Rancangbangun Alat Pembangkit Listrik Tegangan Tinggi Untuk Ekstraksi Menggunakan Ignition Coil

Imam Sofi’i, Ridwan Baharta

Sari


The use of high voltage electricity in the form of pulsed electric field is a relatively new thing used in the agricultural technology in particular to assist the extraction process. High-voltage electrical equipment is generally product by large industries with relatively high prices. The purpose of this research is to design high voltage electrical appliances mechanically using conventional ignition coil gasoline engines. The method used is to design high voltage power plant using ignition coil gasoline engines and test its performance. The test material is a microalgae to be extracted. High electrical voltage is applied to the test material, then extracted using chemicals. The results showed that the tool can generate 12.99 kV, 15.35 kV and 34.82 kV voltage. The test results in the extraction showed that extraction with high voltage electrical gave higher yields than without treatment.

 

Keywords: high voltage electricity, extraction, microalgae


Teks Lengkap:

Halaman 121-126

Referensi


Adam. F, M. Abert-Vian, G. Peltier, F. Chemat. 2012. Solvent-free ultrasound-assisted extraction of lipids from fresh microalgae cells: a green, clean and scalable process. Bioresour. Technol. 114:457–465.

Balasubramanian. S, J.D. Allen, A. Kanitkar, D. Boldor. 2011. Oil extraction from Scenedesmus obliquus using a continuous microwave system-design, optimization, and quality characterization. Bioresour. Technol. 102:3396–3403.

Chen. L, T. Liu, W. Zhang, X. Chen, J.Wang. 2012. Biodiesel production from algae oil high in free fatty acids by two-step catalytic conversion. Bioresour. Technol. 111:208–214.

Cheng. C.H, T.B. Du, H.C. Pi, S.M. Jang, Y.H. Lin, H.T. Lee. 2011. Comparative study of lipid extraction from microalgae by organic solvent and supercritical CO2, Bioresour. Technol. 102:10151–10153.

Crampon. C, A. Mouahid, S.A.A. Toudji, O. Lépine, E. Badens. 2013. Influence of pretreatment on supercritical CO2 extraction from Nannochloropsis oculata, J. Supercrit. Fluids 79:337–344.

Cravotto. G, Boffa L, Mantegna S, Perego P, Avogadro, M, Cintas P. 2008. Improved extraction of vegetable oils under high-intensity ultrasound and/or microwaves. Ultrason. Sonochem. 15, 898–902.

Ditjen POM. 2000. Parameter Standar Umum Ekstrak Tumbuhan Obat. Cetakan Pertama. Jakarta: Departeman Kesehatan RI. Halaman. 10-12.

Feng. Y, C. Li, D. Zhang. 2011. Lipid production of Chlorella vulgaris cultured in artificial wastewater medium. Bioresour. Technol. 102:101–105.

Geciova. J, Bury D, Jelen P, 2002. Methods for disruption of microbial cells for potential use in the dairy industry – a review. Int. Dairy J. 12, 541–553.

Goettel. M, Christian Eing, Christian Gusbeth, Ralf Straessner, Wolfgang Frey. 2013. Pulsed electric field assisted extraction of intracellular valuables from microalgae. Algal Research 2:401–408

Gouveia. L, B.P. Nobre, F.M. Marcelo, S. Mrejen, M.T. Cardoso, R.L.M., A.F. Palavra. 2007. Functional food oil coloured by pigments extracted from microalgae with supercritical CO2, Food Chem. 101:717–723.

Harun. R, M. Singh, G.M. Forde, M.K. Danquah. 2010. Bioprocess engineering of microalgae to produce a variety of consumer products. Renew. Sust. Energ. Rev. 14:1037–1047.

Hu. Q, B. Pan, J. Xu, J. Sheng, Y. Shi. 2007. Effects of supercritical carbon dioxide extraction conditions on yields and antioxidant activity of Chlorella pyrenoidosa extracts, J. Food Eng. 80:997–1001.

Iqbal. J and C. Theegala. 2013. Microwave assisted lipid extraction from microalgae using biodiesel as co-solvent, Algal Res. 2:34–42.

Kim. Y.H, Y.K. Choi, J. Park, S. Lee, Y.H. Yang, H.J. Kim, T.J. Park, Y. Hwan Kim, S.H. Lee. 2012. Ionic liquid-mediated extraction of lipids from algal biomass, Bioresour. Technol. 109:312–315.

Lee. J.Y, Chan Yoo, So-Young Jun, Chi-Yong Ahn, Hee-Mock Oh. 2010. Comparison of several methods for effective lipid extraction from microalgae. Bioresource Technology 10:75–77

Lee. S.J, Yoon, B.D, H.M Oh, 1998. Rapid method for the determination of lipid from the green alga Botryococcus braunii. Biotechnol. Tech. 12:553–556.

Liau. B.C, C.T. Shen, F.P. Liang, S.E. Hong, S.L. Hsu, T.T. Jong, C.M.J. Chang. 2010. Supercritical fluids extraction and anti-solvent purification of carotenoids from microalgae and associated bioactivity, J. Supercrit. Fluids 55:169–175.

Neto. A.M.P., R.A. Sotana de Souza, A.D. Leon-Nino, J.D.a.A. da Costa, R.S. Tiburcio, T.A. Nunes, T.C. Sellare de Mello, F.T. Kanemoto, F.M.P. Saldanha-Corrêa, S.M.F. Gianesella. 2013. Improvement in microalgae lipid extraction using a sonication-assisted method. Renew. Energy 55:525–531.

Niraj. S. T, V.C. Renge, Sathish V. Khedka, Y.P. Chavan, S.L. Bhagat. 2011. Extraction of oil fromalgae by solvent extraction and oil expeeler method. Int. J. Chem. Sci. 9:1746–1750.

Parniakov. O, Francisco J. Barba, Nabil Grimi, Luc Marchal, Sébastien Jubeau, Nikolai Lebovka, Eugene Vorobiev. 2015. Pulsed electric field and pH assisted selective extraction of intracellular components from microalgae Nannochloropsis. Algal Research 8:128–134

Santana. A, S. Jesus, M.A. Larrayoz, R.M. Filho. 2012. Supercritical carbon dioxide extraction of algal lipids for the biodiesel production, Procedia Eng. 42:1755–1761.

Suali. E, R. Sarbatly. 2012. Conversion of microalgae to biofuel. Renew. Sust. Energ. Rev. 16: 4316–4342.

Tang. S, C. Qin, H.Wang, S. Li, S. Tian. 2011. Study on supercritical extraction of lipids and enrichment of DHA from oil-rich microalgae, J. Supercrit. Fluids 57:44–49.

Virot. M, Tomao V, Ginies C, Visinoni, F, Chemat F, 2008. Microwave-integrated extraction of total fats and oils. J. Chromatogr. A 1196–1197, 57–64.

Wang. G. and T. Wang. 2011. Characterization of lipid components in two microalgae for biofuel application, J. Am. Oil Chem. Soc. 89:135–143.

Wang. L and C.L. Weller. 2006. Recent advances in extraction of nutraceuticals from plants, Trends Food Sci. Technol. 17:300–312.

Widjaja. A, C. C. Chien, Y.H. Ju. 2009. Study of increasing lipid production from fresh water microalgae Chlorella vulgaris. J. Taiwan Inst. Chem. Eng. 40:13–20.

Winders J.J. 2002. Power Transformers: Principles and Application. PPL Electric Utilities Allentown, Pennsylvania. New York. ISBN: 0-8247-0766-4.




DOI: http://dx.doi.org/10.25181/prosemnas.v0i0.712

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