EFDC(The Environmental Fluid Dynamics Code)模型是由威廉玛丽大学维吉尼亚海洋科学研究所(VIMS,Virginia Institute of Marine Science at the College of William and Mary)的John Hamrick等人开发的三维地表水水质数学模型,可实现河流、湖泊、水库、湿地系统、河口和海洋等水体的水动力学和水质模拟,是一个多参数有限差分...
Environmental engineering Hydrodynamic modeling of the Green Bay of Lake Michigan using the environmental fluid dynamics code THE UNIVERSITY OF WISCONSIN - MILWAUKEE Hector R. Bravo CedilloPaulaIn this project we created a hydrodynamic model of the Lower Green Bay of Lake Michigan in Wisconsin, United...
EFDC(The Environmental Fluid Dynamics Code)模型是由威廉玛丽大学维吉尼亚海洋科学研究所(VIMS,Virginia Institute of Marine Science at the College of William and Mary)的John Hamrick等人开发的三维地表水水质数学模型,可实现河流、湖泊、水库、湿地系统、河口和海洋等水体的水动力学和水质模拟,是一个多参数有限差分...
Our experts have been working with the Environmental Fluid Dynamics Code (EFDC) since its early development and have experienced its problems first hand. We know that accuracy is critical for your projects, so our version of EFDC (EFDC+) has been significantly updated to provide robust, accurate...
M. 1996. User's manual for the environmental fluid dynamics computer code. Special Report No. 331. Gloucester Point, Va.: The College of William and ... J Hamrick 被引量: 0发表: 1996年 Appendix A: Environmental Fluid Dynamics Code M. 2007. The Environmental Fluid Dynamics Code: User Man...
随着人们对环境问题认识的不断提高以及计算机科学的迅速发展,环境过程的模拟及再现已成为当今环境科学与地球化学领域的热点。环境流体动力学代码(Environmental Fluid Dynamics Code, EFDC)模型是由美国弗吉尼亚州海洋研究所(VIMS)根据多个数学模型集成开发的综合模型。基
A deformable microfluidic system and a fluidic dynamic model have been successfully coupled to understand the dynamic fluid–structure interaction in transient flow, designed to understand the dentine hypersensitivity caused by hydrodynamic theory. The P
Atmospheric injection of volcanic ash during eruptions is a threat to aviation. Reliable forecast of airborne ash dispersal relies on empirical and numerical models. Key inputs into these models are so-called eruption source parameters such as the rate a
As developing tissues grow in size and undergo morphogenetic changes, their material properties may be altered. Such changes result from tension dynamics at cell contacts or cellular jamming. Yet, in many cases, the cellular mechanisms controlling the ph
and associated flow bulking in landslide-prone areas and debris-flow torrents are a major concern for civil and environmental engineers and landuse planners, and require a cost-intensive remediation. Estimations of flow volume, velocity, and the travel distance are key for assessment of mass flow ...