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| | This year, HP takes the lab work one step further by establishing a simple expanded process flow. This flow includes the raw material (intake ) , bio-desalination, cell-water separation and further processes(/application). | | This year, HP takes the lab work one step further by establishing a simple expanded process flow. This flow includes the raw material (intake ) , bio-desalination, cell-water separation and further processes(/application). |
| − | How does this established? Every step is not be considered through a single angle but a combination thought of several HP projects. | + | How does this established? Every step is not considered through a single angle but a combination thought of several HP projects. |
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| | [[file:SJTUB_HP_BasicDescription.jpg |100%]] | | [[file:SJTUB_HP_BasicDescription.jpg |100%]] |
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| | Sea vs Brackish water | | Sea vs Brackish water |
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| − | Description: We explore the differences between seawater and brackish water in desalination process. Based on that, we'll explain why we think seawater has more potential in the future and how our project will help pushing this trend. | + | Description: We explore the differences between seawater and brackish water in desalination process. Based on that study, we are going to explain why we think seawater has more potential in the future and how our project will help pushing this trend. |
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| | ''Keyword:'' '''The raw material (intake) , Bio-desalination''' | | ''Keyword:'' '''The raw material (intake) , Bio-desalination''' |
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| | Salt & Heavy metal | | Salt & Heavy metal |
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| − | Description: We take out a collaboration study of the combination of desalination process and seawater restoration (heavy-metal) . This study explain its theoretically advantage and matters need special attention when carrying out in the reality. | + | Description: We take out a collaborative study of the combination of desalination process and seawater damage restoration (heavy-metal). This study explains its theoretical advantage and give idea some matters need special attention when carry out in the reality. |
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| | ''Keyword:'' '''The raw material (intake ) , Further processes(/application)''' | | ''Keyword:'' '''The raw material (intake ) , Further processes(/application)''' |
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| | Bio- vs RO | | Bio- vs RO |
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| − | Description: We paid a visit to a major company producing RO membrane, the main component of common desalination process. Based on the visit, the further study and communication has done, including the discussion about the differences between our project and RO method, as well as the possibility of cooperation between two kinds of technology. | + | Description: We paid a visit to a major company producing RO membrane, the main component of common desalination process. Based on the visit, the further study and communication has done, including the discussion about the differences between our project and RO method, as well as the possibility of cooperation between these two technologies. |
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| | ''Keyword:'' '''Bio-desalination and Further processes (/application)''' | | ''Keyword:'' '''Bio-desalination and Further processes (/application)''' |
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| | Cell-water separation | | Cell-water separation |
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| − | Description: This is the most important process that is related to safety. Our design is an single-use product. Yet, in separation study, we designed both single-use separation as well as long-term use separation method. Furthermore, we also explained how single-used algae can be used further for producing valuable sub-product. The inspiration comes from algae cleanup process in the lake and river. | + | Description: This is the most important process that is related to safety. Our design is a single-use or one time system. In separation study, we designed both single-use separation & long-term use separation method as well. Furthermore, we also explained how single-used algae can be used further for the production of valuable sub-products. The inspiration comes from algae cleanup process in the lake and river water. |
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| | ''Keyword:'' '''Cell-water separation''' | | ''Keyword:'' '''Cell-water separation''' |
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| | Public and government | | Public and government |
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| − | Description: Public and government acceptance , two different approach to gain social trust, are considered in our project. First, we did testing activities to see what they really interested in or worry about. From this, we build two different strategy and relating materials. | + | Description: Public and government acceptance , two different approaches to gain social trust, are considered in our project. First, we did testing activities to see what they really interested in or worry about. From this, we build two different strategies and relating materials. |
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| | Communication with other iGEM tea | | Communication with other iGEM tea |
| − | Description: This year we connected with other iGEM team through several small-scale visits and meet-ups. One of our major collaboration team is Nanjing iGEM team. We summarize our collaboration in this part as well as communication with other team. | + | Description: This year we connected with other iGEM team through several small-scale visits and meet-ups. One of our major collaboration is with Nanjing iGEM team. In this part we summarized our collaboration and communication with other teams. |
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Basic Description
This year, HP takes the lab work one step further by establishing a simple expanded process flow. This flow includes the raw material (intake ) , bio-desalination, cell-water separation and further processes(/application).
How does this established? Every step is not considered through a single angle but a combination thought of several HP projects.
Sea vs Brackish water
Description: We explore the differences between seawater and brackish water in desalination process. Based on that study, we are going to explain why we think seawater has more potential in the future and how our project will help pushing this trend.
Keyword: The raw material (intake) , Bio-desalination
Salt & Heavy metal
Description: We take out a collaborative study of the combination of desalination process and seawater damage restoration (heavy-metal). This study explains its theoretical advantage and give idea some matters need special attention when carry out in the reality.
Keyword: The raw material (intake ) , Further processes(/application)
Bio- vs RO
Description: We paid a visit to a major company producing RO membrane, the main component of common desalination process. Based on the visit, the further study and communication has done, including the discussion about the differences between our project and RO method, as well as the possibility of cooperation between these two technologies.
Keyword: Bio-desalination and Further processes (/application)
Cell-water separation
Description: This is the most important process that is related to safety. Our design is a single-use or one time system. In separation study, we designed both single-use separation & long-term use separation method as well. Furthermore, we also explained how single-used algae can be used further for the production of valuable sub-products. The inspiration comes from algae cleanup process in the lake and river water.
Keyword: Cell-water separation
Public and government
Description: Public and government acceptance , two different approaches to gain social trust, are considered in our project. First, we did testing activities to see what they really interested in or worry about. From this, we build two different strategies and relating materials.
Communication with other iGEM tea
Description: This year we connected with other iGEM team through several small-scale visits and meet-ups. One of our major collaboration is with Nanjing iGEM team. In this part we summarized our collaboration and communication with other teams.
Next: Sea vs Barckish Water
