Difference between revisions of "Team:NCKU Tainan/Hardware"

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                 </br></br></br><h3>Accomplishment</h3>
 
                 </br></br></br><h3>Accomplishment</h3>
 
                 <p class="pcontent">
 
                 <p class="pcontent">
                   <ol>
+
                   <ol style="font-color: white;">
 
                   <li>1. Built and characterized a functional prototype for carbon utilization system in industry sector.</li>
 
                   <li>1. Built and characterized a functional prototype for carbon utilization system in industry sector.</li>
 
                   2. Created an instructional video, a manual and lists of materials.</br>
 
                   2. Created an instructional video, a manual and lists of materials.</br>
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                 </br></br></br><h3>Introduction</h3>
 
                 </br></br></br><h3>Introduction</h3>
 
                 <div id="pt">
 
                 <div id="pt">
                   <p class="pcontent">Nearly 40% of CO2 emissions are attributable to industries. The goal of our project is to solve the CO2 problem by using engineered E.coli to fix carbon dioxide emitted from industries and convert it into bio-product, pyruvate. To accomplish our goal, we designed a device that will upscale our project to be used on field and we aim to integrate the device into industrial IGCC system. And we used the Arduino to sense the <a href="#list-item-6" style="color:#28ff28;">pH</a>, <a href="#list-item-7" style="color:#28ff28;">CO2 concentration</a> and <a href="#list-item-8" style="color:#28ff28;">temperature</a> then use the <a href="#list-item-9" style="color:#28ff28;">wi-fi sensor</a> to upload to the <a href="https://2018.igem.org/Team:NCKU_Tainan/Software#list-item-3" style="color:#28ff28;">database</a>.Last but not least, we can monitor the data by our <a href="https://2018.igem.org/Team:NCKU_Tainan/Software#list-item-4" style="color:#28ff28;">app</a>.</p>
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                   <p class="pcontent">Nearly 40% of CO2 emissions are attributable to industries. The goal of our project is to solve the CO2 problem by using engineered E.coli to fix carbon dioxide emitted from industries and convert it into bio-product, pyruvate. To accomplish our goal, we designed a device that will upscale our project to be used on field and we aim to integrate the device into industrial IGCC system. And we used the Arduino to sense the <a href="#list-item-6" style="color:#28ff28;">pH</a>, <a href="#list-item-7" style="color:#28ff28;">CO2 concentration</a> and <a href="#list-item-8" style="color:#28ff28;">temperature</a> then use the <a href="#list-item-9" style="color:#28ff28;">wi-fi sensor</a> to upload to the <a href="https://2018.igem.org/Team:NCKU_Tainan/Software#list-item-3" style="color:#28ff28;">database</a>.Last but not least, we can monitor the da'fta by our <a href="https://2018.igem.org/Team:NCKU_Tainan/Software#list-item-4" style="color:#28ff28;">app</a>.</p>
 
                 </div>
 
                 </div>
 
               </div>
 
               </div>

Revision as of 11:11, 15 September 2018

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igem.ncku.tainan@gmail.com
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