Coastal Engineering is an international medium for coastal engineers and scientists. Combining practical applications with modern technological and scientific approaches, such as mathematical and numerical modelling, laboratory and field observations and experiments, it publishes fundamental studies as well as case studies on the following aspects of coastal, harbour and offshore engineering: waves, currents and sediment transport; coastal, estuarine and offshore morphology; technical and functional design of coastal and harbour structures; morphological and environmental impact of coastal, harbour and offshore structures.
海岸工程是一个国际性的海岸工程师和科学家的媒介。它将实际应用与现代技术和科学方法相结合,如数学和数值模拟、实验室和实地观察和实验,出版关于海岸、港口和近海工程下列方面的基础研究和案例研究:波浪、水流和泥沙输送;海岸、河口和近海地貌;海岸和港口结构的技术和功能设计;海岸、港口和近海建筑物形态和环境影响。
Effect of seepage flow on sediment incipient motion around a free spanning pipeline
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.10.012
Wave damping by flexible vegetation: Connecting individual blade dynamics to the meadow scale
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.01.008
Stability analysis of a non-conventional breakwater for wave energy conversion
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.12.008
Prediction of wave runup on beaches using Gene-Expression Programming and empirical relationships
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.10.006
An analytical model of wave overtopping flow velocities on dike crests and landward slopes
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.03.001
The influence of shelf bathymetry and beach topography on extreme total water levels: Linking large-scale changes of the wave climate to local coastal hazards
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.03.012
Combined wave-current induced excess pore-pressure in a sandy seabed: Flume observations and comparisons with theoretical models
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.02.006
An automated threshold selection method based on the characteristic of extrapolated significant wave heights
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.12.001
A loading model for an OWC caisson based upon large-scale measurements
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.12.004
Use of impulses to determine the reaction force of a hydraulic structure with an overhang due to wave impact
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.02.003
SPH simulation of floating structures with moorings
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103560
Numerical modelling of landslide-tsunami propagation in a wide range of idealised water body geometries
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103518
Probabilistic assessment of port operation downtimes under climate change
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.01.007
Full-scale CFD simulation of tsunamis. Part 2: Boundary layers and bed shear stresses
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.04.011
On the operational use of UAVs for video-derived bathymetry
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103527
Experimental analysis of tsunamis generated by the impact of landslides with high mobility
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103538
Scour development around a jacket structure in combined waves and current conditions compared to monopile foundations
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103515
Full-scale CFD simulation of tsunamis. Part 1: Model validation and run-up
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.04.012
Current-induced scour at monopile foundations subjected to lateral vibrations
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.10.011
The response of vegetated dunes to wave attack
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103506
Semi-automatic detection of the overtopping waves and reconstruction of the overtopping flow characteristics at coastal structures
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103533
A Genetic Programming based formula for wave overtopping by crown walls and bullnoses
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103529
3D numerical simulation of wave transmission for low-crested and submerged breakwaters
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103517
Surface wave attenuation by vegetation with the stem, root and canopy
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103509
Predictive multi-hazard hurricane data-based fragility model for residential homes
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.04.008
Spatial and temporal distributions of turbulence under bichromatic breaking waves
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.01.006
High-resolution wave climate hindcast around Japan and its spectral representation
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.04.013
Field-based numerical model investigation of wave propagation across marshes in the Chesapeake Bay under storm conditions
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.11.001
A numerical study of sheet flow driven by velocity and acceleration skewed near-breaking waves on a sandbar using SedWaveFoam
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103526
Field measurements and hydrodynamic modelling to evaluate the importance of factors controlling overwash
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103523
CFD simulations of violent breaking wave impacts on a vertical wall using a two-phase compressible solver
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103564
Equation for ship wave crests in the entire range of water depths
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103542
Modelling of depth-induced wave breaking in a fully nonlinear free-surface potential flow model
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103579
Field data-based evaluation of methods for recovering surface wave elevation from pressure measurements
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.04.006
Linear depth inversion sensitivity to wave viewing angle using synthetic optical video
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103535
Wave reflection and saturation on natural beaches: The role of the morphodynamic beach state in incident swash
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103540
Investigation of spatial and short-term temporal nearshore sandy sediment strength using a portable free fall penetrometer
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.10.013
Physical model of scour at the toe of rock armoured structures
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103572
The lifetime of shoreface nourishments in fields with nearshore sandbar migration
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103521
Lifeguarding Operational Camera Kiosk System (LOCKS) for flash rip warning: Development and application
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103537
Applying dynamically updated nearshore bathymetry estimates to operational nearshore wave modeling
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2018.12.005
Predicting the hydrodynamic response of a coastal reef-lagoon system to a tropical cyclone using phase-averaged and surfbeat-resolving wave models
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103525
Towards efficient uncertainty quantification with high-resolution morphodynamic models: A multifidelity approach applied to channel sedimentation
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103520
Stability of cover stones around a vertical cylinder under the influence of waves and current
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103563
Resolving combined wave-current fields from measurements using interior point optimization
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.03.008
Effect of bed roughness on tsunami-like waves and induced loads on buildings
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103508
Aftereffect of high-order nonlinearity on extreme wave occurrence from deep to intermediate water
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103559
Discussion of “Field-based numerical model investigation of wave propagation across marshes in the Chesapeake Bay under storm conditions” by Juan L. Garzon, Tyler Miesse and Celso M. Ferreira
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.03.005
A numerical study on nonlinear surface wave evolution over viscoelastic mud
来源期刊:Coastal EngineeringDOI:10.1016/j.coastaleng.2019.103557
Experimental observations of tsunami induced scour at onshore structures
来源期刊:Coastal EngineeringDOI:10.1016/J.COASTALENG.2019.103505
