An apparatus designed to completely vaporize an intake of heavy hydrocarbon feedstock is described. The apparatus, a so-called heavy feed mixer, is comprised of pipes being disposed coaxially about a common longitudinal axis. The inner tubular section delivers a two-phase liquid-vapor mixture of hyd
An apparatus designed to completely vaporize an intake of heavy hydrocarbon feedstock is described. The apparatus, a so-called heavy feed mixer, is comprised of pipes being disposed coaxially about a common longitudinal axis. The inner tubular section delivers a two-phase liquid-vapor mixture of hydrocarbon feedstock and dilution steam to the apparatus. The converging/diverging tubular section has a unique structure which converges to a throat section and then diverges to an outlet section. The converging section directs a uniform shroud of superheated steam onto the hydrocarbon stream delivered by the inner tubular section. Impingement of the superheated steam with the intake stream initiates mixing and further vaporization within the throat section. The mixture traverses the converging/diverging tubular section and passes into the outlet section where vaporization is complete. The completely vaporized stream is directed out of the apparatus for further processing downstream.
대표청구항▼
1. An apparatus for the vaporization of a hydrocarbon feed mixture with steam, said apparatus comprises an outer relatively elongated shell comprising a downstream outlet, an outlet section, a converging/diverging tubular section, an upstream inlet section and an upstream inlet, (a) said upstream in
1. An apparatus for the vaporization of a hydrocarbon feed mixture with steam, said apparatus comprises an outer relatively elongated shell comprising a downstream outlet, an outlet section, a converging/diverging tubular section, an upstream inlet section and an upstream inlet, (a) said upstream inlet section comprising in fluid communication: (i) a frusto-conical inlet section for directing a hydrocarbon feedstock and dilution steam mixture received from the upstream inlet to an inner tubular pipe section, and(ii) said inner tubular pipe section for the passage of said hydrocarbon feedstock and dilution steam mixture from said frusto-conical inlet section through a plate separating the frusto-conical inlet section from the converging/diverging tubular section, said upstream inlet and said upstream inlet section are located at an upstream end of said apparatus;(b) said converging/diverging tubular section comprising (i) an opening section, a converging section, a throat section, and a diverging section, the walls of said diverging section extending to connect to said elongated shell,(ii) at least one steam inlet for receiving steam from an opening disposed along said elongated shell into an outer annular region defined by said plate on the upstream end, said elongated shell, and said diverging section on the downstream end,(iii) wherein said opening section forms an inner annular region around said inner tubular pipe section for receiving steam from said outer annular region and said hydrocarbon feedstock and dilution steam mixture from said inner tubular pipe section and discharges the mixture into the converging section,(iv) wherein said throat section receives the effluent from the converging section, and(v) wherein said diverging section receives the effluent from the throat section; and(c) said outlet section in fluid communication with the diverging section of said converging/diverging tubular section, said outlet section is in fluid communication with said downstream outlet at a downstream end of the apparatus. 2. The apparatus of claim 1, wherein the steam inlet is located along the length of the converging/diverging tubular section between the plate and the down stream end of the diverging section. 3. The apparatus of claim 1, wherein a tangent to a surface of the converging section forms an angle of at least 5 degrees with respect to a longitudinal axis of the apparatus. 4. The apparatus of claim 1, wherein a tangent to a surface of the diverging section forms an angle of at least 5 degrees with respect to a longitudinal axis of the apparatus. 5. The apparatus of claim 1, wherein the plate is integral with an outer surface of the inner tubular pipe section and an inner surface of the elongated shell. 6. The apparatus of claim 5, wherein the plate is positioned between the frusto-conical inlet section and the upstream end of the opening section of the converging/diverging tubular section. 7. The apparatus of claim 1, wherein a diameter of the inner tubular pipe section is smaller than a diameter of the elongated shell and a smallest diameter of the converging/diverging tubular section. 8. The apparatus of claim 1, wherein a diameter of the opening section is greater than a diameter of the throat section, but less than a diameter of the elongated shell. 9. The apparatus of claim 1, wherein a diameter of the inner tubular pipe section is less than a diameter of the opening section.
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