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<b>Section 1: Current Industrial Methods </b><br> | <b>Section 1: Current Industrial Methods </b><br> | ||
Industry uses chemical, mechanical, and biological methods to separate cells to obtain high-value materials or remove pollutants from water or other aqueous substances. <br><b>Subsections: <br> | Industry uses chemical, mechanical, and biological methods to separate cells to obtain high-value materials or remove pollutants from water or other aqueous substances. <br><b>Subsections: <br> | ||
− | &emsp - Biofuel and Biomass Separation From Algae <br> | + |   - Biofuel and Biomass Separation From Algae <br> |
− | &emsp - Water waste Treatment <br> | + |   - Water waste Treatment <br> |
− | &emsp - Mining <br> | + |   - Mining <br> |
− | &emsp - Biological <br> | + |   - Biological <br> |
</b> | </b> | ||
</p> | </p> |
Revision as of 01:26, 19 September 2018
Our literature review focuses on the application of our project and comparing current wastewater treatment procedures. By addressing the inefficiencies in current industrial methods, we hope to outline the impact our project will have on the water treatment process, aiming to eliminate energy inefficiencies, harsh chemical use, expensive processes, and improve pollutant or high-value material removal. Furthermore, we demonstrate the components of our gas vesicle coupled bioremediation platform.
Section 1: Current Industrial Methods
Industry uses chemical, mechanical, and biological methods to separate cells to obtain high-value materials or remove pollutants from water or other aqueous substances.
Subsections:
- Biofuel and Biomass Separation From Algae
- Water waste Treatment
- Mining
- Biological