Fuel cell system

1 : A high temperature fuel cell system comprising a high temperature fuel cell stack, a compressor and a turbine, the high temperature fuel cell stack comprising at least one high temperature fuel cell, each high temperature fuel cell comprising an electrolyte, an anode and a cathode, the compressor being arranged to supply at least a portion of an oxidant to the cathode of the at least one high temperature fuel cell, a fuel supply being arranged to supply fuel to the anode of the at least one high temperature fuel cell, the high temperature fuel cell stack being arranged to supply a first portion of the unused oxidant from the cathode of the at least one high temperature fuel cell to an ejector, the high temperature fuel cell stack being arranged to supply a portion of the unused fuel from the anode of the at least one high temperature fuel cell to the ejector, the compressor being arranged to supply a portion of the oxidant to the ejector, the ejector being configured to entrain the unused oxidant and unused fuel by way of the portion of the oxidant supplied by the compressor so as to form a mixture of unused fuel and oxidant. 2 : The high temperature fuel cell system as claimed in claim 1 , wherein the ejector is provided with a primary entrainment volume, a secondary entrainment volume, a mixing volume and a discharge volume. 3 : The high temperature fuel cell system as claimed in claim 2 , wherein the primary entrainment volume is provided with a first inlet for the oxidant from the compressor. 4 : The high temperature fuel cell system as claimed in claim 2 , wherein the secondary entrainment volume is provided with a second inlet for unused oxidant from the cathode and further provided with a third inlet for unused fuel from the anode. 5 : The high temperature fuel cell system as claimed in claim 3 , wherein each of the first inlet, second inlet and third inlet are provided with an inlet nozzle. 6 : The high temperature fuel cell system as claimed in claim 1 , wherein the mixture is entrained to a combustion zone external to the ejector for combustion of the mixture. 7 : The high temperature fuel cell system as claimed in claim 6 , wherein the combustion zone is integrated at an outlet of the ejector. 8 : The high temperature fuel cell system as claimed in claim 6 , wherein the combustion zone is configured to supply a combustion product from the combustion of the mixture to a first inlet of a heat exchanger. 9 : The high temperature fuel cell system as claimed in claim 8 , wherein the heat exchanger is arranged to supply at least a portion of the exhaust gas from a first outlet of the heat exchanger to the turbine. 10 : The high temperature fuel cell system as claimed in claim 8 , wherein the at least a portion of the oxidant from the compressor and a second portion of the unused oxidant from the cathode of the at least one high temperature fuel cell is supplied to a second inlet of the heat exchanger. 11 : The high temperature fuel cell system as claimed in claim 8 , wherein the heat exchanger is arranged to supply the at least a portion of the oxidant from the compressor and the second portion of the unused oxidant from the cathode of the at least one high temperature fuel cell from a second outlet of the heat exchanger to the cathode of the at least one high temperature fuel cell. 12 : The high temperature fuel cell system as claimed in claim 6 , wherein the combustion zone is a volume or dedicated space. 13 : The high temperature fuel cell system as claimed in claim 6 , wherein an aerodynamic recycle zone is provided in the combustion zone. 14 : The high temperature fuel cell system as claimed in claim 6 , wherein a catalytic oxidation reactor is located downstream of the ejector and combustion zone. 15 : The high temperature fuel cell system as claimed in claim 6 , wherein an igniter or a glow plug is located downstream of the ejector and combustion zone 16 : The high temperature fuel cell system as claimed in claim 14 , wherein a single or double catalytic bed reactor is located downstream of the catalytic oxidation reactor. 17 : The high temperature fuel cell system as claimed in 16 , wherein the catalytic oxidation reactor and/or the single or double catalytic bed reactor is combined with the heat exchanger. 18 : The high temperature fuel cell system as claimed in claim 1 , wherein an additional fuel supply is arranged to supply fuel to the ejector. 19 : The high temperature fuel cell system as claimed in claim 1 , wherein the high temperature fuel cell stack is a solid oxide fuel cell stack. 20 : A fuel recycling apparatus for a high temperature fuel cell system, the fuel recycling apparatus comprising an ejector and a combustion zone, the ejector comprising a first inlet for primary oxidant, a second inlet for unused oxidant and a third inlet for unused fuel. 21 . (canceled)