Index: DamEngine/trunk/doc/Dam Engine - Functional Design/UseWBIPipingKernel.tex =================================================================== diff -u -r2221 -r2396 --- DamEngine/trunk/doc/Dam Engine - Functional Design/UseWBIPipingKernel.tex (.../UseWBIPipingKernel.tex) (revision 2221) +++ DamEngine/trunk/doc/Dam Engine - Functional Design/UseWBIPipingKernel.tex (.../UseWBIPipingKernel.tex) (revision 2396) @@ -15,40 +15,40 @@ \section{Uplift (uplift safety)}\label{sec:Uplift} For the uplift calculation DAM uses the DAM uplift calculation described in \autoref{sec:UpliftCalculation} -This function of the kernel is decribed in paragraph 3.3 in \citep{PipingKernel_FunctionalDesign}. +%This function of the kernel is decribed in paragraph 3.3 in \citep{PipingKernel_FunctionalDesign}. +% +%Input of the kernel consists of: +% +%\begin{table}[H] + %\centering + %\begin{tabular}{|p{20mm}|p{20mm}|p{50mm}|p{50mm}|} \hline +%\textbf{Symbol}& \textbf{Unit} & \textbf{Description} & \textbf{Value in DAM} \\ \hline +%h$_{exit}$ & m & phreatic level at the exit point (above reference level NAP) & calculated, see \autoref{sec:PiezHeadUpliftLocation} \\ \hline +%$\Phi _{polder}$ & m & piezometric head in the hinterland (above reference level NAP) & \\HeadPl2 \ \\ \hline +%$\Phi _{exit}$ & m & piezometric head at the exit point (above reference level NAP) & calculated, see \autoref{sec:PiezHeadUpliftLocation} \\ \hline +%r$_{exit}$ & & damping factor at the exit point & calculated, see \autoref{sec:PiezHeadUpliftLocation} \\ \hline +%m$_{u}$ & - & model factor uplift & ? \\ \hline +%D$_{cover,i}$ & m & thickness of the cover sublayer i at the exit point & calculated, see \autoref{sec:DeterminationSoilParameters} \\ \hline +%$\sigma_{eff}$ & kN/m$^{2}$ & effective vertical stress at the bottom of the cover layer & calculated, see \autoref{sec:DeterminationSoilParameters} \\ \hline +%$\gamma_{eff,cover,i}$ & kN/m$^{3}$ & effective volumetric weight of cover sublayer i & calculated, see \autoref{sec:DeterminationSoilParameters} \\ \hline +%$\gamma_{water}$ & kN/m$^{3}$ & volumetric weight of water & 9.81 \\ \hline +%$\gamma$ & m & leakage length on the landside of the dike (hinterland) & New input for DAM \\ \hline + %\end{tabular} + %\caption{Input paramaters} + %\label{tab:InputParametersUplift} +%\end{table} +% +%Output of the kernel for the uplift safety calculation is: +%\begin{itemize} + %\item Z$_u$ (limit state function value) + %\item FoS$_{u}$ (factor of safety) + %\item $\Delta \Phi _{c,u}$ (critical head difference for uplift) + %\item h$_{c,u}$(critical water level for uplift) + %\item D$_{cover,i}$ (effective thickness of the cover layer at exit point) + %\item $\gamma _{eff}$(effective stress at the exit point) + %\item h$_{exit}$(piezometric head at the exit point) +%\end{itemize} -Input of the kernel consists of: - -\begin{table}[H] - \centering - \begin{tabular}{|p{20mm}|p{20mm}|p{50mm}|p{50mm}|} \hline -\textbf{Symbol}& \textbf{Unit} & \textbf{Description} & \textbf{Value in DAM} \\ \hline -h$_{exit}$ & m & phreatic level at the exit point (above reference level NAP) & calculated, see \autoref{sec:PiezHeadUpliftLocation} \\ \hline -$\Phi _{polder}$ & m & piezometric head in the hinterland (above reference level NAP) & \\HeadPl2 \ \\ \hline -$\Phi _{exit}$ & m & piezometric head at the exit point (above reference level NAP) & calculated, see \autoref{sec:PiezHeadUpliftLocation} \\ \hline -r$_{exit}$ & & damping factor at the exit point & calculated, see \autoref{sec:PiezHeadUpliftLocation} \\ \hline -m$_{u}$ & - & model factor uplift & ? \\ \hline -D$_{cover,i}$ & m & thickness of the cover sublayer i at the exit point & calculated, see \autoref{sec:DeterminationSoilParameters} \\ \hline -$\sigma_{eff}$ & kN/m$^{2}$ & effective vertical stress at the bottom of the cover layer & calculated, see \autoref{sec:DeterminationSoilParameters} \\ \hline -$\gamma_{eff,cover,i}$ & kN/m$^{3}$ & effective volumetric weight of cover sublayer i & calculated, see \autoref{sec:DeterminationSoilParameters} \\ \hline -$\gamma_{water}$ & kN/m$^{3}$ & volumetric weight of water & 9.81 \\ \hline -$\gamma$ & m & leakage length on the landside of the dike (hinterland) & New input for DAM \\ \hline - \end{tabular} - \caption{Input paramaters} - \label{tab:InputParametersUplift} -\end{table} - -Output of the kernel for the uplift safety calculation is: -\begin{itemize} - \item Z$_u$ (limit state function value) - \item FoS$_{u}$ (factor of safety) - \item $\Delta \Phi _{c,u}$ (critical head difference for uplift) - \item h$_{c,u}$(critical water level for uplift) - \item D$_{cover,i}$ (effective thickness of the cover layer at exit point) - \item $\gamma _{eff}$(effective stress at the exit point) - \item h$_{exit}$(piezometric head at the exit point) -\end{itemize} - \section{Heave}\label{sec:Heave} This function of the kernel is decribed in paragraph 3.4 in \citep{PipingKernel_FunctionalDesign}. @@ -91,7 +91,8 @@ \begin{tabular}{|p{20mm}|p{20mm}|p{50mm}|p{50mm}|} \hline \textbf{Symbol}& \textbf{Unit} & \textbf{Description} & \textbf{Value in DAM} \\ \hline h & m & river water level (above reference level NAP) &\textcolor[rgb]{0.65,0.16,0}{BoezemLevelTp} or WaterHeight (when using scenarios) \\ \hline -h$_{exit}$ & m & phreatic level at the exit point (above reference level NAP) & calculated, see \autoref{sec:PhreaPlane} \\ \hline +h$_{exit}$ & m & phreatic level at the exit point (above reference level NAP) & calculated +\\ \hline m$_{p}$ & - & model factor piping & 1.0 \\ \hline $\gamma_{water}$ & kN/m$^{3}$ & volumetric weight of water & 9.81 \\ \hline r$_{c}$ & - & reduction factor providing the fraction of the blanket thickness by which the total head difference is reduced due to hydraulic resistance in the vertical exit channels & 0.3 \\ \hline