首页> 美国政府科技报告 >Modeling Interactions of Surface-Subsurface Flow Using a Free-Surface Overland Flow Boundary Condition in a Parellel Flow Simulator

【24h】

Modeling Interactions of Surface-Subsurface Flow Using a Free-Surface Overland Flow Boundary Condition in a Parellel Flow Simulator

机译：在parellel流动模拟器中使用自由表面陆上流动边界条件模拟地表 - 地下流动的相互作用

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

Models incorporating interactions between surface and subsurface flow are commonly based on the conductance concept that presumes a distinct interface at the land surface, separating the surface from the subsurface domain. In these models the subsurface and surface domains are linked via an exchange flux that depends upon the magnitude and direction of the hydraulic gradient across the interface and a proportionality constant (a measure of the hydraulic connectivity). Because experimental evidence of such a distinct interface is often lacking in the field, a more general coupled modeling approach would be preferable. We present a more general approach that incorporates a two-dimensional overland flow simulator into the parallel three-dimensional variably saturated subsurface flow code ParFlow developed at LLNL. This overland flow simulator takes the form of an upper, free-surface boundary condition and is, thus, fully integrated without relying on the conductance concept. Another advantage of this approach is the efficient parallelism of ParFlow, which is exploited by the overland flow simulator. Several verification and simulation examples are presented that focus on the two main processes of runoff production: excess infiltration and saturation. The usefulness of our approach is demonstrated in an application of the model to an urban watershed. The influence of heterogeneity of the shallow subsurface on overland flow and transport is also examined.

著录项

作者
Kollet, S. J.;
展开▼
作者单位

展开▼
年度 2005
页码 p.1-8
总页数 8
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Boundary conditions; Subsurface waters; Surface waters; Hydraulics; Production; Modeling; Runoff; Saturation; Simulation; Simulators; Transport; Verification; Water resources;

机译：边界条件;地下水;地表水;水力学;生产;模拟;径流;饱和度;模拟;模拟器;运输;验证;水资源;

相似文献

外文文献
中文文献
专利

1. Integrated surface-groundwater flow modeling: A free-surface overland flow boundary condition in a parallel groundwater flow model [J] . Stefan J. Kollet, Reed M. Maxwell Advances in Water Resources . 2006,第7期

机译：集成的地表-地下水流模型：并行地下水流模型中的自由表面陆上流边界条件
2. Junction and Drop-Shaft Boundary Conditions for Modeling Free-Surface, Pressurized, and Mixed Free-Surface Pressurized Transient Flows [J] . Arturo S. Leon, Xiaofeng Liu, Mohamed S. Ghidaoui, Journal of Hydraulic Engineering . 2010,第10期

机译：用于模拟自由表面，增压和混合自由表面增压瞬态流的连接和落井边界条件
3. Hybrid SW-NS SPH models using open boundary conditions for simulation of free-surface flows [J] . Ni Xingye, Feng Weibing, Huang Shichang, Ocean Engineering . 2020,第Jana15期

机译：混合SW-NS SPH模型，使用开放边界条件模拟自由表面流
4. ON BOUNDARY CONDITIONS FOR FREE-SURFACE FLOWS [C] . Adrian S. Sabau, Peter E. Raad ASME/JSME Joint Fluids Engineering Conference . 2000

机译：关于自由表面流动的边界条件
5. Development of two- and three-dimensional simulator for three-phase flow with general initial and boundary conditions on the fractional flow approach. [D] . Suk, Heejun. 2003

机译：在分数流方法上，针对具有一般初始条件和边界条件的三相流二维和三维模拟器的开发。
6. Computational Modeling of the Liver Arterial Blood Flow for Microsphere Therapy: Effect of Boundary Conditions [O] . Amirtahà Taebi, Rex M. Pillai, Bahman S. Roudsari, 2020

机译：微球疗法肝动脉血流量的计算模型：边界条件的影响
7. Surface-subsurface flow modeling with path-based runoff routing, boundary condition-based coupling, and assimilation of multisource observation data [O] . M. Camporese, C. Paniconi, M. Putti, 2010

机译：具有基于路径的径流路径，基于边界条件的耦合以及同化多源观测数据的地表-地下流建模

Modeling Interactions of Surface-Subsurface Flow Using a Free-Surface Overland Flow Boundary Condition in a Parellel Flow Simulator

摘要

著录项

相似文献

相关主题

期刊订阅