Patent ID: 6846469

Claim:
A method for operating a fixed bed reactor having an operating life for reacting a feedstock said fixed bed reactor comprising a fixed catalyst bed having a top layer and a bottom layer, wherein during operation of said fixed bed reactor a feedstock flow passes through said fixed catalyst bed and a pressure drop across said top layer of said fixed catalyst bed increases during reaction of said feedstock due to fouling of said top layer of said fixed catalyst bed, the method comprising: (a) placing a bypass apparatus within said fixed catalyst bed in substantial alignment with said feedstock flow through said fixed catalyst bed said bypass apparatus comprising, a cage member embedded in the catalyst bed comprising a first elongated hollow member having a top wall, side walls and a bottom wall, said cage member having openings therein, and a second hollow elongated member for bypassing an increasing amount of said feedstock through said second hollow elongated member into said cage member as said top layer of said fixed bed fouls to create a bypass flow, said second hollow elongated member protruding through said top wall of said cage member and wherein said second hollow elongated member extends above said fixed catalyst bed through said cage member, said second hollow elongated member being sized to regulate said bypass flow, said age member having a substantially larger cross-section than said second hollow elongated member so that said bypass flow exists from said cage member into said bottom layer of said fixed catalyst bed at an effectively reduced velocity, (b) introducing said feedstock into said fixed bed of catalyst material, wherein a majority of said feedstock will flow through said top layer of said fixed bed of catalytic material, and (c) as said top layer of said fixed bed of catalytic material fouls, bypassing said increasing amount of said feedstock to said bottom layer of said fixed bed of catalytic material thereby extending the operating life of said fixed bed reactor; wherein said second hollow elongated member is continuously open to said bypass flow, wherein said al least one fixed catalyst bed contains inert packing material and wherein said feedstock exiting the openings in the cage member enters directly the packing material.