Method of controlling operation of an exhaust fluid treatment apparatus

The invention claimed is: 1. A method of controlling operation of an exhaust fluid treatment apparatus, the apparatus comprising a diesel oxidation catalyst comprising an inlet and an outlet, the method comprising: receiving an input temperature data value being indicative of a temperature at the inlet; receiving a flow rate data value being indicative of a rate of flow of fluid in the diesel oxidation catalyst; receiving a threshold temperature data value indicative of a predicted temperature required for fuel in the diesel oxidation catalyst to oxidize; receiving mode data indicative of whether the diesel oxidation catalyst is operating in a first mode or a second mode, the first mode being a warm-up mode and the second mode being a running mode of the diesel oxidation catalyst; and sending, when the input temperature data value is greater than the threshold temperature data value, a fuel data value indicative of a quantity of fuel to be injected into the exhaust fluid upstream of the inlet for combustion in the diesel oxidation catalyst, wherein the fuel data value is obtained from a data library which comprises a first set of fuel data values relating to the first mode and a second set of fuel data values relating to the second mode, each fuel data value of the first and second sets of fuel data values being associated with a particular combination of input temperature data value and flow rate data value, and for each particular combination of input temperature data value and flow rate data value, a data value of the first set of data values is indicative of a smaller quantity of fuel or a slower rate of flow of fuel than a data value of the second set of data values. 2. The method of claim 1 wherein the input temperature data value indicative of a temperature at the inlet is obtained by receiving a temperature measurement upstream of the inlet and using a compensation factor to account for a likely change temperature change between the temperature measurement and the actual temperature at the inlet of the diesel oxidation catalyst. 3. The method of claim 1 wherein the flow rate data value is indicative of mass flow of exhaust or space velocity. 4. The method of claim 1 wherein the flow rate data value is obtained by a measurement in combination with a prediction. 5. The method of claim 1 wherein the step of receiving the flow rate data value comprises receiving an upstream pressure value of fluid upstream of the DOC, and receiving a downstream temperature value and a downstream pressure value of fluid downstream of the DOC, then consulting a look up table to identify an estimate of the flow rate data corresponding to the received upstream temperature value, the received upstream pressure value, the received downstream temperature value and the received downstream pressure value. 6. The method of claim 1 wherein the quantity of fuel to be injected into the exhaust fluid upstream of the inlet for combustion in the diesel oxidation catalyst is injected into at least one cylinder of an engine to which the exhaust fluid treatment apparatus is attached in use. 7. The method of claim 6 wherein the injection of the fuel to be injected occurs when an exhaust valve of the cylinder is open. 8. An exhaust fluid treatment apparatus comprising a diesel oxidation catalyst and a controller, the diesel oxidation catalyst comprising an inlet and an outlet, the controller configured to: receive an input temperature data value being indicative of a temperature at the inlet; receive a flow rate data value being indicative of a rate of flow of fluid in the diesel oxidation catalyst; receive a threshold temperature data value indicative of a predicted temperature required for fuel in the diesel oxidation catalyst to oxidize; receive mode data indicative of whether the diesel oxidation catalyst is operating in a first mode or a second mode, the first mode being a warm-up mode and the second mode being a running mode of the diesel oxidation catalyst; and send, when the input temperature data value is greater than the threshold temperature data value, a fuel data value indicative of a quantity of fuel to be injected into the exhaust fluid upstream of the inlet for combustion in the diesel oxidation catalyst, wherein the fuel data value is obtained from a data library which comprises a first set of fuel data values relating to the first mode and a second set of fuel data values relating to the second mode, each fuel data value of the first and second sets of fuel data values being associated with a particular combination of input temperature data value and flow rate data value, and for each particular combination of input temperature data value and flow rate data value, a data value of the first set of data values is indicative of a smaller quantity of fuel or a slower rate of flow of fuel than a data value of the second set of data values. 9. The exhaust fluid treatment apparatus of claim 8 wherein the controller is part of an engine control unit which controls other aspects of engine performance. 10. An engine comprising the exhaust fuel treatment apparatus and the controller of claim 8 . 11. The method of claim 1 wherein the input temperature data value indicative of a temperature at the inlet is obtained by receiving a temperature measurement upstream of the inlet and using a compensation factor to account for a likely change temperature change between the temperature measurement and the actual temperature at the inlet of the diesel oxidation catalyst. 12. The method of claim 1 wherein the flow rate data value is indicative of mass flow of exhaust or space velocity. 13. The method of claim 1 wherein the flow rate data value is obtained by a measurement in combination with a prediction. 14. The method of claim 1 wherein the step of receiving the flow rate data value comprises receiving an upstream pressure value of fluid upstream of the DOC, and receiving a downstream temperature value and a downstream pressure value of fluid downstream of the DOC, then consulting a look up table to identify an estimate of the flow rate data corresponding to the received upstream temperature value, the received upstream pressure value, the received downstream temperature value and the received downstream pressure value. 15. The method of claim 1 wherein the quantity of fuel to be injected into the exhaust fluid upstream of the inlet for combustion in the diesel oxidation catalyst is injected into at least one cylinder of an engine to which the exhaust fluid treatment apparatus is attached in use. 16. The method of claim 2 wherein the flow rate data value is obtained by a measurement in combination with a prediction. 17. The method of claim 2 wherein the step of receiving the flow rate data value comprises receiving an upstream pressure value of fluid upstream of the DOC, and receiving a downstream temperature value and a downstream pressure value of fluid downstream of the DOC, then consulting a look up table to identify an estimate of the flow rate data corresponding to the received upstream temperature value, the received upstream pressure value, the received downstream temperature value and the received downstream pressure value. 18. The method of claim 2 wherein the quantity of fuel to be injected into the exhaust fluid upstream of the inlet for combustion in the diesel oxidation catalyst is injected into at least one cylinder of an engine to which the exhaust fluid treatment apparatus is attached in use.