Method for pre-reforming hydrocarbons

The invention claimed is: 1. A method for pre-reforming a hydrocarbonaceous feed stream into a pre-reforming product containing carbon oxides, hydrogen, and hydrocarbons, the method comprising the step of introducing the hydrocarbonaceous feed stream into a multistage, adiabatically operated pre-reforming reactor under pre-reforming conditions to obtain a pre-reforming product, wherein the multistage pre-reforming reactor is a shaft reactor, wherein the multistage pre-reforming reactor comprises at least two reaction zones designed as fixed beds in a common reactor vessel, which are in fluid connection with each other and are filled with beds of granular, nickel-containing catalyst active for the pre-reforming, and wherein a first reaction zone in flow direction is filled with a first reaction zone catalyst having a nickel content of less than 30 wt-% and a last reaction zone in flow direction is filled with a last reaction zone catalyst having a nickel content of more than 30 wt-%. 2. The method according to claim 1 , wherein the hydrocarbonaceous feed stream comprises methane and C 2+ hydrocarbons, wherein the pre-reforming product has a reduced amount of C 2+ hydrocarbons and an increased amount of methane as compared to the hydrocarbonaceous feed stream. 3. The method according to claim 1 , wherein the hydrocarbonaceous feed stream comprises natural gas with a content of C 2+ hydrocarbons of at least 1 vol-%. 4. The method according to claim 1 , wherein the hydrocarbonaceous feed stream comprises natural gas with a content of C 2+ hydrocarbons of at least 5 vol-%. 5. The method according to claim 1 , wherein an inlet temperature of the hydrocarbonaceous feed stream into the multistage pre-reforming reactor ranges from 650 to 800° C. and an outlet temperature of the pre-reforming product from the multistage pre-reforming reactor ranges from 500 to 650° C. 6. The method according to claim 1 , wherein upstream of the multistage pre-reforming reactor at least one further single-stage, adiabatically operated fixed-bed reactor designed as shaft reactor is provided, which is charged with the hydrocarbonaceous feed stream and in which a pre-reforming of the hydrocarbonaceous feed stream is effected on a nickel-containing catalyst containing a nickel content of more than 30 wt-%, wherein a product stream obtained from the single-stage fixed-bed reactor is discharged, heated up, and charged to the multistage pre-reforming reactor. 7. The method according to claim 6 , wherein the hydrocarbonaceous feed stream comprises natural gas with a content of C 2+ hydrocarbons of more than 5 vol-%. 8. The method according to claim 1 , further comprising the steps of: providing a main reforming reactor downstream of the multistage pre-reforming reactor, wherein the main reforming reactor comprises a plurality of catalyst-containing reformer tubes and a reformer furnace with burners for firing the reformer tubes; heating the pre-forming product to form a heated pre-forming product; introducing the heated pre-reforming product to the main reforming reactor under steam reforming conditions effective for the conversion of the pre-reforming product into obtain a synthesis gas product containing carbon oxides and hydrogen; and discharging the synthesis gas product from the main reforming reactor and subjecting said synthesis gas product to an after treatment.