Pumping apparatus

The invention claimed is: 1. A pumping apparatus comprising: a granular material pump assembly and a distributor having a distribution end, wherein the granular material pump assembly is configured to pump granular material through the distributor towards the distribution end, and the distributor is configured to permit granular material to exit the distributor at the distribution end responsive to an amount of granular material pumped towards the distribution end exceeding a threshold. 2. The pumping apparatus according to claim 1 , wherein the granular material pump assembly comprises a granular material feeder. 3. The pumping apparatus according to claim 2 , wherein the distributor further comprises a valve and a vent and the vent is configured to vent gas from the flow of granular material in the distributor. 4. The pumping apparatus according to claim 3 , wherein the valve is configured to open responsive to the amount of granular material in the vent region exceeding the threshold. 5. The pumping apparatus according to claim 2 , wherein the granular material pump assembly is configured to pump discrete volumes of granular material through the distributor towards the distribution end, the discrete volumes of granular material being spaced apart from one another within the distributor. 6. The pumping apparatus according to claim 1 , wherein the granular material pump assembly comprises first and second granular material feeders, the first granular material feeder being a continuous feeder and the second granular material feeder being a discontinuous feeder, wherein the first granular material feeder is configured to feed granular material into the second granular material feeder and the second granular material feeder is configured to regulate a flow of granular material into the distributor. 7. The pumping apparatus according to claim 4 , wherein the valve is biased towards a closed configuration in which passage of granular material therethrough is restricted, the valve being configured to open against the bias to permit passage of granular material therethrough responsive to the amount of granular material pumped towards the distribution end exceeding the threshold. 8. The pumping apparatus according to claim 7 , wherein the valve comprises a tube made of a resilient material, the tube being biased closed at a downstream end. 9. The pumping apparatus according to claim 1 , wherein the distributor comprises a hose and a nozzle for distributing the granular material, the nozzle being located at the distribution end. 10. A granular material feeder operable to generate a discontinuous output flow of granular material from a continuous input flow of granular material, wherein the discontinuous output flow comprises discrete volumes of granular material output periodically by the granular material feeder, and wherein the granular material feeder comprises: at least one inlet for receiving the continuous input flow of granular material; at least one outlet for outputting the discontinuous output flow of granular material; a granular material flow conduit movable between: a charging configuration, in which the granular material flow conduit is aligned with an inlet for receiving granular material; and a discharging configuration, in which the granular material flow conduit is aligned with an outlet for discharging granular material; and an actuator configured to drive periodic movement of the granular material flow conduit between the charging and discharging configurations. 11. The granular material feeder according to claim 10 , wherein the granular material feeder comprises two or more granular material flow conduits each being movable between respective charging and discharging configurations with respect the at least one inlet and the least one outlet, and wherein the actuator is configured to drive periodic movement of the two or more granular material flow conduits between the respective charging and discharging configurations. 12. A pumping apparatus comprising the granular material feeder according to claim 10 . 13. A method comprising using the pumping apparatus according to claim 12 to pump a granular refractory material. 14. The pumping apparatus according to claim 8 , wherein the tube is flattened at the downstream end in the closed configuration. 15. The pumping apparatus according to claim 8 , wherein the resilient material is an elastomeric material. 16. The pumping apparatus according to claim 8 , wherein the threshold is at least in part determined by the dimensions of the tube and/or the mechanical properties of the resilient material. 17. A pumping apparatus comprising: a granular material pump assembly and a distributor having a distribution end for distributing granular material, wherein: the granular material pump assembly is configured to pump granular material through the distributor towards the distribution end, the distributor comprises a valve assembly having a valve configured to open to permit granular material to exit the distributor at the distribution end responsive to an amount of granular material pumped towards the distribution end exceeding a threshold, the granular material pump assembly comprises a granular material feeder for regulating a flow of granular material into the distributor and a gas flow generator for pumping the flow of granular material through the distributor, and the valve assembly comprises a vent configured to vent gas from the flow of granular material in the distributor in a vent region upstream of the valve. 18. A method comprising using the pumping apparatus according to claim 17 to pump a granular material.