Difference between revisions of "Team:HUST-China/project/background"

 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/wetlab/protocols">Protocols</a></li>
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Notebook">Notebook</a></li>
 
                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Notebook">Notebook</a></li>
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Modeling overview">Modeling overview</a></li>
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/model_of_systems">Model of systems</a></li>
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Software">Software</a></li>  
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Parts Overview">Parts Overview</a></li>
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Part collection">Part collection</a></li>  
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Human Practices">Human Practices</a></li>
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Education_Engagement">Education&Engagement</a></li>  
 
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                           <a href="#" data-toggle="dropdown" class="dropdown-toggle waves-effect waves-dark">TEAM<b class="caret"></b></a>
 
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Team Members">Team Members</a></li>
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                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Team">Team Members</a></li>
 
                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Collaborations">Collaborations</a></li>
 
                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Collaborations">Collaborations</a></li>
 
                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Attributions">Attributions</a></li>
 
                               <li><a class="waves-effect waves-dark" href="https://2018.igem.org/Team:HUST-China/Attributions">Attributions</a></li>
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                   <h3><strong>1. <span class="red-content">Development Status</span></strong></h3>
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                  <p style="font-size:16px; line-height: 25px;letter-spacing:1px; text-indent:0px;">In the past two hundred years, the massive use of non-renewable energy sources has led to a rise in oil prices and greenhouse effect that has serious consequences for our ecological environment. At this time, Photovoltaic power generation, which is one of the important members of new energy, come to our mind. At present, the main photovoltaic power generation method uses the photoelectric effect of semiconductor to perform light-to-electric conversion. When used, it has the advantages of no regional restrictions, but the inadequacies are also obvious. In the production of photovoltaic panels, high pollution and high energy consumption problems are inevitable, in addition to the high cost and insufficient conversion rate.</p>
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                    <h3><strong>1. <span class="red-content">Development Status</span></strong></h3>
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                    <p >In the past two hundred years, the massive use of non-renewable energy sources has led to a rise in oil prices and greenhouse effect that has serious consequences for our ecological environment. At this time, Photovoltaic power generation, which is one of the important members of new energy, comes to our mind. At present, the main photovoltaic power generation method uses the photoelectric effect of semiconductor to perform light-to-electric conversion. When used, it has the advantages of no regional restrictions, but the inadequacies are also obvious. In the production of photovoltaic panels, high pollution and high energy consumption problems are inevitable, in addition to the high cost and insufficient conversion rate.</p><br/>
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                    <h3><strong>2. <span class="red-content">Microbial Fuel Cell (MFC)</span></strong></h3>
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                    <p>Microbial Fuel Cell(MFC), is a form of bioenergy that has been widely studied for a long time. It is a device that converts the chemical energy of an organic substance directly into electrical energy by biochemical reaction.
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                    This device has two different kinds of forms. One uses enzyme as catalysts, while the other directly uses microorganism fine cells as catalysts. [1] Compared with some existing techniques which utilize other organic compounds to produce energy, MFCs have many advantages including high energy conversion efficiency, accessible temperature and environmental conditions, no treatment for waste gas and so on.
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                    According to different modes of electron transfer, MFCs are divided into direct microbial fuel cells and indirect microbial fuel cells. Nowadays, when people attach more importance to direct microbial fuel cells without medium, some metal reducing bacteria such as S.oneidensis, geobacterium have been studied most extensively.</p><br/>
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                  <p>Figure1. The five most commonly used power generation methods</p>
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                  <p>Figure2. Comparative primary energy consumption over the past 15 years</p>
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                    <h3><strong>3. <span class="red-content">Our Project</span></strong></h3>
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                    <p>And our project is based on the background of globalization, through the method of synthetic biology to propose a new idea for the traditional photovoltaic industry: to study a commercially viable device from light to electricity. Compared to solar cells, our devices not only can perfectly play the role of batteries, but also avoid environmental pollution and solve the problem of excessive power plant footprint. We increased the production of Shewanella by increasing the lactic acid production of Synechocystis and Rhodopseudomonas pallidum. At present, the production of Shewanella can reach 20%, which is enough to replace the solar panels with 17%~18% of electricity produced on the market.</p><br/>     
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                  <h3><strong>2. <span class="red-content">Microbial Fuel Cell (MFC)</span></strong></h3>
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                        <h4><strong>Reference </strong></h4>  
Microbial Fuel Cell(MFC), is a form of bioenergy that has been widely researched for a long time. It is a device that converts the chemical energy of an organic substance directly into electrical energy by biochemical reaction.
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                        <p style="font-size: 12px;">[1]Study on extracellular electron transport pathway of Shewanella MR-1 during co-culture[D]. Jiaxing Kang.  Southeast University,2016</p>
This device has two different kinds of forms. The first one uses enzyme as catalysts and the other directly uses microorganism fine cells as catalysts. [1] Compared with some existing techniques which utilize other organic compounds to produce energy, MFCs have many advantages including high energy conversion efficiency, accessible temperature and environmental conditions, no treatment for waste gas and so on.
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                        <p style="font-size: 12px;">[2]https://www.sohu.com/a/190935584_655676</p>
According to different modes of electron transfer, MFCs are divided into direct microbial fuel cells and indirect microbial fuel cells. Nowadays, when people attach more importance to direct microbial fuel cells without medium, some metal reducing bacteria such as S.oneidensis, geobacterium have been researched most extensively.</p>
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                        <p style="font-size: 12px;">[3]https://www.worldenergy.org/publications/2016/world-energy-resources-2016/</p>
               
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                  <h3><strong>3. <span class="red-content">Our Project</span></strong></h3>
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                  <p style="font-size:16px; line-height: 25px;letter-spacing:1px; text-indent:0px;">
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And our project is based on the background of globalization, through the method of synthetic biology to propose a new idea for the traditional photovoltaic industry: to study a commercially viable device from light to electricity. Compared to solar cells, our devices not only can perfectly play the role of batteries, but also avoid environmental pollution and solve the problem of excessive power plant footprint. We increased the production of Shewanella by increasing the lactic acid production of cyanobacteria and Rhodopseudomonas pallidum. At present, the production of Shewanella can reach 20%, which is enough to replace the solar panels with 17%~18% of electricity produced on the market today.</p>
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            <h4><strong>Reference </strong></h4>
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<span>[1] Xiang Xiao, Xiao-Bo Ma, Hang Yuan. Peng-Cheng Liu, Yu-Bin Kei, Hui Xu, Dao-Lin Du, Jian-Fan Sun, Yu-Jie Feng. Photocatalytic properties of zinc sulfide nanocrystals biofabricated by metal-reducing bacterium Shewanella oneidensis MR-1. Journal of Hazardous Materials. 2015, 288: 134~139.</span></p>
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