APPLICATION OF SMOOTHED PARTICLE HYDRODYNAMICS IN EVALUATING THE PERFORMANCE OF COASTAL RETROFIT STRUCTURES

Enhancing climate resilience of vertical seawall with retrofitting - A physical modelling study

Dong, Shudi
Abolfathi, Soroush
Salauddin, Md
Tan, Z. H.
Pearson, Jonathan M.

October 2020

Coastal defence structures are playing a vital role in protecting coastal communities from extreme c...

Numerical modelling of coastal structure using SPH-based DualSPHysics model

Hikmatullah Sahib, S.A.T
Ramli, Muhammad Zahir
Fuad, Miskon
Yunus, Kamaruzzaman
Ariffin, E. H.
Jeofry, Muhammad Hafeez

November 2020

Coastal structures are implemented along the coasts as measures to counter coastal erosion and the d...

Smoothed particle hydrodynamics modeling of elevated structures impacted by tsunami-like waves

Reis, Cláudia
Barbosa, André R.
Figueiredo, Jorge
Clain, Stéphane
Lopes, Mário
Baptista, Maria Ana

Accurate characterization of the response of coastal structures when subjected to tsunami-like waves...

Application of smoothed particle hydrodynamics in evaluating the performance of coastal retrofit structures

Abolfathi, Soroush
Shudi, Dong
Borzooei, Sina
Yeganeh-Bakhtiari, Abbas
Pearson, Jonathan

January 2018

This study develops an accurate numerical tool for investigating optimal retrofit configurations in ...

Application of smoothed particle hydrodynamics in evaluating the performance of coastal retrofit structures

Abolfathi, Soroush
Shudi, Dong
Borzooei, Sina
Yeganeh-Bakhtiari, Abbas
Pearson, Jonathan M.

January 2018

This study develops an accurate numerical tool for investigating optimal retrofit configurations in ...

Enhancing climate resilience of vertical seawall with retrofitting - A physical modelling study

Dong, Shudi
Abolfathi, Soroush
Salauddin, Md
Tan, Z. H.
Pearson, Jonathan M.

August 2020

Coastal defence structures are playing a vital role in protecting coastal communities from extreme c...

The influence of geometrical shape changes on wave overtopping : a laboratory and SPH numerical study

Dong, Shudi
Salauddin, Md
Abolfathi, Soroush
Tan, Z. H.
Pearson, Jonathan M.

August 2018

This paper presents laboratory investigations of four “retrofit” suggestions for attenuating the ove...

Smoothed Particle Hydrodynamics Simulation of Wave Overtopping Characteristics for Different Coastal Structures

Pu, J.H
Shao, S

May 2012

This research paper presents an incompressible smoothed particle hydrodynamics (ISPH) technique to i...

Numerical study on wave forces and overtopping over various seawall structures using advanced SPH-based method

Dang, Bao-Loi
Nguyen-Xuan, Hung
Abdel Wahab, Magd

January 2021

Coastal structures are crucial to protect the coastline from destructive impacts induced by sea wave...

Numerical study on wave forces and overtopping over various seawall structures using advanced SPH-based method

Dang, Bao-Loi
Nguyen-Xuan, Hung
Abdel Wahab, Magd

January 2021

Coastal structures are crucial to protect the coastline from destructive impacts induced by sea wave...

Resolution refinement technique in a smoothed particle hydrodynamics numerical flume for coastal engineering applications

Neves, D.R.C.B.
Didier, E.
Teixeira, P.R.F.
Nev, M.G.

January 2013

Numerical modeling of the wave interaction with coastal structures is a challenging issue due t...

Simulation of wave overtopping by an incompressible SPH model

Shao, Songdong
Graham, D.I.
Ji, C.
Reeve, D.E.
James, P.W.
Chadwick, A.J.

January 2006

NoThe paper presents an incompressible Smoothed Particle Hydrodynamics (SPH) model to investigate th...

1 INCOMPRESSIBLE SMOOTHED PARTICLE HYDRODYNAMICS (ISPH) MODELLING OF BREAKWATER OVERTOPPING

Benedict D. Rogers
Maël Morellec
Peter K. Stansby
Alex Skillen

January 2016

This paper describes an investigation into using incompressible smoothed particle hydrodynamics (ISP...

Smoothed Particle Hydrodynamics Simulation of Wave Overtopping Characteristics for Different Coastal Structures

Pu, J.H
Shao, S

May 2012

This research paper presents an incompressible smoothed particle hydrodynamics (ISPH) technique to i...

Study of beach permeability's influence on solitary wave runup with ISPH method

Tsurudome, Chiaki
Liang, Dongfang
Shimizu, Yuma
Khayyer, Abbas
Gotoh, Hitoshi

December 2021

Coastal protections, such as dykes, seawalls, breakwaters and natural beaches can often be considere...

Enhancing climate resilience of vertical seawall with retrofitting - A physical modelling study

Dong, Shudi
Abolfathi, Soroush
Salauddin, Md
Tan, Z. H.
Pearson, Jonathan M.

October 2020

Coastal defence structures are playing a vital role in protecting coastal communities from extreme c...

Numerical modelling of coastal structure using SPH-based DualSPHysics model

Hikmatullah Sahib, S.A.T
Ramli, Muhammad Zahir
Fuad, Miskon
Yunus, Kamaruzzaman
Ariffin, E. H.
Jeofry, Muhammad Hafeez

November 2020

Coastal structures are implemented along the coasts as measures to counter coastal erosion and the d...

