A thermal cracking tube is adapted to suppress pressure losses while maintaining heat transfer promoting effect on the fluid inside the tube. The tube has a plurality of projections rows extending circumferentially along inner surface of the tube orthogonal to or as inclined with respect to the axis
A thermal cracking tube is adapted to suppress pressure losses while maintaining heat transfer promoting effect on the fluid inside the tube. The tube has a plurality of projections rows extending circumferentially along inner surface of the tube orthogonal to or as inclined with respect to the axis of tube, each of the projection rows including a plurality of projections provided on the tube inner surface. The tube is defined by S/10πD=0.2−0.7, h/D=0.02−0.05 and L/πD=0.04−0.5. D is inner diameter of the tube, h is height of projection A arbitrarily chosen in a projection row α, L is length of circular arc of projection A in a direction orthogonal to tube axis, and S is area of a region R surrounded by projection A, phantom lines L1 and L2 (extending respectively from circumferentially opposite ends of projection A in parallel to tube axis) and projection row β downstream from projection row α.
대표청구항▼
1. A thermal cracking tube for thermally cracking a hydrocarbon fluid material passing through the tube from one end thereof toward the other end, the tube comprising: an inner surface; anda plurality of rows of projections extending circumferentially along the inner surface of the tube orthogonal t
1. A thermal cracking tube for thermally cracking a hydrocarbon fluid material passing through the tube from one end thereof toward the other end, the tube comprising: an inner surface; anda plurality of rows of projections extending circumferentially along the inner surface of the tube orthogonal to or as inclined with respect to the axis of tube, each of the projection rows including a plurality of projections provided on the tube inner surface,wherein the thermal cracking tube satisfying following conditions: 0.2≦S/10πD≦0.7,0.02≦h/D≦0.05, and0.04≦L/πD≦0.5,wherein D is the inside diameter in mm of the tube,10πD is an interior area in mm2 of the tube having the inside diameter D over a unit longitudinal length of 10 mm,h is the height in mm of projection A arbitrarily chosen from the plurality of projections included in a first projection row α,L is the length in mm of circular arc of the projection A in a direction orthogonal to the tube axis, andS is the area in mm2 of a region R surrounded by the projection A,lines L1 and L2 extending respectively from circumferentially opposite ends of the projection A in parallel to the tube axis, anda second projection row β adjacent to and downstream from the projection row α. 2. The hydrocarbon thermal cracking tube according to claim 1 which is defined by s/πD ≦0.05, wherein s is the length of a circular arc orthogonal to the tube axis and corresponding to the end-to-end circular arc distance between the projection A and a second projection A′ adjacent thereto in the projection row α. 3. The hydrocarbon thermal cracking tube according to claim 1, wherein between the phantom lines L1 and L2 at one side of the projection A of the projection row α downstream therefrom axially of the tube, the projection row β has at least one projection B as opposed to the projection A. 4. The hydrocarbon thermal cracking tube according to claim 3, wherein the projection B extend over at least 50% of the circular arc length of a space defined by the lines L1 and L2. 5. The hydrocarbon thermal cracking tube according to claim 1 wherein the projection row a and the projection row β are provided generally in parallel, and the region R is approximately parallelogrammatic. 6. The hydrocarbon thermal cracking tube according to claim 1 wherein the total sum ΣS of the areas S for all the projections formed on the inner surface of the tube is at least 80% of the total inner surface area of the tube. 7. The hydrocarbon thermal cracking tube according to claim 1 wherein the projection row α and the projection row β extend helically. 8. The hydrocarbon thermal cracking tube according to claim 1 wherein the projection row α and the projection row β are each provided orthogonal to the tube axis. 9. The hydrocarbon thermal cracking tube according to claim 1 wherein the tube is 30 to 200 mm in inside diameter D. 10. The hydrocarbon thermal cracking tube according to claim 2 wherein the total sum ΣS of the areas S for all the projections formed on the inner surface of the tube is at least 80% of the total inner surface area of the tube. 11. A thermal cracking tube for thermally cracking a hydrocarbon fluid material passing through the tube from one end thereof toward the other end, the tube comprising: an inner surface; anda plurality of rows of projections extending circumferentially along the inner surface of the tube orthogonal to or as inclined with respect to the axis of tube, each of the projection rows including at least 6 projections provided on the tube inner surface,wherein the thermal cracking tube satisfying following conditions: 0.2≦S/10πD≦0.7,0.02≦h/D≦0.05, and0.04≦L/πD≦0.5,wherein D is the inside diameter in mm of the tube,10πD is an interior area in mm2 of the tube having the inside diameter D over a unit longitudinal length of 10 mm,h is the height in mm of projection A arbitrarily chosen from the plurality of projections included in a first projection row α,L is the length in mm of circular arc of the projection A in a direction orthogonal to the tube axis, andS is the area in mm2 of a region R surrounded by the projection A,lines L1 and L2 extending respectively from circumferentially opposite ends of the projection A in parallel to the tube axis, anda second projection row β adjacent to and downstream from the projection row α.
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이 특허에 인용된 특허 (1)
Mougin Louis J. (La Crosse WI) Hayes Floyd C. (Onalaska WI), Internally enhanced heat transfer tube.
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