Flow dependent finned tube
First Claim
1. An enhanced finned tube comprising:
- a fin having a base portion and an opposite tip portion, the base portion being provided with a proximal edge and an opposite distal area, the proximal edge being attached helically to a tube so the fin extends outwardly from the tube, the distal area being attached to the tip portion, wherein the fin has at least three zones, each said zone being configured to enhance heat transfer for the fluid flow condition encountered at that zone when the finned tube is in use in a heat exchange process, wherein the zones comprise an upstream zone which encounters fluid flowing toward the finned tube, a sidestream zone which encounters fluid flowing past the finned tube, and a downstream zone which encounters fluid flowing away from the finned tube, and wherein the tip portion of the upstream zone is serrated into segments provided with indentations to increase the surface area of the segments.
6 Assignments
0 Petitions
Accused Products
Abstract
The present invention is based upon the recognition that three different zones of heat transfer conditions exist on a finned tube:
1. The upstream zone (portion) of the finned tube that is initially exposed to the fluid flowing from a given location;
2. Zones that include the areas on opposite sides of the finned tube where the fluid flows around the finned tube and across (through) the fins; and
3. A zone that is located on the trailing edge of the finned tube (opposite from the first zone).
The invention recognizes that the fluid flowing conditions (temperature, pressure and velocity) are different at each of the three zones. Because of this difference the invention is the use of a different fin configuration and/or geometry in each of the zones that are conducive to the heat transfer for the fluid flow condition encountered at each zone, thus increasing the heat transfer capability of the fins.
15 Citations
7 Claims
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1. An enhanced finned tube comprising:
a fin having a base portion and an opposite tip portion, the base portion being provided with a proximal edge and an opposite distal area, the proximal edge being attached helically to a tube so the fin extends outwardly from the tube, the distal area being attached to the tip portion, wherein the fin has at least three zones, each said zone being configured to enhance heat transfer for the fluid flow condition encountered at that zone when the finned tube is in use in a heat exchange process, wherein the zones comprise an upstream zone which encounters fluid flowing toward the finned tube, a sidestream zone which encounters fluid flowing past the finned tube, and a downstream zone which encounters fluid flowing away from the finned tube, and wherein the tip portion of the upstream zone is serrated into segments provided with indentations to increase the surface area of the segments. - View Dependent Claims (2, 3)
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4. An enhanced finned tube comprising:
a fin having a base portion and an opposite tip portion, the base portion being provided with a proximal edge and an opposite distal area,, the proximal edge being attached helically to a tube so the fin extends outwardly from the tube, the distal area being attached to the tip portion, wherein the fin has at least three zones, each said zone being configured to enhance heat transfer for the fluid flow condition encountered at that zone when the finned tube is in use in a heat exchange process, wherein the zones comprise an upstream zone which encounters fluid flowing toward the finned tube, a sidestream zone which encounters fluid flowing past the finned tube, and a downstream zone which encounters fluid flowing away from the finned tube, and wherein the tip portion of the downstream zone is serrated into segments provided with vertical pattern indentations t improve gas flow. - View Dependent Claims (5)
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6. An enhanced finned tube comprising:
a fin having a base portion and an opposite tip portion, the base portion being provided with a proximal edge and an opposite distal area, the proximal edge being attached helically to a tube so the fin extends outwardly from the tube, the distal area being attached to the tip portion, wherein the fin has at least three zones, each said zone being configured to enhance heat transfer for the fluid flow condition encountered at that zone when the finned tube is in use in a heat exchange process, wherein the zones comprise an upstream zone which encounters fluid flowing toward the finned tube, a sidestream zone which encounters fluid flowing past the finned tube, and a downstream zone which encounters fluid flowing away from the finned tube, and wherein the tip portion of the sidestream zone is plain spiral fin material. - View Dependent Claims (7)
Specification