Apparatus and method for inhibiting propagation of a flame front

I claim: 1. A vacuum pumping arrangement comprising: a vacuum pump having an inlet; and an apparatus connected to the inlet of the vacuum pump for inhibiting the propagation of a flame front ignited by a pumping mechanism drawing a waste stream from a process chamber, the apparatus comprising: a foreline for conveying the waste stream drawn from the process chamber to the pumping mechanism, the foreline comprising an isolation valve for selectively isolating the pumping mechanism from the process chamber and a bypass around the isolation valve; and a controller for actuating the isolation valve, wherein the controller is configured to: cause the isolation valve to be closed when the waste stream is initially drawn from the process chamber so that the waste stream is conveyed to the pumping mechanism via the bypass, the bypass comprising means for inhibiting propagation of a flame front therethrough; and cause the isolation valve to be opened when a pressure within a region upstream of the isolation valve has been reduced below a value at which propagation of a flame front within the waste stream can be sustained. 2. The vacuum pumping arrangement according to claim 1 comprising an additional vacuum pump located between the isolation valve and the vacuum pump. 3. The vacuum pumping arrangement according to claim 2 wherein the additional vacuum pump is a booster pump. 4. A method of inhibiting the propagation of a flame front ignited by a pumping mechanism drawing a waste stream from a process chamber, the method comprising the steps of: isolating the pumping mechanism from the process chamber using an isolation valve; providing a bypass around the isolation valve; initially drawing the waste stream through the bypass to generate within a flow path from the process chamber to the pumping mechanism an evacuated region, that inhibits propagation of a flame front from the pumping mechanism to the process chamber; and opening the isolation valve when a pressure upstream of the isolation valve has been reduced below a value above which propagation of a flame front within the waste stream can be sustained. 5. The method according to claim 4 wherein the pressure is a pressure within a part of the foreline extending between the process chamber and the isolation valve. 6. The method according to claim 4 wherein the pressure is a pressure within the process chamber. 7. The method according to claim 6 comprising monitoring the pressure directly and opening the isolation valve in dependence on the monitored pressure. 8. The method according to claim 7 comprising the steps of: monitoring a parameter indicative of the pressure; determining the pressure from the monitored parameter; and opening the isolation valve in dependence on the determined pressure. 9. The method according to claim 8 wherein the isolation valve is opened after a predetermined period of time. 10. The method according to claim 9 wherein the method comprises the further steps of: providing a further isolation valve in the bypass; closing the further isolation valve prior to operation of the pumping mechanism; and opening the further isolation valve when a pressure within a region between the further isolation valve and the pumping mechanism has been reduced below a value at which propagation of a flame front within the waste stream can be sustained.