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Ships and Offshore Structures Volume 19, 2024 - Issue 5
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Articles

Oblique wave trapping by a permeable wall breakwater connected with thick surface porous layer

E. Dhanunjayaa Department of Civil Engineering, Jawaharlal Nehru Technological University Anantapur, Ananthapuramu, Andhra Pradesh, India
,
V. Venkateswarlub Department of Civil Engineering, National Institute of Technology Srinagar, Hazratbal, Jammu and Kashmir, IndiaCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-7287-4693
ORCID Icon &
E. Sanjeeva Rayuduc Department of Civil Engineering, G. Pulla Reddy Engineering College, Kurnool, Affiliated to Jawaharlal Nehru Technological University Anantapur, Ananthapuramu, Andhra Pradesh, India
Pages 594-609 | Received 12 Dec 2022, Accepted 22 Mar 2023, Published online: 30 Mar 2023

References

  • Athul Krishna KR, Abdulla K, Karmakar D. 2023. Dissipation of gravity waves due to submerged porous plate coupled with porous structures. J Offshore Mech Arct Eng. 145(1):011201.
  • Barman KK, Bora SN. 2020. Linear water wave interaction with a composite porous structure in a two-layer fluid flowing over a step-like sea-bed. Geophys Astrophys Fluid Dyn. 115(5-6):577–611.
  • Barman KK, Bora SN. 2021. Elastic bottom effects on ocean water wave scattering by a composite caisson-type breakwater placed upon a rock foundation in a two-layer fluid. Int J Appl Mech. 13(10):2150114.
  • Barman SC, Boral S, Sahoo T. 2023. Bragg scattering of flexural-gravity waves by a series of polynyas in the context of blocking dynamics. Phys Fluids. 35(1):016601.
  • Dalrymple RA, Losada MA, Martin PA. 1991. Reflection and transmission from porous structures under oblique wave attack. J Fluid Mech. 224:625–644.
  • Garcia N, Lara JL, Losada IJ. 2004. 2-D numerical analysis of near-field flow at low-crested permeable breakwaters. Coastal Eng. 51(10):991–1020.
  • Guanche R, Iturrioz A, Losada IJ. 2015. Hybrid modeling of pore pressure damping in rubble mound breakwaters. Coastal Eng. 99:82–95.
  • Hu J, Liu PL. 2018. A unified coupled-mode method for wave scattering by rectangular-shaped objects. Appl Ocean Res. 79:88–100.
  • Hu J, Zhao Y, Liu PL-F. 2019. A model for obliquely incident wave interacting with a multi-layered object. Appl Ocean Res. 87(2019):211–222.
  • Isaacson M, Baldwin J, Allyn N, Cowdell S. 2000. Wave interactions with perforated breakwater. J Waterw Port Coastal Ocean Eng. 126(5):229–235.
  • Koley S, Behera H, Sahoo T. 2015. Oblique wave trapping by porous structures near a wall. J Eng Mech. 141(3):04014122.
  • Kumaran V, Neelamani S, Vijay KG, Al-Anjari N, Al-Ragum A. 2022. Wave attenuation by multiple slotted barriers with a zig-zag arrangement -A physical and numerical approach. J Hydro-environ Res. 41:25–37.
  • Lara JL, Garcia N, Losada IJ. 2006. RANS modelling applied to random wave interaction with submerged permeable structures. Coastal Eng. 53(5-6):395–417.
  • Liu PLF, Lin P, Chang KA, Sakakiyama T. 1999. Numerical modeling of wave interaction with porous structures. J Waterw Port Coastal Ocean Eng. 125(6):322–330.
  • Liu Y, Li HJ. 2013. Wave reflection and transmission by porous breakwaters: A new analytical solution. Coastal Eng. 78:46–52.
  • Liu Y, Li Y, Teng B. 2007a. Wave interaction with a new type perforated breakwater. Acta Mech Sin. 23(4):351–358.
  • Liu Y, Li YC, Teng B. 2007b. Wave interaction with a perforated wall breakwater with a submerged horizontal porous plate. Ocean Eng. 34(17-18):2364–2373.
  • Losada IJ, Silva R, Losada MA. 1996. 3-D non-breaking regular wave interaction with submerged breakwaters. Coastal Eng. 28(1-4):229–248.
  • Madsen PA. 1983. Wave reflection from a vertical permeable wave absorber. Coastal Eng. 7(4):381–396.
  • Mallayachari V, Sundar V. 1994. Reflection characteristics of permeable seawalls. Coastal Eng. 23(1-2):135–150.
