Evaluation of Oil extraction Ultrasonification of Chlorella Vulgaris grown in Nitrogen, Phosphorus, and potassium (NPK): Difference between revisions

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Microalgae can be processed to produce a variety of biofuels.  However, microalgae culture presents challenges due to the high cost of current methods.  To minimize the cost, a commercially available, inexpensive medium, chemical fertilizer 14:14:14 nitrogen, phosphorus, and potassium (NPK) is utilized as the growth medium.  The extraction of oil via ultrasonication of the microalgae Chlorella vulgaris grown in NPK is investigated. NPK in about 8 1 distilled water per batch is used at 28 ± 2°C with 12 h light and 12 h dark photoperiod and 1,500 lux light intensity.  The microalgae are then harvested during the exponential growth phase.  Ultrasonic-assisted extraction of the samples, utilizing chloroform:methanol (2:1) solvent at different temperatures and contact time is performed.  The analysis of the extracts demonstrates that ultrasonication at 1 h contact time and 60°C produces the highest oil yield at an average of 17.26%.  Furthermore, the results reveal that NPK can support the growth of C. vulgaris, thereby providing a more economical growth medium. Statistical tests show that ultrasonic time and temperature have significant effect on the amount of oil that can be extracted from the algae samples.
Microalgae can be processed to produce a variety of biofuels.  However, microalgae culture presents challenges due to the high cost of current methods.  To minimize the cost, a commercially available, inexpensive medium, chemical fertilizer 14:14:14 nitrogen, phosphorus, and potassium (NPK) is utilized as the growth medium.  The extraction of oil via ultrasonication of the microalgae Chlorella vulgaris grown in NPK is investigated. NPK in about 8 1 distilled water per batch is used at 28 ± 2°C with 12 h light and 12 h dark photoperiod and 1,500 lux light intensity.  The microalgae are then harvested during the exponential growth phase.  Ultrasonic-assisted extraction of the samples, utilizing chloroform:methanol (2:1) solvent at different temperatures and contact time is performed.  The analysis of the extracts demonstrates that ultrasonication at 1 h contact time and 60°C produces the highest oil yield at an average of 17.26%.  Furthermore, the results reveal that NPK can support the growth of C. vulgaris, thereby providing a more economical growth medium. Statistical tests show that ultrasonic time and temperature have significant effect on the amount of oil that can be extracted from the algae samples.


Subject Index : Biofuel, Algae, Ultrasonication


[[Category: Theses]]
[[Category: Theses]]
[[Category: Energy Engineering Thesis]]
[[Category: Energy Engineering Thesis]]
[[Category: College of Engineering Thesis]]
[[Category: College of Engineering Thesis]]
[[Category: 2011 Thesis]]

Latest revision as of 17:01, 2 October 2012

Ryan L. Reynoso

(MS Graduated: 2nd Sem 2010-2011)

Abstract


Microalgae can be processed to produce a variety of biofuels. However, microalgae culture presents challenges due to the high cost of current methods. To minimize the cost, a commercially available, inexpensive medium, chemical fertilizer 14:14:14 nitrogen, phosphorus, and potassium (NPK) is utilized as the growth medium. The extraction of oil via ultrasonication of the microalgae Chlorella vulgaris grown in NPK is investigated. NPK in about 8 1 distilled water per batch is used at 28 ± 2°C with 12 h light and 12 h dark photoperiod and 1,500 lux light intensity. The microalgae are then harvested during the exponential growth phase. Ultrasonic-assisted extraction of the samples, utilizing chloroform:methanol (2:1) solvent at different temperatures and contact time is performed. The analysis of the extracts demonstrates that ultrasonication at 1 h contact time and 60°C produces the highest oil yield at an average of 17.26%. Furthermore, the results reveal that NPK can support the growth of C. vulgaris, thereby providing a more economical growth medium. Statistical tests show that ultrasonic time and temperature have significant effect on the amount of oil that can be extracted from the algae samples.


Subject Index : Biofuel, Algae, Ultrasonication