Method for carburization of HDRI produced in H2 based direct reduction process

The invention claimed is: 1. A process for producing carburized directly reduced iron sponge from iron oxide material, comprising: firstly, directly reducing the iron oxide material in a reduction zone by a reduction gas having a hydrogen content of at least 80% by volume; and taking off a used reduction gas as a topgas; wherein: a carbon content in the directly reduced iron sponge is then increased in a carburization zone by a carburizing gas fed in; and after which used carburizing gas is at least partly taken off while avoiding mixing with the reduction gas, resulting in a proportion of carbon-containing gases in the topgas being less than 20% by volume; wherein the reduction gas is heated before it comes into contact with the iron oxide material; wherein a first partial amount of the topgas is fed to utilization as fuel gas for heating at least one of the reduction gas and the carburizing gas, and a size of the first partial amount of the topgas is regulated as a function of at least one of nitrogen N 2 , carbon dioxide CO 2 , carbon monoxide CO, and methane CH 4 content in the topgas; and wherein a second partial amount of the used carburizing gas is fed to utilization as fuel gas for heating the reduction gas, and a size of the second partial amount of the used carburizing gas is regulated as a function of at least one of carbon dioxide CO 2 , carbon monoxide CO, and methane CH 4 content in the topgas. 2. The process of claim 1 , wherein a first partial amount of the used carburizing gas is, after treatment, combined again with fresh carburizing gas components and used again as carburizing gas for increasing the carbon content of the iron sponge. 3. The process of claim 1 , wherein heating of at least one member of the group consisting of the two members: carburizing gas, and treated used carburizing gas before or after being combined with fresh carburizing gas components, is carried out before it comes into contact with the iron sponge. 4. The process of claim 1 , wherein the carburizing gas contains components which react exothermically with the directly reduced iron sponge. 5. The process of claim 1 , wherein the iron sponge is heated at least one of before and during introduction of the carburizing gas. 6. The process of claim 1 , wherein solid carbon C is mixed with the iron sponge at least one of before, during, and after introduction of the carburizing gas. 7. The process of claim 1 , wherein a supply conduit connects the reduction zone to the carburization zone. 8. A method for producing carburized directly reduced iron from iron oxide material, comprising: directly reducing the iron oxide material in a reduction zone by a reduction gas having a hydrogen content of at least 80% by volume; taking off a used reduction gas as a topgas; increasing, after the reducing operation, a carbon content in the directly reduced iron in a carburization zone by feeding in a carburizing gas; and taking off, after the increasing of the carbon content operation, at least some of the carburizing gas, while avoiding substantial mixing of the carburizing gas with the reduction gas, resulting in a proportion of carbon-containing gases in the topgas being less than 20% by volume; wherein the reduction gas is heated before it comes into contact with the iron oxide material; wherein a first partial amount of the topgas is fed to utilization as fuel gas for heating at least one of the reduction gas and the carburizing gas, and a size of the first partial amount of the topgas is regulated as a function of at least one of nitrogen N 2 , carbon dioxide CO 2 , carbon monoxide CO, and methane CH 4 content in the topgas; and wherein a second partial amount of the used carburizing gas is fed to utilization as fuel gas for heating the reduction gas, and a size of the second partial amount of the used carburizing gas is regulated as a function of at least one of carbon dioxide CO 2 , carbon monoxide CO, and methane CH 4 content in the topgas. 9. The method of claim 8 , wherein a supply conduit connects the reduction zone to the carburization zone.