adicionar à lista de desejos
Numerical Simulation Of The Gravity-Inertial Spreading Of Oil Using Smoothed Particle Hydrodynamics eBook
Publisher:
CAMBRIDGE SCHOLARS PUBLISHING, September of 2024 ‧
see product details
112,09€
10% OFF
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
IMMEDIATE AVAILABILITY
Ebook for ADE
SYNOPSIS
Oil spills at sea are a severe environmental concern. They can occur during the various stages of well-drilling, repair operations or transportation. The spreading of oil occurs due to the pollutant's tendency to flow over itself. Knowledge of its physical properties during the phenomenon, such as velocities and spatial positions, allows the timely adoption of environmental protection measures. This book presents, in a simple and objective way, the development and implementation of purely Lagrangian numerical modelling using the Smoothed Particle Hydrodynamics (SPH) method for the study of the spreading of oil in its first stage (gravity-inertial regime) on a calm sea. The computational code's implementation and validation were carried out through the simulation of classical problems in the scientific literature, i.e., heat diffusion in a homogeneous flat plate, a still volume of water inside an immobile reservoir and a dam failure. From the coupling of the software with a collision detection and response algorithm, numerical results in concordance with the curve adjusted by James Fay (a pioneering scientist in the study of oil spills) for the prediction of oil slick diameters at the end of the gravity-inertial regime were achieved.
DETAILS
| Property | Description |
|---|---|
| ISBN: | 9781036409111 |
| Publisher: | CAMBRIDGE SCHOLARS PUBLISHING |
| Release Date: | September of 2024 |
| Pages: | 187 |
| Format: | eBook |
| File Format and Compatibility: | PDF para ADE |
| Categories: |
eBooks in English
>
Science
>
Mathematics
|
| EAN: | 9781036409111 |
-
10%Reflective Boundary Conditions In Sph Fluid Dynamics SimulationSpringer International Publishing AG30,41€
33,79€free shipping -
Computational Algorithms For Reflective Boundary Conditions In Sph Fluid Dynamics SimulationSpringer International Publishing AG42,57€free shipping