基于SPH方法的红树林消浪数值模拟研究OA
Numerical modeling of wave attenuation by mangroves using smoothed particle hydrodynamics method
在全球气候变化背景下,海岸带侵蚀与风暴潮灾害日益严重,传统硬质防护工程的高成本与生态破坏问题亟待解决.红树林作为一种基于自然的解决方案,因其显著的消浪能力和生态效益成为研究热点.本研究基于光滑粒子流体动力学(SPH)方法,引入Morison圆柱阻力模型模拟植被拖曳力,构建了植被-波浪耦合数值模型.通过分离红树林的根系、茎干和冠层结构,量化了不同部位及其组合对波浪能量的耗散作用,系统分析了白骨壤、角果木、红海榄三种代表性红树在不同水动力条件下的消浪机制.结果表明,根系与冠层的消浪作用显著,而茎层贡献较弱;多部位共存时的消浪效能呈现非线性叠加特征.此外,红树林的消浪效果因形态和密度差异而显著不同:红海榄在浅水区表现最优,白骨壤在中水区效果突出,角果木则在极浅水区体现出了根系较密的消浪优势.研究为红树林生态海岸防护工程的优化设计提供了科学依据.
Under global climate change,coastal erosion and storm surge disasters are becoming increasingly severe,highlighting an urgent need to address high costs and ecological damage caused by traditional hard protection structures.Mangroves,as a nature-based solution,have emerged as a research focus due to their remarkable wave attenuation capacity and ecological benefits.This study develops a vegetation-wave coupled numerical model based on the Smoothed Particle Hydrodynamics(SPH)method and the Morison cylinder resistance model for simulating vegetation drag forces.By isolating the root,stem,and canopy structures of mangroves,we quantify their individual and combined contributions to wave energy dissipation,and examine systematically the wave attenuation mechanisms of three representative mangrove species(Avicennia marina,Ceriops tagal,and Rhizophora stylosa)under varying hydrodynamic conditions.The results demonstrate that roots and canopies play a dominant role in wave dissipation,while stems contribute minimally.The total wave attenuation efficiency follows the nonlinear superposition of the three structural components.And,difference in species is also a major factor of wave dissipation due to their morphological and density differences:Rhizophora stylosa performs best in shallow waters;Avicennia marina best in intermediate water depths;Ceriops tagal with a dense root system best in very shallow waters.This study would lay a basis for further study of mangrove-based ecological coastal protection.
李佳骏;倪兴也;吴浩宇;冯曦
河海大学 港口海岸与近海工程学院,南京 210098河海大学 港口海岸与近海工程学院,南京 210098舟山市交通规划设计院,浙江 舟山 316000河海大学 港口海岸与近海工程学院,南京 210098
建筑与水利
红树林消浪效应SPH方法数值模拟波浪衰减
mangroveswave-dissipation effectSPH methodnumerical simulationwave attenuation
《水力发电学报》 2026 (3)
46-58,13
国家重点研发计划重点专项(2023YFC3007900)自然资源部海洋生态保护与修复重点实验室开放基金课题(EPR2024004)
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