Abstract
Microalgae have been viewed as one of potential solution for CO2 biofixation or CO2 sequestration. However, many factors need to be evaluated to support development of CO2 biofixation. One important environmental factor for the growth of micro algae is related with light requirement. The aim of this study was to evaluate the effect of light intensity and photoperiod on growth of Chlorellapyrenoidosa (C.pyrenoidosa) and CO2 biofixation. Experiments were carried out in 1000 mL semi batch photo bioreactors, purged continuously with air (0.034% CO2). An Experiment of Factorial Design was employed in which the light intensity was evaluated 4 level at 2000, 4000, 6000 and 8000 lux with 3 level of photo period at L/D (light /dark) 8 hours/16 hours; L/D 12 hours/12 hours and L/D 16 hours/8 hours. The result indicated that both light intensity and photo period had significant effect (p< 0.05) on growth of C. pyrenoidosa. However, the photo period showed stronger effect relative to light intensity on growth of C.pyrenoidosa within the range reviewed. The interaction between the two factors was indicative but statistically not significant. Best growth profile sustained at combination of L/D 16 hours/8 hours of photoperiod and light intensity of 8000 lux with the highest average biomass observed at 0.516 ± 0.069gr/L. An increase in CO2biofixation rate of around 2 times was also observed between highest setting (8000 lux; L/D 16/12 hours) relative to that of lowest setting (2000 lux; L/D 8/12 hours).
Highlights
The global warming has become an attention to the international community and an important challenge[1].This global warming is due to an increase of several gases called green house gas
Simulation on global and regional scenarios estimated that the carbon resulted from usage of fossil fuel will still be main source of green house gas emission in the century
Our study indicated the important of length of exposure to light and light intensity level selection to achieve desired result of CO2 biofixation out of microalgae cultivation
Summary
The global warming has become an attention to the international community and an important challenge[1].This global warming is due to an increase of several gases called green house gas. The environmental impact of global warming has triggered efforts to reduce emission from the green house gas[4], [5], [6]. Carbon dioxide (CO2) is one of important component of green house gas. Simulation on global and regional scenarios estimated that the carbon resulted from usage of fossil fuel (this includes gas and crude oil) will still be main source of green house gas emission in the century. It has estimated that in year 2100 carbon dioxide may reach to the level of 70 to 80% of total emission of green house gas [7]. Around 40% of emission of CO2 is resulted from power generation fuelled by fossil fuel including gas, crude oil and diesel [4]
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