https://cnardin.github.io/tags/smrs/SMRsHugoBlox Kit (https://hugoblox.com)en-usMon, 12 Feb 2024 00:00:00 +0000https://cnardin.github.io/media/icon_hu_2d2b1e39e19355d7.pnghttps://cnardin.github.io/tags/smrs/https://cnardin.github.io/publication/articles/2024-ned-metamaterial/Mon, 12 Feb 2024 00:00:00 +0000https://cnardin.github.io/publication/articles/2024-ned-metamaterial/ <div class="callout flex px-4 py-3 mb-6 rounded-md border-l-4 bg-cyan-100 dark:bg-cyan-900 border-cyan-500" data-callout="abstract" data-callout-metadata=""> <span class="callout-icon pr-3 pt-1 text-cyan-600 dark:text-cyan-300"> <svg height="24" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 24 24"><path fill="none" stroke="currentColor" stroke-linecap="round" stroke-linejoin="round" stroke-width="1.5" d="M9 12h3.75M9 15h3.75M9 18h3.75m3 .75H18a2.25 2.25 0 0 0 2.25-2.25V6.108c0-1.135-.845-2.098-1.976-2.192a48.424 48.424 0 0 0-1.123-.08m-5.801 0c-.065.21-.1.433-.1.664c0 .414.336.75.75.75h4.5a.75.75 0 0 0 .75-.75a2.25 2.25 0 0 0-.1-.664m-5.8 0A2.251 2.251 0 0 1 13.5 2.25H15a2.25 2.25 0 0 1 2.15 1.586m-5.8 0c-.376.023-.75.05-1.124.08C9.095 4.01 8.25 4.973 8.25 6.108V8.25m0 0H4.875c-.621 0-1.125.504-1.125 1.125v11.25c0 .621.504 1.125 1.125 1.125h9.75c.621 0 1.125-.504 1.125-1.125V9.375c0-.621-.504-1.125-1.125-1.125zM6.75 12h.008v.008H6.75zm0 3h.008v.008H6.75zm0 3h.008v.008H6.75z"/></svg> </span> <div class="callout-content dark:text-neutral-300"> <div class="callout-title font-semibold mb-1">Abstract</div> <div class="callout-body"><p>This paper investigates the seismic protection of the Nuward™ small modular reactor (SMR) building, focusing on design loading and beyond design basis earthquake (bDBE) conditions. The study aims to achieve two primary objectives: (i) to enhance seismic mitigation of a SMR building under bDBE conditions, through the use of the innovative modular single-layer (SLM) and multi-layer (MLM) metafoundations (MFs); (ii) to effectively standardise and harmonise SMR building designs in locations prone to beyond design basis conditions. To accomplish these goals and demonstrate the protective capabilities of the MFs, the study employs non-linear time-history analyses (NLTHAs) for both DBE and bDBE conditions. Along these lines, a reduced-order model was developed from a refined finite element (FE) model of the SMR building using the Craig-Bampton mode synthesis technique. Then, finite locally resonant modular MFs were designed and analysed using NLTHAs. Specifically, physics-based ground motion models (GMMs) were used to generate and select seismic triplets that mimicked DBE and bDBE scenarios for NLTHAs. Successively to achieve improved seismic performance, the optimization of the MFs was pursued by targeting the optimal number of columns, resonator parameters, and unit cell dimensions. Additionally, the deployment of inerters was considered, to significantly reduce the size of the MFs and enable their application in multiple layers for ultra-low frequency attenuation. The overall findings suggest that modular MFs meet seismic protection requirements, and positively contribute to the standardization process of SMR buildings, even in areas characterized by beyond-design seismic conditions.</p></div> </div> </div> <div class="callout flex px-4 py-3 mb-6 rounded-md border-l-4 bg-emerald-100 dark:bg-emerald-900 border-emerald-500" data-callout="tip" data-callout-metadata=""> <span class="callout-icon pr-3 pt-1 text-emerald-600 dark:text-emerald-300"> <svg height="24" xmlns="http://www.w3.org/2000/svg" viewBox="0 0 24 24"><path fill="none" stroke="currentColor" stroke-linecap="round" stroke-linejoin="round" stroke-width="1.5" d="M12 18v-5.25m0 0a6.01 6.01 0 0 0 1.5-.189m-1.5.189a6.01 6.01 0 0 1-1.5-.189m3.75 7.478a12.06 12.06 0 0 1-4.5 0m3.75 2.383a14.406 14.406 0 0 1-3 0M14.25 18v-.192c0-.983.658-1.823 1.508-2.316a7.5 7.5 0 1 0-7.517 0c.85.493 1.509 1.333 1.509 2.316V18"/></svg> </span> <div class="callout-content dark:text-neutral-300"> <div class="callout-title font-semibold mb-1">Tip</div> <div class="callout-body"><p>Click the <em>Cite</em> button above to copy <em>.bib</em> publication metadata into your notes.<br> or directly download here either the bibtex version: <a href="https://cnardin.github.io/papers/2024-NED-tugberk.bib" target="_blank">Download BibTeX</a> or the plain text one: <a href="https://cnardin.github.io/papers/2024-NED-tugberk.txt" target="_blank">Download Plain.txt</a></p></div> </div> </div> <div class="scite-badge" data-doi="doi.org/10.1016/j.nucengdes.2024.113347" data-layout="horizontal" data-show-zero="false" data-small="false" data-show-labels="true" data-tally-show="true"> </div> <script async type="application/javascript" src="https://cdn.scite.ai/badge/scite-badge-latest.min.js"> </script>