Flame module for a spectrometer

The invention claimed is: 1. A gas supply system for a flame module of a spectrometer comprising: a oxidant gas supply line for providing a supply of oxidant gas; an oxidant gas flow valve for varying a gas flow rate of an oxidant gas in the oxidant gas supply line; an oxidant gas safety controller configured to control the oxidant gas flow valve comprising: a first switch; and an energy storage circuit; a fuel gas supply line for providing a supply of fuel gas; a fuel gas flow valve configured to control a gas flow rate of a fuel gas on the fuel gas supply line; and a fuel gas safety controller configured to control the fuel gas flow valve, wherein during normal operation, the oxidant gas safety controller is configured to charge the energy storage circuit; and in the event of a power failure, the first switch of the oxidant gas safety controller is configured to connect the energy storage circuit to the oxidant gas flow valve, wherein the energy storage circuit is configured to discharge energy to the oxidant gas flow valve to increase the oxidant gas flow rate in order to extinguish a flame of the flame module, and the fuel gas safety controller is configured to close the fuel gas flow valve. 2. The gas supply system according to claim 1 further comprising: an oxidant gas flow controller for setting the gas flow rate of oxidant gas in the oxidant gas supply line, the oxidant gas flow controller connected to the oxidant gas safety controller; wherein, during normal operation, the first switch of the oxidant gas safety controller is configured to connect the oxidant gas flow controller to the oxidant gas flow valve. 3. The gas supply system according to claim 1 , wherein the fuel gas safety controller further comprises: a second switch; and a fuel gas safety circuit; wherein in the event of a power failure, the second switch of the fuel gas safety controller is configured to connect the fuel gas safety circuit to the fuel gas flow valve to close the fuel gas flow valve. 4. The gas supply system according to claim 3 wherein the fuel gas safety circuit is an open circuit or a short circuit. 5. The gas supply system according to claim 3 , further comprising: a fuel gas flow controller for setting the gas flow rate of the fuel gas in the fuel gas supply line; wherein, during normal operation, the second switch of the fuel gas safety controller is configured to connect the fuel gas flow controller to the fuel gas flow valve. 6. The gas supply system according to claim 1 , wherein the oxidant gas flow controller and/or the fuel gas flow controller is a mass flow controller. 7. The gas supply system according to claim 1 , wherein the oxidant gas safety controller and/or the fuel gas safety controller further comprises a control signal input configured to receive a control signal, the oxidant gas safety controller and/or the fuel gas safety controller configured to operate the first and/or second switches from the respective first positions to the respective second positions in response to receiving the control signal. 8. The gas supply system according to claim 1 , further comprising an alternative oxidant gas supply line for providing a supply of an alternative oxidant gas; a three way valve arranged upstream of the oxidant gas valve connected to the oxidant gas supply line and the alternative oxidant gas supply line; a third switch connected to the three way valve; wherein during normal operation, the third switch is configured to control the three way valve to fluidly connect either the oxidant gas supply line or the alternative oxidant gas supply line to the oxidant gas valve, and in the event of a power failure, the third switch is configured to control the three way valve to fluidly connect the oxidant gas supply line to the oxidant gas valve. 9. The gas supply system according to claim 8 , wherein the first switch, the second switch and/or the third switch is a relay. 10. The gas supply system according to claim 1 , wherein the first energy storage circuit comprises a capacitor. 11. The gas supply system according to claim 1 for a flame module of an atomic absorption spectrometer or an atomic emission spectrometer. 12. An oxidant gas safety controller for a flame module comprising: an oxidant gas valve signal output configured to output an oxidant gas valve signal to an oxidant gas valve for controlling the flow rate of an oxidant gas through the oxidant gas valve; a first switch; a first energy storage circuit; wherein the oxidant gas safety controller is configured to charge the first energy storage circuit when the first switch is powered; and the oxidant gas safety controller is configured to discharge the first energy storage circuit through the oxidant gas valve output as the oxidant gas valve signal to increase the flow rate of the oxidant gas through the oxidant gas valve when the first switch is switched from a powered state to an unpowered state. 13. The oxidant gas safety controller according to claim 12 , further comprising an oxidant gas valve controller input configured to receive an oxidant gas valve controller signal from an oxidant gas valve controller for controlling the flow rate of the oxidant gas through the oxidant gas valve; wherein when the first switch is powered, the oxidant gas safety controller is configured to output the oxidant gas valve controller signal as the oxidant gas valve signal. 14. A gas safety control system for a flame module comprising: an oxidant gas safety controller configured to charge a first energy storage circuit when a first switch is powered, and configured to discharge the first energy storage circuit through an oxidant gas valve output as an oxidant gas valve signal to increase the flow rate of the oxidant gas through the oxidant gas valve when the first switch is switched from a powered state to an unpowered state; and a fuel gas safety controller comprising: a fuel gas valve signal output configured to output a fuel gas valve signal to a fuel gas valve for controlling a flow rate of a fuel gas through the fuel gas valve; a second switch; wherein when the second switch of the fuel gas safety controller is not powered, the fuel gas safety controller is configured to close the fuel gas flow valve. 15. The gas safety control system according to claim 14 , wherein the fuel gas safety controller further comprises: a fuel gas valve controller input configured to receive a fuel gas valve controller signal from a fuel gas valve controller for controlling the flow rate of the fuel gas through the fuel gas valve; wherein when the second switch is powered, the fuel gas safety controller is configured to output the fuel gas valve controller signal as the fuel gas valve signal.