Production of Iron

1 . A process for direct reduction of iron ore in a solid state includes exposing briquettes of iron ore fragments and biomass to electromagnetic energy under anoxic conditions and generating heat within iron ore in the briquettes, with iron ore being reduced in a solid state within the briquettes, and with biomass providing a source of reductant. 2 . The process defined in claim 1 includes electromagnetic energy generating heat within the biomass. 3 . The process defined in claim 1 includes controlling process operating conditions so that iron ore is heated to a temperature in a range at which there is metallization of iron ore. 4 . The process defined in claim 3 includes, in the case of hematite, controlling process operating conditions so that iron ore is heated to a temperature in a range of 800-950° C. for metallization of the hematite. 5 . The process defined in claim 1 includes operating as a continuous process that includes transporting iron ore and biomass through a preheating chamber and preheating iron ore and biomass as iron ore and biomass move through the preheating chamber; transporting preheated iron ore and biomass through a heating/reduction chamber that has an anoxic environment and exposing iron ore and biomass to electromagnetic energy as iron ore and biomass move through the preheating chamber. 6 . The process defined in claim 1 wherein the briquettes have a major dimension of 1-10 cm. 7 . The process defined in claim 1 wherein the briquettes have a major dimension of 2-10 cm. 8 . The process defined in claim 1 wherein the briquettes have a major dimension of 2-6 cm. 9 . The process defined in claim 1 wherein the electromagnetic energy is in the microwave energy band of the electromagnetic energy spectrum. 10 . The process defined in claim 1 wherein the process is a batch process. 11 . The process defined in claim 1 wherein the process is a continuous process.