Valve controller configured to estimate fuel comsumption

What is claimed is: 1. A fuel valve for controlling a firing rate of a combustion appliance, the fuel valve comprising: a valve body having an inlet port and an outlet port and a fluid channel extending between the inlet port and the outlet port; a valve member situated within the fluid channel between the inlet port and the outlet port, the valve member configured to be moved between a first position and a second position to control a flow rate of fuel through the fluid channel and thus a firing-rate of a downstream combustion appliance; a valve actuator for moving the valve member between the first position and the second position; a valve control module operatively coupled to the valve actuator for controlling the position of the valve member, the valve control module comprising: an input for receiving a firing rate control signal, wherein the firing rate control signal is indicative of a desired firing rate; a memory module storing a relationship between a desired firing rate and a resulting flow rate of fuel through the fuel valve; a processing module configured to use the relationship stored in the memory module, along with the firing rate control signal, to determine and then store in the memory module one or more of: a measure of cumulative fuel flow through the fuel valve over a period of time; and a measure of instantaneous fuel flow through the fuel valve at each of a plurality of times. 2. The fuel valve of claim 1 , wherein the valve control module further comprises an output for outputting to a device external to the fuel valve one or more of the measure of cumulative fuel flow through the fuel valve and the measure of instantaneous fuel flow through the fuel valve. 3. The fuel valve of claim 1 , wherein the firing rate control signal is provided to the input of the valve control module from a device external to the fuel valve. 4. The fuel valve of claim 1 , wherein valve control module is configured to record the firing rate control signal to the memory module. 5. The fuel valve of claim 1 , wherein processing module is configured to determine the measure of instantaneous fuel flow through the fuel valve over time, and then integrate the measure of instantaneous fuel flow through the fuel valve over the period of time to determine the measure of cumulative fuel flow through the fuel valve over the period of time. 6. The fuel valve of claim 1 , further comprising a differential pressure sensor module configured to determine a measure related to the flow rate of fuel through the fluid channel. 7. The fuel valve of claim 1 , further comprising a flow sensor module configured to determine a measure related to the flow rate of fuel through the fluid channel. 8. The fuel valve of claim 1 , further comprising a temperature sensor configured to determine a measure related to a temperature of the fuel that flows through the fluid channel, and the relationship is dependent on the temperature of the fuel that flows through the fluid channel. 9. The fuel valve of claim 1 , further comprising a pressure sensor configured to determine an ambient pressure at the fuel valve, and the relationship is dependent on the ambient pressure. 10. The fuel valve of claim 1 , wherein the relationship is dependent on a type of fuel flowing through the fuel valve. 11. The fuel valve of claim 1 , wherein the relationship is corrected for lamba (excess air ratio). 12. The fuel valve of claim 11 , wherein the relationship includes interpolation between the two or more desired firing rates at which flow rates of fuel through the fuel valve were measured. 13. The fuel valve of claim 1 , wherein the relationship comprises a look-up table stored in the memory module. 14. A method, comprising: monitoring a firing rate control signal at a fuel valve, the fuel valve comprising an outer housing; using one or more parameters that at least partially define a relationship between a firing rate and a resulting flow rate of fuel through a fuel valve, where the one or more parameters are stored in a memory module located within an outer housing of the fuel valve, along with the firing rate control signal, to determine and then store in the memory module: a measure of cumulative fuel flow through the fuel valve over a period of time; a measure of instantaneous fuel flow through the fuel valve at each of a plurality of times; and calculating a measure of fuel consumption of a combustion appliance based on one or more of the measure of cumulative fuel flow through the fuel valve over the period of time and the measure of instantaneous fuel flow through the fuel valve at each of the plurality of times. 15. The method of claim 14 , further comprising: measuring a flow rate of fuel through the fuel valve at each of two or more firing rates; and calibrating the one or more parameters based at least in part on the measured flow rates of fuel through the fuel valve at each of the two or more firing rates. 16. The method of claim 14 wherein the relationship is dependent on one or more of a temperature of the fuel, a type of the fuel, and an ambient pressure. 17. The method of claim 14 , wherein the calculating step is performed by a processing module of the fuel valve, wherein the processing module is located within the outer housing of the fuel valve. 18. The method of claim 14 , wherein the calculating step is performed by a device external to the fuel valve.