Difference between revisions of "Team:HUST-China"
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− | <i><b>Y.Reef</b></i> is artificial reef in the seabed utilizing our engineered strains to consolidate the sands automatically. With it, we are able to construct marine farms since the Bio.reef provides a platform for organisms to grow in the ocean. We can have marine products raising like sea cucumbers or edible sea grass. In this way, we not only attain economical boost but also increase the biodiversity and enhance the marine system. | + | <i><b> Y.Reef</b></i> is artificial reef in the seabed utilizing our engineered strains to consolidate the sands automatically. With it, we are able to construct marine farms since the Bio.reef provides a platform for organisms to grow in the ocean. We can have marine products raising like sea cucumbers or edible sea grass. In this way, we not only attain economical boost but also increase the biodiversity and enhance the marine system. |
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Revision as of 07:53, 3 August 2015
Y.REEF
Y.Reef is artificial reef in the seabed utilizing our engineered strains to consolidate the sands automatically
Description
Y.Reef is artificial reef in the seabed utilizing our engineered strains to consolidate the sands automatically. With it, we are able to construct marine farms since the Bio.reef provides a platform for organisms to grow in the ocean. We can have marine products raising like sea cucumbers or edible sea grass. In this way, we not only attain economical boost but also increase the biodiversity and enhance the marine system.
About Us
When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration.
Fixing
When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration.Fixing
When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration.Fixing
When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration.Fixing
When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration.Consilidation
When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration. When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration. When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration. When combining parts and modules to create larger scale systems, crosstalk and host overload often get in the way. In our project, we propose an elegant method to implement system integration.