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</p> | </p> | ||
<li class="licontent">Enterprise interview</li> | <li class="licontent">Enterprise interview</li> | ||
− | <p class="pcontent"> We | + | <p class="pcontent"> We completed the whole <a class="link" href="https://2018.igem.org/Team:NCKU_Tainan/Applied_Design">product design </a> and proposed to several industrial. Through the interview with our potential customers, we modified and improved our project from their perspective. We found out what we were weak in the design and then figured out the solutions with the enterprise support. |
</p> | </p> | ||
<ol> | <ol> | ||
− | <li class="licontent"> Our major potential | + | <li class="licontent"> Our major potential customer, <a class="link" href="#CSC"> |
China Steel Corporation</a>, which is the largest integrated steel maker in Taiwan. The iron making process involves reacting iron ore with a reducing agent, like coking coal, and produces large volumes of CO<sub>2</sub>. | China Steel Corporation</a>, which is the largest integrated steel maker in Taiwan. The iron making process involves reacting iron ore with a reducing agent, like coking coal, and produces large volumes of CO<sub>2</sub>. | ||
</li> | </li> | ||
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</li> | </li> | ||
<li class="licontent"> An industry-university cooperative research project | <li class="licontent"> An industry-university cooperative research project | ||
− | <a class="link" href="#ANNA">Biofixation of flue gas CO<sub>2</sub> with microalgae </a>, | + | <a class="link" href="#ANNA">,Biofixation of flue gas CO<sub>2</sub> with microalgae </a>, worked on the same goal with us : reduce CO<sub>2</sub> emission in industry with biology method. |
− | + | ||
</li> | </li> | ||
− | <li class="licontent"> We | + | <li class="licontent"> We collaborated with <a class="link" href="#MBR"> |
− | King Membrane Energy Technology Inc</a>, which is a company that capable of providing customized | + | King Membrane Energy Technology Inc.</a>, which is a company that capable of providing customized pervaporation systems and membrane distillation systems for use in industries. They replace traditional energy-using distillation with advanced energy-saving membrane technology. |
</li> | </li> | ||
</ol> | </ol> | ||
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</p> | </p> | ||
<h5 class="boldh5">Process</h5> | <h5 class="boldh5">Process</h5> | ||
− | <p class="pcontent">We | + | <p class="pcontent">We met with the senior executive of China Steel Corporation |
− | to gain invaluable insight for our research. The | + | to gain invaluable insight for our research. The interview started with our project presentation, including the introduction of bioreactor design and the industrial model. |
− | + | ||
By listing out all the aspects we had considered, we would like to obtain advice | By listing out all the aspects we had considered, we would like to obtain advice | ||
on the practical and social considerations involved in the application of our project in industry. | on the practical and social considerations involved in the application of our project in industry. | ||
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<p class="pcontent">Will the high concentration of CO<sub>2</sub> retard growth of engineered bacteria?</p> | <p class="pcontent">Will the high concentration of CO<sub>2</sub> retard growth of engineered bacteria?</p> | ||
<p class="pcontent">Microalgae is reported resistant to SOx and NOx. Does <i>E. coli</i> survive under such conditions?</p> | <p class="pcontent">Microalgae is reported resistant to SOx and NOx. Does <i>E. coli</i> survive under such conditions?</p> | ||
− | <p class="pcontent">The best condition for engineered <i>E. coli</i> to capture CO<sub>2</sub> | + | <p class="pcontent">The two questions above were the main concern of CSC. Basically, the best condition for engineered <i>E. coli</i> to capture CO<sub>2</sub> have to be lower, without too much SOx and NOx particles. |
− | + | However, we won’t be able to provide an ideal culture condition in industrial application. | |
− | However, we won’t be able to provide an ideal culture condition in | + | After researching the tolerance of <i>E. coli</i>, we concluded that <i>E. coli</i> is possible to survive in factory condition while the concentration of SOx and NOx were much lower than CO<sub>2</sub>. Besides, we will dilute the concentration with gas that the small fraction of SOx NOx can only effect the expression of<i>E. coli</i>. |
− | After | + | In other words, it may not capture as much CO<sub>2</sub> as culture in the lab. |
