Improvement of Microalga Biodiesel Production Capacity

Suripto Suripto; Lalu Japa

doi:10.29303/jbt.v20i3.2365

Improvement of Microalga Biodiesel Production Capacity

Authors

Suripto Suripto , Lalu Japa

DOI:

10.29303/jbt.v20i3.2365

Published:

2021-01-12

Issue:

Vol. 20 No. 3 (2020): September - Desember

Keywords:

Biodiesel, Microalgae, Wallacea, West Nusa Tenggara,

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Suripto, S., & Japa, L. (2021). Improvement of Microalga Biodiesel Production Capacity. Jurnal Biologi Tropis, 20(3), 532–538. https://doi.org/10.29303/jbt.v20i3.2365

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Abstract

This research is directed at developing renewable fuel sources, which are not only environmentally friendly, but also more importantly harvested faster and not competitive with agricultural land. For this reason, the potential oil-producing microalgae need to be explored, because it has fast growth and its cultivation development will not compete in land use with food agriculture. This study aims specifically to determine the types of microalgae producing biodiesel oil that can be isolated from the natural Wallacea in NTB waters, to determine light spectrum treatment and N elimination in microalgae culture which significantly increases the productivity and quality of the biodiesel it produces. Based on the distribution map of potential biofuel-producing microalgae types in NTB waters, samples will be collected from several NTB waters, then the target types of microalgae are isolated and cultured in two systems: a closed system (bioreactor) and an open system (raceway pool) with light spectrum variation treatment and elimination of N in microalgae culture nutrients to increase the productivity and quality of the biodiesel oil produced. Biomass was harvested every 48 hours from the bioreactor and every 4 weeks from the experimental pond. Microalgae biomass was extracted with hexane to produce primary oil. This primary oil usually still has a relatively high viscosity compared to petrodiesel, so it is then trans-esterified with methanol and an acid catalyst to increase the fire point and reduce its viscosity. Oil fractionation is also carried out to sort and determine the composition of saturated, mono-unsaturated and poly-unsaturated fatty acids which greatly determine the biodeasel quality of these microalgae. The biodiesel quality variables to be measured are density, viscosity, flash point, freezing point, solubility in water, vapor pressure, reactivity, physical appearance, odor and toxicity. The result showed that, in the community of marine microalgae from Lombok and Sumbawa Islands consist of 62 species of potential producing-oil microalgae were dominated by Bacteriastrum delicatulum, B. variance, Chaetoceros amini, C. affinis, C. liciniosum, C. lorenzianum, Gyrosigma sp., Nannochloropsis oculata, Nitzchia spp., Oscillatoria sp., Pseudonitzschia spp., and Thalassionema nitzschicoides. Types of oil-producing freshwater microalgae in Lombok Island consist of 19 species of potential producing-oil microalgae, identified with high abundance and dominance, covering Microcystis aeruginosa, M. incerta, Nostoc sp., and Pediastrum boryanum. The oil content of the three species of microalgae, namely Chaetoceros amini, Nannochloropsis oculata, and Nitzchia spp which had been cultured by trietmant were 34, 68, and 46% dry weight, respectively.

References

Allen, W.E. and C. Cupp (2015). Plankton diatom of the Java sea. Annales du jardin Botanique de Buitenzorg. 44:101-174.

Borowitzka, M.A. & L.J. Borowitzka (1995). Algal biotechnology. Biology of marie plant. 8(1):22-24.

Chaugule, B.B. (2009). Algae: an oil crop of future. http://www.svlele.com/algae.htm 25 Mei 2009.

Demirbas, A., & Demirbas, M. F. (2010). Algae energy: algae as a new source of biodiesel. Springer Science & Business Media. https://books.google.co.id/books?hl=id&lr=&id=Cv_3jJ5hp0AC&oi=fnd&pg=PA1&dq=Demirbas

Desyana, I. P., Suripto, H. A., & Japa, L. (2017). Struktur Komunitas Zooplankton Pada Kawasan Biorock di Perairan Gili Trawangan Lombok Utara. Jurnal Biologi Tropis, 17(2), 6-14. http://www.jurnalfkip.unram.ac.id/index.php/JBT/article/view/400

Feng, D. L., & Wu, Z. C. (2006). Culture of Spirulina platensis in human urine for biomass production and O 2 evolution. Journal of Zhejiang University Science B, 7(1), 34-37. https://link.springer.com/article/10.1631/jzus.2006.B0034

Hader, D. P., Worrest, R. C., Kumar, H. D., & Smith, R. C. (1995). Effects of increased solar ultraviolet radiation on aquatic ecosystems. Ambio. Stockholm, 24(3), 174-180. https://www.osti.gov/etdeweb/biblio/78458

Japa, L., and G.M. Hallegraeff (2005). Seasonal Succession of Species of Planktonic Diatom Genus Pseudo-nitzschia in Lombok-Indonesian Waters, Jurnal Biologi Tropis, 6 (2): 91-106.

Kabinawa, I. N. K. (2009). Kultur mikroalga: aspek dan prospek. In Prosiding Seminar Nasional Bioteknologi Mikroalga (Vol. 1993, pp. 21-43).

Setiogi, S.P. (2004). Trial begins for environmentally friendly fuel. News. The Jakarta post. Tue, 09/28/2004.

Sheehan, J., Dunahay, T., Benemann, J., & Roessler, P. (1998). A look back at the US Department of EnergyÃ¢â¬â¢s aquatic species program: biodiesel from algae. National Renewable Energy Laboratory, 328, 1-294. https://d1wqtxts1xzle7.cloudfront.net/31018751/Biodiesel_from_algae_-_USDOD_report.pdf

Suripto & Japa (2017). Konsorsium Mikroalga Asal Alam Wallacea Di Nusa Tenggara Barat untuk Produksi Biodiesel. Laporan Penelitian Tahun Pertama. Laporan tidak dipublikasikan. LPPM Universitas Mataram.

Suripto, S., & Japa, L. (2018). Consortium Of Wallacean Microalgae In West Nusa Tenggara For Biodiesel Production. Jurnal Biologi Tropis, 18(2), 224-229. http://jurnalfkip.unram.ac.id/index.php/JBT/article/view/881

Suripto, Sukiman & E.R. Gunawan (2017). Insecticidal selectivity of jayanti plant (Sesbania sesban) for integrated control of diamondback moth (Plutella xylostella). Asian J. Agriculture. 1 (2):80-84. https://smujo.id/aja/article/view/2388

Trainor, F.R. (2004). Indicator Algal Assays: Laboratory and Field Approaches, In L.E. Shubert (1984), Algae as Ecological Indicators, Academic Press Inc., London.

Yamaji I. 2014. Illustrations of the Marine Plankton of Japan, 3rd Eddition. Hoikusha Publishing Co., Ltd., Japan.

Waltermann, B. & H. Streubel (2010). Bright future for biodeasel in Indonesia. News. The Jakarta Post. Mon, 02/08/2010.

Author Biographies

Suripto Suripto, Universitas Mataram

Biology Study Program, Faculty of Mathematics and Natural Sciences University of Mataram

Lalu Japa, Universitas Mataram

Biology Education Study Program Faculty of Education and Teacher Training, University of Mataram

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Improvement of Microalga Biodiesel Production Capacity

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Suripto Suripto, Universitas Mataram

Lalu Japa, Universitas Mataram

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