Patent ID: 6948453
Filing Date: 2005-09-27
Classification: C10G,F28D

Abstract:
1. In a method for thermally cracking a hydrocarbonaceous material to form a cracked product wherein said stream is passed through at least one furnace to cause said cracking and form a furnace product, said furnace product being transferred from said furnace in a first flow direction to at least one tube-type heat exchanger which has an upstream end and a downstream end and which contains a plurality of longitudinally extending spaced apart hollow interior heat exchange tubes extending from said upstream end to said downstream end for transporting said furnace product through said heat exchanger, the longitudinal axes of said tubes being essentially in alignment with said first flow direction and extending from said upstream end of said tubes and heat exchanger to said downstream end of said tubes and heat exchanger, said upstream ends of said tubes being inlet ends that terminate with a tube sheet face, said transfer from said furnace to said heat exchanger being effected through at least one transfer line which has an open interior that ends at its downstream end at a conical adapter carried on the upstream end of said heat exchanger, said adapter having an open interior, a small cross sectional upstream end adjacent said transfer line and a larger cross sectional downstream end adjacent said upstream tube face sheet, said small end operationally connecting said interior of said transfer line to said interior of said adapter, said large end operationally connecting said interior of said adapter through said upstream tube sheet face and tube inlet ends to said hollow interiors of said tubes, said transfer line carrying a first mass flow rate of said furnace product, the improvement comprising providing an increased number of heat exchange tubes in said heat exchanger and providing said adapter with a larger cross sectional downstream end thereby resulting in a second lower mass flow rate through said adapter and tubes, passing said furnace product at said first mass flow rate through said transfer line and said second lower mass flow rate through said adapter in said first flow direction to said tube sheet face and then through said hollow interiors of said tubes toward said downstream end of said heat exchanger at said second mass flow rate that is less than said first mass flow rate, and at least part of the time said furnace product is passed through said transfer line and adapter injecting liquid water into said furnace product upstream of said tube sheet face.