− | + | ||
− | + | ||
</p> | </p> | ||
<p class="pcontent">It is important to define a specific commercial product that can be truly produced | <p class="pcontent">It is important to define a specific commercial product that can be truly produced | ||
− | since | + | since our user may consider its economic viability. |
They stated that a product that can be widely used is better. | They stated that a product that can be widely used is better. | ||
At the same time, we should consider current GMO legislation if we want to commercialize those products. | At the same time, we should consider current GMO legislation if we want to commercialize those products. | ||
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<h5 class="boldh5">Interview record</h5> | <h5 class="boldh5">Interview record</h5> | ||
<p class="pcontent"> The record can be separated into two parts. | <p class="pcontent"> The record can be separated into two parts. | ||
− | One is | + | One is the feedback documentation during the interview, another one is customer investigate questions. |
− | We use CSC represent China Steel. | + | We use CSC represent China Steel Corporation. |
</p> | </p> | ||
<div class="row"> | <div class="row"> | ||
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how much additional benefit can it bring to the output value of the products in their downstream of system? | how much additional benefit can it bring to the output value of the products in their downstream of system? | ||
</p> | </p> | ||
− | <p class="pcontent">At present, the product of downstream in our system is glutamine, | + | <p class="pcontent">At present, the product of downstream in our system is glutamine, and the reason |
why we choose is because glutamine is accessible and easy to operate for us. | why we choose is because glutamine is accessible and easy to operate for us. | ||
Its additional benefit refers to the different application. | Its additional benefit refers to the different application. | ||
− | Take the market value of glutamine as example, the additional benefit can reach 10 times larger of the <i>E. coli</i> culture cost, | + | Take the market value of glutamine as an example, the additional benefit can reach 10 times larger of the <i>E. coli</i> culture cost, |
ignoring the fixed cost of the whole system. | ignoring the fixed cost of the whole system. | ||
</p> | </p> | ||
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Therefore, our system has high potential output value to bring great additional benefit. | Therefore, our system has high potential output value to bring great additional benefit. | ||
</p> | </p> | ||
− | <p class="pcontent">CSC:China Steel is the | + | <p class="pcontent">CSC:China Steel is one of the largest carbon consumer in our country. In your presentation, you mentioned that two-thirds of Taiwan's area was required to balance one-tenth of the current emissions. |
− | + | ||
In practice, it is still too far away. | In practice, it is still too far away. | ||
Is it possible to match the materials with 3D layout? | Is it possible to match the materials with 3D layout? | ||
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<p class="pcontent">CSC: How to deal with the waste of this system? Is there a problem with super Cryptococcus neoformans?</p> | <p class="pcontent">CSC: How to deal with the waste of this system? Is there a problem with super Cryptococcus neoformans?</p> | ||
<p class="pcontent">The protein needs to be separated before produced. | <p class="pcontent">The protein needs to be separated before produced. | ||
− | At the same time,this process will produce the bio-waste. | + | At the same time, this process will produce the bio-waste. |
The special process is high temperature and high pressure. | The special process is high temperature and high pressure. | ||
It can be used in the factory's original waste system under the high temperature and high pressure environment. | It can be used in the factory's original waste system under the high temperature and high pressure environment. | ||
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<p class="pcontent">Algae is one of the implementation of the CCS plan, and they always want to build a multi-system. | <p class="pcontent">Algae is one of the implementation of the CCS plan, and they always want to build a multi-system. | ||
Each system has its advantages and disadvantages. | Each system has its advantages and disadvantages. | ||
− | Therefore, what we proposed was | + | Therefore, what we proposed was one more choice for them and they were glad to hear |
