review fixes

acros.tex

@@ -1,12 +1,11 @@
 %\newacronym{<++>}{<++>}{<++>}
-\newacronym{MTHM}{MTHM}{metric ton of heavy metal}
+\newacronym[longplural={metric tons of heavy metal}]{MTHM}{MTHM}{metric ton of heavy metal}
 \newacronym{ABM}{ABM}{agent-based modeling}
 \newacronym{ACDIS}{ACDIS}{Program in Arms Control \& Domestic and International Security}
 \newacronym{ADS}{ADS}{Accelerator-Driven Systems}
 \newacronym{AHTR}{AHTR}{Advanced High Temperature Reactor}
 \newacronym{ANDRA}{ANDRA}{Agence Nationale pour la gestion des D\'echets RAdioactifs, the French National Agency for Radioactive Waste Management}
-\newacronym{ANL}{ANL}{Argonne Natio
-\newacronym{MTHM}{MTHM}{metric ton of heavy metal}nal Laboratory}
+\newacronym{ANL}{ANL}{Argonne National Laboratory}
 \newacronym{ANS}{ANS}{American Nuclear Society}
 \newacronym{API}{API}{application programming interface}
 \newacronym{ARE}{ARE}{Aircraft Reactor Experiment}
@@ -39,7 +38,7 @@
 \newacronym{DSNF}{DSNF}{DOE spent nuclear fuel}
 \newacronym{DYMOND}{DYMOND}{Dynamic Model of Nuclear Development }
 \newacronym{EBS}{EBS}{Engineered Barrier System}
-\newacronym{EDF}{EDF}{Électricité de France}
+\newacronym{EDF}{EDF}{\{E}lectricit`{e} de France}`
 \newacronym{EDZ}{EDZ}{Excavation Disturbed Zone}
 \newacronym{EIA}{EIA}{U.S. Energy Information Administration}
 \newacronym{EPA}{EPA}{Environmental Protection Agency}
@@ -97,6 +96,7 @@
 \newacronym{MSBR}{MSBR}{Molten Salt Breeder Reactor}
 \newacronym{MSRE}{MSRE}{Molten Salt Reactor Experiment}
 \newacronym{MSR}{MSR}{Molten Salt Reactor}
+\newacronym{MTHM}{MTHM}{metric ton of heavy metal}
 \newacronym{NAGRA}{NAGRA}{National Cooperative for the Disposal of Radioactive Waste}
 \newacronym{NEAMS}{NEAMS}{Nuclear Engineering Advanced Modeling and Simulation}
 \newacronym{NEUP}{NEUP}{Nuclear Energy University Programs}
@@ -123,7 +123,7 @@
 \newacronym{PRIS}{PRIS}{Power Reactor Information System}
 \newacronym{PRKE}{PRKE}{Point Reactor Kinetics Equations}
 \newacronym{PSPG}{PSPG}{Pressure-Stabilizing/Petrov-Galerkin}
-\newacronym{PWAR}{PWAR}{Pratt and Whitney Aircraft Reactor}
+\newacronym{PWAR}{PWAR}{Pratt and Whitney Aircraft REeactor}
 \newacronym{PWR}{PWR}{Pressurized Water Reactor}
 \newacronym{PyNE}{PyNE}{Python toolkit for Nuclear Engineering}
 \newacronym{PyRK}{PyRK}{Python for Reactor Kinetics}
@@ -142,11 +142,11 @@
 \newacronym{SUPG}{SUPG}{Streamline-Upwind/Petrov-Galerkin}
 \newacronym{SWF}{SWF}{Separations and Waste Forms}
 \newacronym{SWU}{SWU}{Separative Work Unit}
+\newacronym{ThOX}{ThOX}{thorium oxide}
 \newacronym{TRIGA}{TRIGA}{Training Research Isotope General Atomic}
 \newacronym{TRISO}{TRISO}{Tristructural Isotropic}
 \newacronym{TSM}{TSM}{Total System Model}
 \newacronym{TSPA}{TSPA}{Total System Performance Assessment for the Yucca Mountain License Application}
-\newacronym{ThOX}{ThOX}{thorium oxide}
 \newacronym{UFD}{UFD}{Used Fuel Disposition}
 \newacronym{UML}{UML}{Unified Modeling Language}
 \newacronym{UNF}{UNF}{Used Nuclear Fuel}
@@ -158,4 +158,4 @@
 \newacronym{VVER}{VVER}{Voda-Vodyanoi Energetichesky Reaktor (Russian Pressurized Water Reactor)}
 \newacronym{VV}{V\&V}{verification and validation}
 \newacronym{WIPP}{WIPP}{Waste Isolation Pilot Plant}
-\newacronym{YMR}{YMR}{Yucca Mountain Repository Site}
+\newacronym{YMR}{YMR}{Yucca Mountain Repository Site}