Smoothed particle hydrodynamics modeling of elevated structures impacted by tsunami-like waves

Reis, Cláudia
Barbosa, André R.
Figueiredo, Jorge
Clain, Stéphane
Lopes, Mário
Baptista, Maria Ana

Accurate characterization of the response of coastal structures when subjected to tsunami-like waves...

Application of smoothed particle hydrodynamics in evaluating the performance of coastal retrofit structures

Abolfathi, Soroush
Shudi, Dong
Borzooei, Sina
Yeganeh-Bakhtiari, Abbas
Pearson, Jonathan

January 2018

This study develops an accurate numerical tool for investigating optimal retrofit configurations in ...

Application of smoothed particle hydrodynamics in evaluating the performance of coastal retrofit structures

Abolfathi, Soroush
Shudi, Dong
Borzooei, Sina
Yeganeh-Bakhtiari, Abbas
Pearson, Jonathan M.

January 2018

This study develops an accurate numerical tool for investigating optimal retrofit configurations in ...

Enhancing climate resilience of vertical seawall with retrofitting - A physical modelling study

Dong, Shudi
Abolfathi, Soroush
Salauddin, Md
Tan, Z. H.
Pearson, Jonathan M.

August 2020

Coastal defence structures are playing a vital role in protecting coastal communities from extreme c...

The influence of geometrical shape changes on wave overtopping : a laboratory and SPH numerical study

Dong, Shudi
Salauddin, Md
Abolfathi, Soroush
Tan, Z. H.
Pearson, Jonathan M.

August 2018

This paper presents laboratory investigations of four “retrofit” suggestions for attenuating the ove...

Smoothed Particle Hydrodynamics Simulation of Wave Overtopping Characteristics for Different Coastal Structures

Pu, J.H
Shao, S

May 2012

This research paper presents an incompressible smoothed particle hydrodynamics (ISPH) technique to i...

Numerical study on wave forces and overtopping over various seawall structures using advanced SPH-based method

Dang, Bao-Loi
Nguyen-Xuan, Hung
Abdel Wahab, Magd

January 2021

Coastal structures are crucial to protect the coastline from destructive impacts induced by sea wave...

Numerical study on wave forces and overtopping over various seawall structures using advanced SPH-based method

Dang, Bao-Loi
Nguyen-Xuan, Hung
Abdel Wahab, Magd

January 2021

Coastal structures are crucial to protect the coastline from destructive impacts induced by sea wave...

Resolution refinement technique in a smoothed particle hydrodynamics numerical flume for coastal engineering applications

Neves, D.R.C.B.
Didier, E.
Teixeira, P.R.F.
Nev, M.G.

January 2013

Numerical modeling of the wave interaction with coastal structures is a challenging issue due t...

Simulation of wave overtopping by an incompressible SPH model

Shao, Songdong
Graham, D.I.
Ji, C.
Reeve, D.E.
James, P.W.
Chadwick, A.J.

January 2006

NoThe paper presents an incompressible Smoothed Particle Hydrodynamics (SPH) model to investigate th...

1 INCOMPRESSIBLE SMOOTHED PARTICLE HYDRODYNAMICS (ISPH) MODELLING OF BREAKWATER OVERTOPPING

Benedict D. Rogers
Maël Morellec
Peter K. Stansby
Alex Skillen

January 2016

This paper describes an investigation into using incompressible smoothed particle hydrodynamics (ISP...

Smoothed Particle Hydrodynamics Simulation of Wave Overtopping Characteristics for Different Coastal Structures

Pu, J.H
Shao, S

May 2012

This research paper presents an incompressible smoothed particle hydrodynamics (ISPH) technique to i...

Study of beach permeability's influence on solitary wave runup with ISPH method

Tsurudome, Chiaki
Liang, Dongfang
Shimizu, Yuma
Khayyer, Abbas
Gotoh, Hitoshi

December 2021

Coastal protections, such as dykes, seawalls, breakwaters and natural beaches can often be considere...

Enhancing climate resilience of vertical seawall with retrofitting - A physical modelling study

Dong, Shudi
Abolfathi, Soroush
Salauddin, Md
Tan, Z. H.
Pearson, Jonathan M.

October 2020

Coastal defence structures are playing a vital role in protecting coastal communities from extreme c...

Numerical modelling of coastal structure using SPH-based DualSPHysics model

Hikmatullah Sahib, S.A.T
Ramli, Muhammad Zahir
Fuad, Miskon
Yunus, Kamaruzzaman
Ariffin, E. H.
Jeofry, Muhammad Hafeez

November 2020

Coastal structures are implemented along the coasts as measures to counter coastal erosion and the d...

Smoothed particle hydrodynamics modeling of elevated structures impacted by tsunami-like waves

Reis, Cláudia
Barbosa, André R.
Figueiredo, Jorge
Clain, Stéphane
Lopes, Mário
Baptista, Maria Ana

Accurate characterization of the response of coastal structures when subjected to tsunami-like waves...

APPLICATION OF SMOOTHED PARTICLE HYDRODYNAMICS IN EVALUATING THE PERFORMANCE OF COASTAL RETROFIT STRUCTURES

Abstract

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APPLICATION OF SMOOTHED PARTICLE HYDRODYNAMICS IN EVALUATING THE PERFORMANCE OF COASTAL RETROFIT STRUCTURES

Abstract

Extracted data

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