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