appendix.tex

@@ -0,0 +1,67 @@
+\begin{frame}
+\frametitle{Composition of fresh and spent fuel}
+    Reference depletion calculation from ORGIEN was used (also used in \cite{wilson_adoption_2009}).
+    \begin{table}[h]
+    \centering
+    \scalebox{0.26}{
+        \begin{tabular}{|c|c|c|c|c|c|c|}
+        \hline
+         Isotope     &  Fresh UOX Fuel &    Spent UOX Fuel (BU: $51\frac{GWdth}{MTHM}$) & Fresh SFR Fuel & Spent SFR Fuel \\ \hline 
+         He4     &      &   9.474E-07 &          &  7.827E-06 \\ \hline 
+         Ra226   &      &   9.788E-14 &          &  5.151E-14 \\ \hline 
+         Ra228   &      &   2.750E-20 &          &  4.904E-21 \\ \hline 
+         Pb206   &      &   5.574E-18 &          &  1.210E-18 \\ \hline 
+         Pb207   &      &   1.685E-15 &          &  1.892E-16 \\ \hline 
+         Pb208   &      &   3.688E-12 &          &  5.875E-11 \\ \hline 
+         Pb210   &      &   3.023E-19 &          &  8.143E-18 \\ \hline 
+         Th228   &      &   8.475E-12 &          &  1.004E-10 \\ \hline 
+         Th229   &      &   2.727E-12 &          &  4.065E-12 \\ \hline 
+         Th230   &      &   2.625E-09 &          &  2.139E-09 \\ \hline 
+         Th232   &      &   4.174E-10 &          &  4.425E-11 \\ \hline 
+         Bi209   &      &   6.607E-16 &          &  2.600E-14 \\ \hline 
+         Ac227   &      &   3.096E-14 &          &  4.840E-15 \\ \hline 
+         Pa231   &      &   9.246E-10 &          &  1.300E-10 \\ \hline 
+         U232    &      &   0.000 &          &  0.000 \\ \hline 
+         U233    &      &   2.213E-09 &          &  5.528E-09 \\ \hline 
+         U234    &  0.000&  0.000 &          &  0.000 \\ \hline 
+         U235    &  0.032&  0.007 &     0.002 &     0.000 \\ \hline 
+         U236    &      &   0.005 &          &  0.000 \\ \hline 
+         U238    &  0.968&  0.920 &     0.887 &     0.808 \\ \hline 
+         Np237   &      &   0.000 &          &  0.000 \\ \hline 
+         Pu238   &      &   0.000 &     0.001 &     0.001 \\ \hline 
+         Pu239   &      &   0.006 &     0.060 &     0.085 \\ \hline 
+         Pu240   &      &   0.002 &     0.027 &     0.027 \\ \hline 
+         Pu241   &      &   0.001 &     0.014 &     0.003 \\ \hline 
+         Pu242   &      &   0.000 &     0.005 &     0.001 \\ \hline 
+         Pu244   &      &   2.864E-08 & 1.508E-07 &     5.461E-09 \\ \hline 
+         Am241   &      &   6.442E-05 &          &  0.001 \\ \hline 
+         Am242m  &      &   8.533E-07 &          &  7.961E-05 \\ \hline 
+         Am243   &      &   0.000 &          &  0.000 \\ \hline 
+         Cm242   &      &   2.589E-05 &          &  5.331E-05 \\ \hline 
+         Cm243   &      &   0.000 &          &  3.242E-06 \\ \hline 
+         Cm244   &      &   8.561E-05 &          &  0.000 \\ \hline 
+         Cm245   &      &   5.721E-06 &          &  3.936E-05 \\ \hline 
+         Cm246   &      &   7.295E-07 &          &  1.434E-05 \\ \hline 
+         Cm247   &      &   0.000 &          &  5.317E-07 \\ \hline 
+         Cm248   &      &   7.691E-10 &          &  0.000 \\ \hline 
+         Cm250   &      &   4.280E-18 &          &  6.407E-15 \\ \hline 
+         Cf249   &      &   1.649E-12 &          &  6.446E-10 \\ \hline 
+         Cf250   &      &   2.041E-12 &          &  6.703E-11 \\ \hline 
+         Cf251   &      &   9.865E-13 &          &  1.903E-12 \\ \hline 
+         Cf 252  &      &   6.579E-13 &          &  4.014E-14 \\ \hline 
+         H3  &      &   8.584E-08 &          &  1.747E-07 \\ \hline 
+         C14     &      &   4.057E-11 &          &       \\ \hline 
+         C Other     &      &        &       &       \\ \hline 
+         Kr81    &      &   4.216E-11 &          &  8.038E-12 \\ \hline 
+         Kr85    &      &   3.444E-05 &          &  2.950E-05 \\ \hline 
+         Kr Other    &      &   0.000 &          &  0.000 \\ \hline 
+         Sr90    &      &   0.001 &          &  0.001 \\ \hline 
+         Sr Other    &      &   0.000 &          &  0.000 \\ \hline 
+         Tc99    &      &   0.000 &          &  5.391E-05 \\ \hline 
+         Tc Other    &      &   0.000 &          &  0.002 \\ \hline 
+
+        \end{tabular}}
+        \caption{Fresh and Spent Fuel Compositions}
+        \label{tab:comp}
+\end {table}
+\end{frame}

