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Physical and Chemical Processes of Biosynthesis Science Fair ProjectsFossil Fuel vs. Biofuels - Physical and Chemical Processes of Biosythesis Science Fair Projects
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9th grader shocks science fair judges |
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Vocabulary
If you want to impress the judges at a science fair then you need to utilize scientific vocabulary. You will want to use the scientific name of the processes and concepts that your project deals with and you will need to be define each term used.
| Young Scientists Set 1 | EDU 8405 Solar Power Science Kit | PicoTurbine Windmill | SCG-125 Snap Circuits Green Alternative Energy |
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| Ages 5 -8 | Ages 10 and up | Age 10 thru college | Ages 8 and up |
Despite advances in technology, modern fossil fuel powered cars still contribute significantly to pollution and the greenhouse effect, emitting CO2 and other pollutants and leaving an immense ecological footprint on the environment. The use of fossil fuels, a non-renewable and diminishing resource, along with a reliance on foreign countries for this commodity have further led to international tension and pose a threat to national security. Many experts believe that phytoplankton lipids are by far the most promising source for a bio-fuel. In an effort to better comprehend how physical and chemical processes affect the biosynthesis of energy-rich lipid compounds in algae, the goal of this study was to experimentally vary temperature, light, and nutrient levels to find conditions optimal for lipid production.
For the temperature and nutrient study, a standard curve was calculated to produce an optical density to
cell count conversion. Twelve flasks under each of the three temperatures were setup with triplicates of
each nutrient level. All cultures were kept under a 12-hour light/dark cycle. Each day, optical density
readings were taken and converted to cell counts.
For the light study, cultures were inoculated in 6 polycarbonate bottles consisting of 200ml algae, 40ml
nutrients and 1800ml of autoclaved seawater. Bottles were strategically place at various distances from a
light source to create a gradient in light levels. An 8ml sample was taken daily from each bottle and tested
for cell count, in vivo fluorescence, lipid content and optical density.
Results from the temperature and nutrient study indicated that 2% nutrient content was the most efficient nutrient level. Additionally, optimal growth for the cultures was achieved at a temperature of 28C. While an increase in lipid content was observed across all light levels during the light experiment, an intensity of 250 uEin appeared optimal for lipid production.
Through these experiments, ideal physical and chemical conditions for algae growth and lipid production were found for this unidentified algae isolated from the SD Bay. It was concluded that because of its nature, this species does not have a lipid yield high enough to be used as a source of oil for bio-fuel. In the future, it is proposed that different species of algae are tested using the same experimental procedures. 3rd party contributor
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Biomass science fair projects look at life in new ways.