  • Meng QR, Lu DQ. 2016. Scattering of gravity waves by a porous rectangular barrier on a seabed. J Hydrodyn Ser B. 28(3):519–522.
  • Nishad CS, Neelamani S, Vijay KG. 2021. Hydrodynamic analysis of a seaside quarter-circular breakwater with an array of porous cages using DBEM. Coastal Eng J. 63(2):126–141.
  • Panduranga K, Koley S, Sahoo T. 2021. Surface gravity wave scattering by multiple slatted screens placed near a caisson porous breakwater in the presence of seabed undulations. Appl Ocean Res. 111:102675.
  • Praveen KM, Venkateswarlu V, Karmakar D. 2022a. Hydroelastic response of floating elastic plate in the presence of vertical porous barriers. Ships Offsh Struct. 17(2):457–471.
  • Praveen KM, Venkateswarlu V, Karmakar D. 2022b. Wave transformation due to finite floating elastic plate with abrupt change in bottom topography. Ships Offsh Struct. 17(8):1824–1842.
  • Sahoo H, Gayathri R, Khan MB, Behera H. 2022. Hybrid boundary element and eigenfunction expansion method for wave trapping by a floating porous box near a rigid wall. Ships Offsh Struct. 1–11.
  • Sahoo T, Lee MM, Chwang AT. 2000. Trapping and generation of waves by vertical porous structures. J Eng Mech. 126(10):1074–1082.
  • Sarkar B, De S. 2023. Oblique wave diffraction by a bottom-standing thick barrier and a pair of partially immersed barriers. J Offshore Mech Arct Eng. 145(1):010905.
  • Sollitt CK, Cross RH. 1972. Wave transmission through permeable breakwaters. Coastal Eng Proc. 1827–1846.
  • Sreebhadra MN, Krishna KA, Karmakar D. 2022. Wave trapping due to composite pile-rock structure coupled with vertical barrier. Proc Inst Mech Eng, Part M: J Eng Marit Environ. 14750902221112712.
  • Tabssum S, Ramakrishnan B. 2022. Wave interaction with a two-layer porous breakwater in the presence of step-type bottom. Acta Mech Sin. 38(11):1–12.
  • Twu SW, Chieu CC. 2000. A highly wave dissipation offshore breakwater. Ocean Eng. 27(3):315–330.
  • Twu SW, Lin DT. 1991. On a highly effective wave absorber. Coastal Eng. 15(4):389–405.
  • Twu SW, Liu CC. 2004. Interaction of non-breaking regular waves with a periodic array of artificial porous bars. Coastal Eng. 51(3):223–236.
  • Venkateswarlu V, Karmakar D. 2020a. Wave motion over stratified porous absorber combined with seaward vertical barrier. Proc Inst Mech Eng, Part M: J Eng Marit Environ. 234(4):830–845.
  • Venkateswarlu V, Karmakar D. 2020b. Gravity wave trapping by series of horizontally stratified wave absorbers away from seawall. J Offshore Mech Arct Eng. 142(6):061201.
  • Venkateswarlu V, Praveen KM, Karmakar D. 2020. Surface gravity wave scattering by multiple energy absorbing structures of variable horizontal porosity. Coastal Eng J. 62(4):504–526.
  • Venkateswarlu V, Praveen KM, Vijay KG, Anil K, Karmakar D. 2022. Oblique wave interaction with a two-layer pile-rock breakwater placed on elevated bottom. Ships Offsh Struct. 17(4):852–865.
  • Venkateswarlu V, Vijay KG, Nishad CS. 2021. Iterative dual boundary element analysis of a wavy porous plate near an inclined seawall. Ocean Eng. 235:109242.
  • Vijay KG, Sahoo T. 2019. Scattering of surface gravity waves by a pair of floating porous boxes. J Offshore Mech Arct Eng. 141(5).
  • Vijay KG, Sahoo T, Datta R. 2020. Wave-induced responses of a floating structure near a wall in the presence of permeable plates. Coastal Eng J. 62(1):35–52.
  • Vijay KG, Venkateswarlu V, Nishad CS. 2021. Wave scattering by inverted trapezoidal porous boxes using dual boundary element method. Ocean Eng. 219:108149.
  • Yip TL, Chwang AT. 2000. Perforated wall breakwater with internal horizontal plate. J Eng Mech. 126(5):533–538.
  • Yu X, Chwang AT. 1994. Wave motion through porous structures. J Eng Mech. 120(5):989–1008.
  • Zhu S, Chwang AT. 2001. Analytical study of porous wave absorber. J Eng Mech. 127(4):326–332.

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