein the secondary flame holder is configured to introduce turbulence into the fuel flow emitted by the nozzle. 8. The burner of claim 7 , wherein the secondary flame holder is movable between an operative position, in which the secondary flame holder introduces turbulence into the fuel flow, and an inoperative position, in which the secondary flame holder is spaced away from a path of the fuel flow. 9. The burner of claim 7 , wherein the preheat mechanism includes a mechanism configured to move the secondary flame holder between the operative and inoperative positions. 10. The burner of claim 2 , wherein the secondary flame holder has a toroid shape. 11. The burner of claim 1 , wherein D 1 is variable and the primary nozzle is movable between a preheat position and an operative position. 12. The burner of claim 11 , wherein the preheat mechanism includes a mechanism configured to move the primary nozzle between the preheat position and the operative position. 13. The burner of claim 1 , wherein the preheat mechanism includes a control unit to control a transition between the startup mode and the operational mode. 14. The burner of claim 13 , wherein the control unit initiates combustion in the apertures of the primary flame holder during the transition. 15. The burner of claim 3 , wherein the preheat mechanism includes a control unit to control a transition between the startup mode and the operational mode, and wherein the control unit controls voltage applied to the first and second electrodes. 16. The burner of claim 1 , wherein the distance D 1 is such that a fuel-to-air ratio of the fuel flow at the first face of the primary flame holder is leaner than could be maintained without the primary flame holder.