− | that <i>E. coli</i> and contribute to CCS&U (Carbon Capture Storage and Utilization). | + | that <i>E. coli</i> and contribute to CCS & U (Carbon Capture Storage and Utilization). |
</p> | </p> | ||
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</li> | </li> | ||
<p class="pcontent">There are three conditions:</p> | <p class="pcontent">There are three conditions:</p> | ||
− | <p class="pcontent">1) Feasibility of laboratory technology: It’s | + | <p class="pcontent">1) Feasibility of laboratory technology: It’s okay with technical confirmation.</p> |
<p class="pcontent">2) Feasibility of engineering: It’s feasible under engineering equipment construction, | <p class="pcontent">2) Feasibility of engineering: It’s feasible under engineering equipment construction, | ||
application of space and on-site environmental conditions. | application of space and on-site environmental conditions. | ||
</p> | </p> | ||
<p class="pcontent">3) Feasibility of economic: total cost (input, output) must be positive benefits.</p> | <p class="pcontent">3) Feasibility of economic: total cost (input, output) must be positive benefits.</p> | ||
− | <li class="licontent">There is a problem of limited space in Taiwan, how much space | + | <li class="licontent">There is a problem of limited space in Taiwan, how much space that we need to reduce at least in the enterprise?</li> |
<p class="pcontent">This proposition should be how much CO<sub>2</sub> the technology can absorb per unit area. | <p class="pcontent">This proposition should be how much CO<sub>2</sub> the technology can absorb per unit area. | ||
− | Based on this basis, | + | Based on this basis, industrial will evaluate the existing space of the factory, |
− | consider how much CO<sub>2</sub> can be absorbed, investment cost of equipment, | + | consider how much CO<sub>2</sub> can be absorbed, and investment cost of equipment. Therefore, a certain amount of CO<sub>2</sub> can be reduced. We will also calculate the input and output to evaluate if it has positive benefit. |
− | + | ||
− | + | ||
</p> | </p> | ||
<li class="licontent">We will consider the secondary cost of waste disposal, | <li class="licontent">We will consider the secondary cost of waste disposal, | ||
− | just like the application of | + | just like the application of CSC unit in basic-oxygen-furnace slag, |
will you consider the cost of waste recycling be beneficial? | will you consider the cost of waste recycling be beneficial? | ||
Or is there a problem caused by China Steel and secondary pollution? | Or is there a problem caused by China Steel and secondary pollution? | ||
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The cost of the resource should be assessed by the Life Cycle Assessment (LCA) as a whole. | The cost of the resource should be assessed by the Life Cycle Assessment (LCA) as a whole. | ||
</p> | </p> | ||
− | <li class="licontent">Since our project is facing the problem | + | <li class="licontent">Since our project is facing the problem of the higher cost of culture medium, |
− | we would like to ask | + | we would like to ask the question about the benefit of carbon fixation and cost of carbon fixation method. |
</li> | </li> | ||
<p class="pcontent">The cost of carbon fixation depends on the carbon capture and storage methods used. | <p class="pcontent">The cost of carbon fixation depends on the carbon capture and storage methods used. | ||
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</p> | </p> | ||
<li class="licontent">Regarding the part of industry-university cooperation, | <li class="licontent">Regarding the part of industry-university cooperation, | ||
− | + | Why CSC chose to cooperate with Annan Campus in NCKU for microalgae carbon fixation. | |
</li> | </li> | ||
<p class="pcontent">When the former academic research unit strives for the NEP project (National Energy Program), | <p class="pcontent">When the former academic research unit strives for the NEP project (National Energy Program), | ||
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<h5 class="boldh5">Process</h5> | <h5 class="boldh5">Process</h5> | ||
− | <p class="pcontent">We attend the Biotechnology Green Energy Expo and | + | <p class="pcontent">We attend the Biotechnology Green Energy Expo and had a |
business matchmaking with International Technology Research Institute (ITRI). | business matchmaking with International Technology Research Institute (ITRI). | ||
The Dr. Cheng was a manager of Carbon Capture & Storage (CCS) Application Project | The Dr. Cheng was a manager of Carbon Capture & Storage (CCS) Application Project |
Revision as of 17:53, 17 October 2018