Method and apparatus for producing direct reduced iron utilizing a catalytical pretreatment of hydrocarbons as a source of reducing gas

1 - 19 . (canceled) 20 . A method for producing direct reduced iron, said method comprising producing direct reduced iron using a pre-treated make-up gas as a reducing agent in a direct reduced iron reactor ( 10 ), wherein producing direct reduced iron is carried-out using a zero-reformer process in which catalytic reformation of the pre-treated make-up gas is carried-out in situ within the direct reduced iron reactor ( 10 ) such that the pre-treated make-up gas is subjected to no further catalytic reaction besides the catalytic reactions that occur inside said direct reduced iron reactor ( 10 ), wherein said method comprises: pre-treating a stream of said make-up gas containing heavy hydrocarbons by subjecting the stream of make-up gas to a low temperature adiabatic reforming at a temperature comprised between 300° C. and 600° C., prior to using said stream of make-up gas as a reducing agent for producing direct reduced iron; subjecting said pre-treated stream of make-up gas to adjusting humidity content of said stream of make-up gas after said low temperature adiabatic reforming by bypassing said stream of make-up gas to selectively split said stream into a first part ( 128 ) of said stream of make-up gas and a second part ( 130 ) of said stream of make-up gas and subjecting only said first part ( 128 ) to a water separation in a water separation unit ( 136 ) and then mixing said first part ( 128 ) to said second part ( 130 ) to obtain a reducing stream ( 146 ) to be sent to the direct reduced iron reactor ( 10 ). 21 . The method of claim 20 , wherein said method comprises pre-heating the make-up gas prior to the low temperature adiabatic reforming. 22 . The method of claim 21 , wherein said method comprises de-sulphurizing said make-up gas after pre-heating and prior to the low temperature adiabatic reforming. 23 . The method of claim 22 , wherein said method comprises injecting steam into the stream of make-up gas after de-sulphurizing and prior to the low temperature adiabatic reforming. 24 . The method of claim 23 , wherein said method comprises heating the stream of make-up gas after steam injection and prior to the low temperature adiabatic reforming. 25 . The method of claim 20 , said method comprising subjecting off reducing gas from the direct reduced iron reactor ( 10 ) to at least water separation. 26 . The method of claim 25 , said method comprising mixing the off reducing gas, after the at least water separation, with said pre-treated stream of make-up gas. 27 . The method of claim 25 , said method comprising mixing the off reducing gas, after the at least water separation, with the pre-treated stream of make-up gas subjected to adjust humidity content after the low temperature adiabatic reforming. 28 . The method of claim 25 , said method comprising subjecting the off reducing gas, after the at least water separation, to carbon dioxide removal and possible humidity content adjustment. 29 . The method of claim 28 , said method comprising mixing the off reducing gas, after the carbon dioxide removal and possible humidity content adjustment, with said pre-treated stream of make-up gas. 30 . The method of claim 28 , said method comprising mixing the off reducing gas, after the carbon dioxide removal and possible humidity content adjustment, with a pre-treated stream of make-up gas that has been subjected to adjust humidity content after the low temperature adiabatic reforming. 31 . An apparatus for producing direct reduced iron, said apparatus comprising: a direct reduced iron equipment ( 400 ) comprising a direct reduced iron reactor ( 10 ); wherein said direct reduced iron equipment ( 400 ) is configured for carrying-out a zero-reformer process in which catalytic reformation of the pre-treated make-up gas is carried-out in situ within the direct reduced iron reactor ( 10 ) such that the pre-treated make-up gas is subjected to no further catalytic reaction besides the catalytic reactions that occur inside said direct reduced iron reactor ( 10 ), wherein said apparatus comprises a low temperature adiabatic reforming section ( 300 ) comprising a low temperature adiabatic reforming reactor ( 122 ) configured for subjecting a stream of make-up gas containing heavy hydrocarbons to a low temperature adiabatic reforming at a temperature comprised between 300° C. and 600° C., prior to using said stream of make-up gas as a reducing agent for producing direct reduced iron in said direct reduced iron equipment ( 400 ), in order to obtain a pre-reformed gas suitable for use as a reducing agent for producing direct reduced iron in said direct reduced iron equipment ( 400 ); and in that it comprises a humidity adjustment unit ( 500 ) configured for adjusting humidity content of said stream of make-up gas after the low temperature adiabatic reformer ( 122 ), said humidity adjustment unit ( 500 ) comprising: a bypass ( 131 ) provided with a first branch ( 137 ) and a second branch ( 138 ) to selectively split said stream of make-up gas into a first part ( 128 ) of said stream of make-up gas and a second part ( 130 ) of said stream of make-up gas; a water separation unit ( 136 ) associated to said first branch ( 137 ) and configured for subjecting said first part ( 128 ) to a water separation to be then mixed with said second part ( 130 ) to obtain a reducing stream ( 146 ) to be sent to said direct reduced iron equipment ( 400 ). 32 . The apparatus of claim 31 , wherein said low temperature adiabatic reforming section ( 300 ) comprises a gas pre-heater ( 104 ) upstream the low temperature adiabatic reformer ( 122 ). 33 . The apparatus of claim 32 , wherein said low temperature adiabatic reforming section ( 300 ) comprises a de-sulphurizer ( 108 ) downstream of the gas pre-heater ( 104 ) and upstream of the low temperature adiabatic reformer ( 122 ). 34 . The apparatus of claim 33 , wherein said low temperature adiabatic reforming section ( 300 ) comprises a steam source ( 112 ) for injecting steam ( 114 ) into the stream of make-up gas after the de-sulphurizer ( 108 ) and upstream of the low temperature adiabatic reformer ( 122 ). 35 . The apparatus of claim 34 , wherein said low temperature adiabatic reforming section ( 300 ) comprises a heater ( 118 ) after the steam injection ( 114 ) and upstream of the low temperature adiabatic reformer ( 122 ). 36 . The apparatus of claim 31 , said apparatus further comprising a water separation unit ( 36 ) for subjecting off reducing gas from the direct reduced iron reactor ( 10 ) to at least water separation. 37 . The apparatus of claim 36 , said apparatus further comprising a carbon dioxide removal and possible humidity content adjustment section ( 800 ), for removing carbon dioxide from the off reducing gas after the water separation unit ( 36 ). 38 . The apparatus of claim 37 , wherein said carbon dioxide removal and possible humidity content adjustment section ( 800 ) is connected to a connection pipe ( 151 ) provided to connect said humidity adjustment unit ( 500 ) to the direct reduced iron equipment ( 400 ).