Time fractional diffusion equation for shipping water events simulation

Shipping water (SW) events occur when waves, usually during extreme weather conditions, overtop the deck of vessels or structures. Since SW events take place independently but close enough in time to interact with one another, their simulation requires strong nonlinear equations to achieve an appropriate precision. To avoid using equations with high complexity and computational cost, we explore the use of the time fractional diffusion equation (TFDE) for modeling SW events. The idea behind this proposal is to keep the simplicity of the widely used standard diffusion equation, but employing a generalized derivative of order alpha is an element of [1, 2]. This order can be used to describe an intermediate behavior between diffusion and wave propagation. For the time derivative, we adopted the Caputo fractional derivative. To demonstrate that the TFDE is a suitable model to describe SW events, we present its results compared against data sets of water free surface elevation recorded during SW experiments carried out in a wave flume. The best agreement was found for a fractional order derivative between 1.69 and 1.75. (C) 2020 Elsevier Ltd. All rights reserved.

Automated summary

The article introduces the use of the Time Fractional Diffusion Equation (TFDE) to model Shipping Water (SW) events. Research found that TFDE has good applicability in describing SW events and shows good consistency with data sets of water free surface elevation.