arfc-pres.tex

@@ -7,11 +7,11 @@
 \documentclass[9pt]{beamer}
 \usetheme[white]{Illinois}
 %\title[short title]{long title}
-\title[Short Title]{Synergistic Spent Nuclear Fuel Dynamics Within the European Union}
+\title[Synergistic Spent Nuclear Fuel Dynamics Within the European Union]{Synergistic Spent Nuclear Fuel Dynamics Within the European Union}
 %\subtitle[short subtitle]{long subtitle}
-\subtitle[Short SubTitle]{French Transition into SFRs}
+\subtitle[French Transition into SFRs]{French Transition into SFRs}
 %\author[short name]{long name}
-\author[Your Name]{Jin Whan Bae, Kathyrn Huff, Clifford Singer \\ Advanced Reactors and Fuel Cycles Group}
+\author[Jin Whan Bae, Kathryn Huff, Clifford Singer]{Jin Whan Bae, Kathryn Huff, Clifford Singer \\ Advanced Reactors and Fuel Cycles Group}
 %\date[short date]{long date}
 \date[10.22.2017]{October 22, 2017}
 %\institution[short name]{long name}
@@ -55,8 +55,11 @@
 \usepackage{booktabs} % nice rules (thick lines) for tables
 \usepackage{microtype} % improves typography for PDF
 \usepackage{xspace}
-
 \usepackage{tabularx}
+\usepackage[affil-it]{authblk}
+\usepackage{tikz}
+\usepackage{cleveref}
+\usepackage{datatool}
 \newcolumntype{b}{X}
 \newcolumntype{s}{>{\hsize=.5\hsize}X}
 \newcolumntype{m}{>{\hsize=.75\hsize}X}
@@ -68,12 +71,8 @@
 \newcommand{\ud}{\mathop{}\!\mathrm{d}} % upright derivative symbol
 \newcommand{\Cyclus}{\textsc{Cyclus}\xspace}%
 \graphicspath{ {images/} }
-\usepackage[affil-it]{authblk}
-\usepackage{tikz}
 \usetikzlibrary{positioning, arrows, decorations, shapes }
-\usepackage{cleveref}
 
-\usepackage{datatool}
 \begin{document}
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 %% From uw-beamer Here's a handy bit of code to place at 
@@ -111,15 +110,17 @@ \section{Background}
 \section{Scenario Specification}
 \input{case_specification}
 
