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<!doctype html><html class=no-js lang=en><head><meta charset=utf-8><meta http-equiv=x-ua-compatible content="ie=edge"><meta name=viewport content="width=device-width,initial-scale=1"><title>thesis - MillironX</title><link href="/styles/millironx.min.css" rel=stylesheet></head><body><header><object data=/graphics/millironx.svg>
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<img src=/graphics/millironx.svg alt="Milliron X"></object><h1 class=font-small-caps>Milliron X</h1></header><div class=row><aside><nav><a href=/><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 576 512"><path d="M511.8 287.6H576V240L288.4.0.0 240v47.6H64.1V512H224V352H352V512H512.8l-1-224.4z"/></svg></span>Home</a>
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<a href=/websites/><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 512 512"><path d="M0 32H512V480H0V32zm160 72v48H448V104H160zm-32-8H64v64h64V96z"/></svg></span>Websites</a></nav></aside><main><style>.motto::before{background-image:url(/images/saddles_hu1143faa57f5b1acd11a97eda612b56ee_388130_6000x2000_fill_q75_box_center.jpg)}</style><div class=motto title><div class=motto-inside><h1 id=motto>thesis</h1></div></div><section><div></div><div class=card><a class=category-button href=/categories/thesis/ title=Thesis><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 640 512"><path d="M640 176 320 288 127.8 220.7l198.1-77.8 14.9-5.9L329 107.3l-14.9 5.9-224 88-8.7 3.4L80 204V346.8c15.4 25.1 27.8 68.4.0 133.2L0 464s32.5-46.5 48-96.9V192.8L0 176V144L320 32 640 144v32zM143.6 260.2l165.9 58.1 10.6 3.7 10.6-3.7 165.9-58.1L512 408c0 35.3-86 72-192 72s-192-36.7-192-72l15.6-147.8z"/></svg></span></a><div class=card-body><div class=card-title><a href=https://www.proquest.com/dissertations-theses/polyoxometalate-incorporation-effects-on-proton/docview/2502214356/se-2><h3>Polyoxometalate Incorporation and Effects on Proton Transport in Hydrogel Polymers</h3></a></div><div>07 Aug 2020</div><a href=/people/thomas-a.-christensen-ii/ class="card-link
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bolder"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M224 256A128 128 0 10224 0a128 128 0 100 256zM448 512 384 304H64L0 512H448z"/></svg></span>Thomas A. Christensen II</a><p class=card-text>Polyoxometalate clusters embedded into hydrogel biobeads may be able to solve the challenges posed by free proton generation during remediation of trichloroethylene by acting as buffers and reducing protons to hydrogen gas. In this thesis, the challenges posed by systems that contain both diffusion and reaction processes for protons are considered mathematically, and a computer simulation to was developed to prove the relationship between diaphragm cell lag period and reactive capabilities of membranes.
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<strong><small><a href=https://www.proquest.com/dissertations-theses/polyoxometalate-incorporation-effects-on-proton/docview/2502214356/se-2>Read more »</a></small></strong></p><div class=card-footer><a href=/tags/bioremediation/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>bioremediation</a>
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<a href=/tags/polyoxometalate/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>polyoxometalate</a>
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<a href=/tags/hydrogel-polymers/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>hydrogel polymers</a>
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<a href=/tags/proton-transport/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>proton transport</a>
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<a href=/tags/chemical-engineering/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>chemical engineering</a></div></div></div><div class=card><a class=category-button href=/categories/thesis/ title=Thesis><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 640 512"><path d="M640 176 320 288 127.8 220.7l198.1-77.8 14.9-5.9L329 107.3l-14.9 5.9-224 88-8.7 3.4L80 204V346.8c15.4 25.1 27.8 68.4.0 133.2L0 464s32.5-46.5 48-96.9V192.8L0 176V144L320 32 640 144v32zM143.6 260.2l165.9 58.1 10.6 3.7 10.6-3.7 165.9-58.1L512 408c0 35.3-86 72-192 72s-192-36.7-192-72l15.6-147.8z"/></svg></span></a><div class=card-header><img class=img-thumbnail src=/academia/cheme-car/thumbnail_hua27ceb9f6c1a8b01057b70de792ffbc6_1566619_600x0_resize_q75_box.jpg alt="Thumbnail of thumbnail.jpg"></div><div class=card-body><div class=card-title><a href=https://doi.org/10.15786/13700938.v1><h3>The ChemE Car that Cud: AIChE ChemE Car Engineering Design Proposal</h3></a></div><div>14 May 2019</div><a href=/people/thomas-a.-christensen-ii/ class="card-link
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bolder"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M224 256A128 128 0 10224 0a128 128 0 100 256zM448 512 384 304H64L0 512H448z"/></svg></span>Thomas A. Christensen II</a><p class=card-text>The ChemE Car That Cud showcases Wyoming’s dominant industries of agriculture and mining by utilizing rumen fluid from a cannulated beef cow to generate hydrogen to be used in a hydrogen fuel cell and radioactive cesium, a byproduct of uranium that is often obtained from Wyoming’s mines, to time the car’s stop. The concentration of cesium-137 source is measured using the radioactive decay of cesium shielded by aluminum. The painted aluminum chassis was obtained from a previous team at UW, and modified using plastic k’nex toys to adapt to the current power source and stopping mechanism.
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<strong><small><a href=https://doi.org/10.15786/13700938.v1>Read more »</a></small></strong></p><div class=card-footer><a href=/tags/chemical-engineering/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>chemical engineering</a>
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<a href=/tags/aiche/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>AIChE</a>
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<a href=/tags/radiation/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>radiation</a>
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<a href=/tags/rumen/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>rumen</a>
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<a href=/tags/microbial-electrolysis-cells/ class="icon-link card-link"><span class="fa-container fa-fw"><svg xmlns="http://www.w3.org/2000/svg" viewBox="0 0 448 512"><path d="M0 32V256L224 480 448 256 224 32H0zm112 80a32 32 0 110 64 32 32 0 110-64z"/></svg></span>microbial electrolysis cells</a></div></div></div></section></main></div><footer><img src=/graphics/brandedbull.min.svg height=95rem><p>© 2020 Thomas A. Christensen II<br>Licensed
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