Scour preventing apparatus for hydraulics structures
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E02D-005/60
E02B-003/26
E02D-005/64
E02D-027/12
E02D-027/52
E02D-031/10
E01D-019/02
E01D-022/00
출원번호
US-0962874
(2015-12-08)
등록번호
US-9453319
(2016-09-27)
발명자
/ 주소
Simpson, Roger Lyndon
Byun, Gwibo
출원인 / 주소
Applied University Research, Inc.
대리인 / 주소
Berenato & White, LLC
인용정보
피인용 횟수 :
0인용 특허 :
14
초록▼
Several practical refinements, extensions, additions, and improvements to the manufactured three-dimensional continuous convex-concave fairing with attached vortex generators are provided. The piecewise continuously varying slope and curvature fairings provide manufacturing cost reductions, as well
Several practical refinements, extensions, additions, and improvements to the manufactured three-dimensional continuous convex-concave fairing with attached vortex generators are provided. The piecewise continuously varying slope and curvature fairings provide manufacturing cost reductions, as well as cost reductions by reducing the frequency and complexity of monitoring practices for bridges and elimination of temporary fixes that require costly annual or periodic engineering studies and construction to mitigate scour on at-risk bridges. The probability of bridge failure and its associated liability to the public is totally avoided since the root cause of local scour is prevented.
대표청구항▼
1. A fairing for a hydraulic structure comprising: a. a piece-wise continuously varying slope and curvature streamlined fairing surface installed around a perimeter of the hydraulic structure and extending from above a river to a bed of the river surrounding the hydraulic structure, the piece-wise c
1. A fairing for a hydraulic structure comprising: a. a piece-wise continuously varying slope and curvature streamlined fairing surface installed around a perimeter of the hydraulic structure and extending from above a river to a bed of the river surrounding the hydraulic structure, the piece-wise continuously varying slope and curvature fairing completely enveloping the hydraulic structure and providing a piece-wise continuously varying slope and curvature faired shape in a direction of flow of the river, wherein the piece-wise continuously varying slope and curvature streamlined fairing surface comprises a plurality of continuously varying slope and curvature surfaces that are assembled together to form the piece-wise continuously varying slope and curvature streamlined fairing surface, and wherein the discontinuity in the piece-wise continuously varying slope and curvature streamlined fairing surface occurs at the intersection of the plurality of the continuously varying slope and curvature surfaces; andb. at least one vortex generator attached to the piece-wise continuously varying slope and curvature fairing surface. 2. The faring of claim 1, wherein a plurality of vortex generators are placed along a longitudinal distance of a stem to stern dimension of said piece-wise continuously varying slope and curvature fairing surface, and being proximal to the bed of the river in a flow region void of adverse pressure gradients that would persist downstream of said vortex generator for at least one length of said generator. 3. The fairing of claim 1, wherein the hydraulic structure is a pier or an abutment. 4. The fairing of claim 3, wherein the pier is a straight pier or a dogleg pier. 5. The fairing of claim 3, wherein the abutment is a wing-wall abutment or a spill-through abutment. 6. The fairing of claim 1, wherein the hydraulic structure is a pier and said vortex generators are positioned on opposed surfaces thereof. 7. The fairing of claim 1, wherein said vortex generators are tetrahedral in shape and include four triangular faces, three of which meet at each vertex. 8. The fairing of claim 1, wherein said vortex generators are constructed of cast-in-place concrete, pre-cast concrete, sprayed concrete, metal, composite, fiber reinforced polymers, or combinations thereof. 9. The fairing of claim 1, wherein the piece-wise continuously varying slope and curvature streamlined fairing surface is constructed of cast-in-place concrete, pre-cast concrete, sprayed concrete, metal, composite, fiber reinforced polymers, or combinations thereof. 10. The fairing of claim 1, wherein the fairing is fit or cast over one or more existing or new hydraulic structures around the base of these structures and above and around their footings. 11. The fairing of claim 1, wherein the plurality of continuously varying slope and curvature surfaces are premanufactured and interlock using matching keys or alignment surfaces among individual premanufactured elements. 12. The fairing of claim 1, wherein a nose section and a stern section are symmetrical. 13. The fairing of claim 1, wherein the fairing comprises asymmetrical rounded nose section and tapered stern section. 14. A method for forming a fairing for a hydraulic structure comprising the steps of: a. installing a piece-wise continuously varying slope and curvature streamlined fairing surface around a perimeter of the hydraulic structure and extending from above a river to a bed of the river surrounding the hydraulic structure, the piece-wise continuously varying slope and curvature fairing completely enveloping the hydraulic structure and providing a piece-wise continuously varying slope and curvature faired shape in a direction of flow of the river, wherein the piece-wise continuously varying slope and curvature streamlined fairing surface comprises a plurality of continuously varying slope and curvature surfaces that are assembled together to form the piece-wise continuously varying slope and curvature streamlined fairing surface, and wherein the discontinuity in the piece-wise continuously varying slope and curvature streamlined fairing surface occurs at the intersection of the plurality of the continuously varying slope and curvature surfaces; andb. attaching at least one vortex generator to the piece-wise continuous fairing surface. 15. The method of claim 14, wherein The fairing of claim 1, wherein a plurality of vortex generators are placed along a longitudinal distance of a stem to stern dimension of said piece-wise continuously varying slope and curvature fairing surface, and being proximal to the bed of the river in a flow region void of adverse pressure gradients that would persist downstream of said vortex generator for at least one length of said generator. 16. The method of claim 14, wherein the hydraulic structure is a pier or an abutment. 17. The method of claim 16, wherein the pier is a straight pier or a dogleg pier. 18. The method of claim 16, wherein the abutment is a wing-wall abutment or a spill-through abutment. 19. The method of claim 14, wherein the piece-wise continuously varying slope and curvature streamlined fairing surface is constructed of cast-in-place concrete, pre-cast concrete, sprayed concrete, metal, composite, fiber reinforced polymers, or combinations thereof. 20. The method of claim 14, wherein the plurality of continuously varying slope and curvature surfaces are premanufactured and interlock using matching keys or alignment surfaces among individual premanufactured elements.
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이 특허에 인용된 특허 (14)
Loer Kenneth H. (Katy TX), Anti-scour apparatus and method.
Oppenheimer M. Leonard (8308 Marcie Dr. Pikesville MD 21208) Saunders Walter S. (208 S. Pulaski St. 4H Baltimore MD 21223), Buoyant matter diverting system.
de Werk Karel J. C. (Ouderkerk a.d. Ijssel NLX), Device for sealing the lower part of a column standing on or in the bottom below a body of water with respect to the sur.
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