-\section{Future Predictions}
+\section{Predictions}
 \input{future}
 
 \section{Results}
 \input{results}
 
-\section{Conclusion / Discussion}
+\section{Conclusion}
 \input{conclusion}
 
+\section{Appendix}
+\input{appendix}
 
 %%--------------------------------%%
 %%--------------------------------%%

background.tex

@@ -1,49 +1,75 @@
-\subsection{Background}
+\subsection{Motivation}
 \begin{frame}
 	\frametitle{Background}
 	\begin{itemize}
-		\item France - preparation for a transition from LWRs to SFRs \cite{noauthor_cne2_nodate}
-		\item France - additional LWR construction to supply Plutonium for SFR transition
-		\item Most EU nations do not have a repository for UNF
+		\item France - preparation for a transition from \glspl{LWR} to \glspl{SFR} \cite{noauthor_reports_2015}
+		\item France - additional LWR construction to supply Plutonium for \gls{SFR} transition
+		\item Most EU nations do not have a repository for \gls{UNF}
 	\end{itemize}
 \end{frame}
 
 \begin{frame}
-	\frametitle{Abstract}
-	By taking UNF from other EU nations, France can transition into a fully SFR fleet (66 GWe)
-	without additional construction of LWRs.
+	\frametitle{Summary}
+	By taking \gls{UNF} from other EU nations, France can transition into a fully \gls{SFR} fleet (66 GWe)
+	without additional construction of \glspl{LWR}.
 	\begin{itemize}
-		\item 66 GWe -> 110 ASTRID-type SFRs
-		\item Collaborative approach seeks to benefit both sides
+		\item Transition to 110 ASTRID-type \glspl{SFR} (Capacity 66 GWe)
+		\item Collaborative approach benefits both sides
 	\end{itemize}
 \end{frame}
 
 \begin{frame}
 	\frametitle{Literature Review}
+	Past research is mostly on:
 	\begin{itemize}
-		\item French transition into SFR after additional construction of EPRs 	
+		\item French transition to \glspl{SFR} after additional construction of \glspl{EPR} 	
 		\cite{carre_overview_2009, martin_symbiotic_2017, freynet_multiobjective_2016}
 		\item partitioning and transmutation in a regional (European) context \cite{fazio_study_2013}
 	\end{itemize}
 \end{frame}
 
 \subsection{Method and Specfications}
 
+\begin{frame}
+	\frametitle{Cyclus}
+	\Cyclus \cite{huff_fundamental_2016} is the next generation agent-based nuclear
+	fuel cycle simulator.
+	\begin{minipage}[b]{.45\linewidth}
+	\begin{itemize}
+		\item Flexibility to users and developers through a dynamic resource exchange solver
+		\item user-developed agent framework
+		\item low barrier to entry for new users and developers
+		\item expanding ecosystem
+	\end{itemize}
+	\end{minipage}
+	\hspace{.5cm}
+	\begin{minipage}[b]{.45\linewidth}
+	\begin{figure}
+		\begin{center}
+			\includegraphics[width=\textwidth]{./images/cyclus/png}
+		\end{center}
+		% does this need a caption?
+	\end{figure}
+	\end{minipage}
+
+\end{frame}
+
+
 \begin{frame}
 	\frametitle{Method}
-	\Cyclus, the agent-based simulator \cite{huff_fundamental_2016} is used.
 	Two simulations are run:
 	\begin{itemize}
-		\item EU UNF inventory at 2050 (1970-2050)
-		\item French transition to SFRs (1970-2160)
+		\item \gls{EU} \gls{UNF} inventory at 2050 (1970-2050)
+		\item French transition to \glspl{SFR} (1970-2160)
 	\end{itemize}
-	The UNF and tails inventory from the first simulation is used for the second simulation.
+	The \gls{UNF} and tails inventory from the first simulation are used for the second simulation.
 \end{frame}
 
 \begin{frame}
 	\frametitle{Deployment Timeline for EU historical operation}
-	Historical operation and predictions are made using references such as IAEA PRIS \cite{iaea_pris_nodate},
-	World Nuclear Association \cite{world_nuclear_association_nuclear_2017} and other papers
+	Historical operation and predictions are made using references such as \gls{IAEA} \gls{PRIS} \cite{iaea_pris_2017},
+	World Nuclear Association \cite{world_nuclear_association_nuclear_2017} and papers on the 
+	future of nuclear power
 	\cite{joskow_future_2012, hatch_politics_2015}.
 	\begin{figure}[htbp!]
 		\begin{center}
@@ -57,7 +83,7 @@ \subsection{Method and Specfications}
 
 \begin{frame}
 	\frametitle{Deployment Timeline for French Transition}
-	600 MWe SFRS are deployed to a capacity of 66,000 MWe by 2076.
+	110 \glspl{SFR} (66 GWe) are deployed by 2076.
 	\begin{figure}[htbp!]
 	\begin{minipage}[b]{.45\linewidth}
         \begin{center}