From 0979d496f22da5d61f2e6051a54c76cbccf95713 Mon Sep 17 00:00:00 2001 From: "Edgar P. Burkhart" Date: Fri, 18 Feb 2022 15:37:49 +0100 Subject: [PATCH] Biblio: boulders --- biblio/chapters/literature.tex | 13 +++++++++++-- biblio/library.bib | 9 +++++++++ 2 files changed, 20 insertions(+), 2 deletions(-) diff --git a/biblio/chapters/literature.tex b/biblio/chapters/literature.tex index 9c11206..52106c9 100644 --- a/biblio/chapters/literature.tex +++ b/biblio/chapters/literature.tex @@ -426,6 +426,14 @@ porosity induced friction. \section{Block displacement by waves} +\subsection{Introduction} + +Displacement of blocks or boulders by waves has been a major topic in +understanding the influence of storm and tsunami waves in coastal regions. +Several approaches have been taken to study this phenomenon. In a first part, +we will discuss in-situ studies on displaced boulders. In a second part, we +will review models of block displacements. + \subsection{In-situ studies} \cite{barbano2010large} @@ -435,6 +443,7 @@ porosity induced friction. \cite{biolchi2016} \cite{kennedy2016observations} \cite{erdmann2018boulder} +\cite{cox2018extraordinary} \subsection{Models} @@ -442,7 +451,7 @@ porosity induced friction. \cite{nott2003waves} Submerged boulder: \begin{equation} -u^2 \ge \frac{2\left(\rho_s-\frac{\rho_s}{\rho_w}\right)ag} +u^2 \ge \frac{2\left(\frac{\rho_s}{\rho_w}-1\right)ag} {C_d\left(\frac{ac}{b^2}\right)+C_l} \end{equation} @@ -467,7 +476,7 @@ u^2 \ge \frac{2\left(\frac{\rho_s}{\rho_w}-1\right) gc \cite{kennedy2017extreme} \cite{weiss2017toward} -\cite{bressan2018laboratory} +\cite{bressan2018laboratory} Partially submerged boulders \begin{equation} u^2 \ge \frac{2b_wW}{\rho_w\left(b_DC_DA_{wfs}+b_LC_LA_{wbs}\right)} \end{equation} diff --git a/biblio/library.bib b/biblio/library.bib index 3db701c..07439de 100644 --- a/biblio/library.bib +++ b/biblio/library.bib @@ -1086,3 +1086,12 @@ publisher={Wiley Online Library} } +@article{cox2020systematic, + title={Systematic review shows that work done by storm waves can be misinterpreted as tsunami-related because commonly used hydrodynamic equations are flawed}, + author={Cox, R{\'o}nadh and Ardhuin, Fabrice and Dias, Fr{\'e}d{\'e}ric and Autret, Ronan and Beisiegel, Nicole and Earlie, Claire S and Herterich, James G and Kennedy, Andrew and Paris, Rapha{\"e}l and Raby, Alison and others}, + journal={Frontiers in Marine Science}, + pages={4}, + year={2020}, + publisher={Frontiers} +} +