NOx Enriched Flue Gas Fixation for Biomass Production of Chlorella Vulgaris Buitenzorg

https://doi.org/10.22146/ajche.50091

Dianursanti Dianursanti(1), Mohammad Nasikin(2), Anondho Wijanarko(3*)

(1) Department of Chemical Engineering, Universitas Indonesia, Kampus Universitas Indonesia, Depok 16424, Indonesia
(2) Department of Chemical Engineering, Universitas Indonesia, Kampus Universitas Indonesia, Depok 16424, Indonesia
(3) Department of Chemical Engineering, Universitas Indonesia, Kampus Universitas Indonesia, Depok 16424, Indonesia
(*) Corresponding Author

Abstract


Cultivation of Chlorella vulgaris Buitenzorg in a pilot scale of bubble column photo bioreactor using simulated NOx enriched flue gas concluded that presence of N2O as simulated NOx pollution (0.02%) in blowing bubbled air and CO2 is not so significant, compare to control experiment that was designed by absence of N2O (around 20% decreased). Meanwhile, presence of N2O tends a less significantly decreasing of μ - specific growth rate and qCO2 – specific CO2 transferred rate. It is around 30% decreased in both of μ and qCO2. Then, cultivation by presence of NOx in blowing simulated flue gas could drastically decreased intracellular carotene and lipid content and become increase to level near to both of pigment and lipid content in control experiment. Furthermore, cultivation by presence of NOx in blowing simulated flue gas also could drastically exchange intracellular fatty acid content and it become dominated by 16:0 species. Finally, refreshing cellular growth product with re-cultivation by blowing fresh air, could be restored the fatty acid content nearly to beginning microbial fatty acid content. It was happened cause of converting hexadecanoate species to octadecanoate species and it was shown that oleate (18:1) was dominating species.

Keywords


Chlorella vulgaris Buitenzorg, NOx, photo bioreactor, scale up

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References

  1. Becker W (2004) Microalgae in human and animal nutrition, Handbook of Microalgae Culture, Blackwell, Oxford, 312-351 [Book article]
  2. Hirata, S., M. Taya and S. Tone (1996), Characterization of Chlorella cell cultures in batch and continuous operations under a photoautotrophic condition, Journal Chemical Engineering of Japan, 29, 953- 959 [Journal article]
  3. Idem, R.O., S.P.R. Katikaneni, N.N. Bakhsi (1997), Catalytic Conversion of Canola oil to Fuels and Chemicals: Role of Catalyst Acidity, Basicity, and Shape Selectivity on Product Distribution. Fuel Process. Tech. 51, 101 – 125 [Journal article]
  4. Jenkins C. L. D., R. T. Furbank and M. D. Hatch (1989), Mechanism of C4 photosynthesis, a model describing the inorganic carbon pool in bundle sheat cells, Plant Physiology, 91, 1372-1381 [Journal article]
  5. Lee, J.S, Kim D.K, Lee J.P., Park S.C., Cho H.S., Kim S.W. (2002), Effect of SO2 and NO on growth of Chlorella sp. K-R 1. Bio-resource Technology, 82, 1 -4
  6. Manirakizal P., A.Covaci, P. Schepens (2001), Comparative Study on Total Lipid Determinationusing Soxhlet, Roese Gottlieb, Bligh Dyer, and Modified Bligh Dyer Extraction Method, 14, 93 – 100 [Journal article]
  7. Morita E., T. Abe, M. Tzusuki, S. Fujiwara, N. Sato, A. Hirata, K. Sonoike and H. Nozaki (1999), Role of pyrenoids in the CO2- contrating mechanism: comparative morphology, physiology and molecular phylogenetic analysis of closely related strains of Chlamydomonas and Chloromonas (Volvocales), Planta, 208, 365-372 [Journal article]
  8. Nasikin M., B. H. Susanto, M. A. Hirsaman and A. Wijanarko (2009), Biogasoline from Palm Oil by Simultaneous Cracking and Hydrogenation Reaction over NiMo/Zeolite Catalyst, World Applied Sciences Journal, 5, 74-79 [Journal article]
  9. Nasikin M., A. Wijanarko, B. H. Susanto, Bensin- bio yang disintesa dari minyak nabati triolein berikut metode sintesanya (P00200800789 – 11 Desember 2008) [Patent]
  10. Richmond A. [Ed.] (2004) Handbook of Microalgal Culture: Biotechnology and Applied Phycology, 40 – 54 [Journal article]
  11. Twaiq, F.A., N.A.M. Zabidi, S. Bhatia (1999),Catalytic Conversion of Palm Oil toHydrocarbons: Performance of VariousZeolite Catalysts. Industrial Engineeringand Chemical Resources, 38, 3230 –3232 [Journal article]
  12. Wijanarko A., Dianursanti, A. B. Witarto andRoekmijati Widaningroem Soemantojo(2004), Effect of photoperidicity on CO2fixation by Chlorella vulgaris Buitenzorgin bubble column photobioreactor forfood supplement production, Makara, 8,35-44 [Journal article]
  13. Wijanarko A. and K. Ohtaguchi (2004), Carbondioxide removal and biomass productionby Anabaena cylindrica IAM M1 usingreactor in series”, Studies in SurfaceScience and Catalysis, 153, 461-468[Journal article]
  14. Wijanarko A., S.M.K. Andika, Dianursanti, A.B.Witarto, K. Asami, K. Ohtaguchi and R.W.Soemantojo, Alteration of Lightillumination during microbial growth, anenhancement effort of carbon dioxidefixation and biomass production byChlorella vulgaris Buitenzorg, 8thInternational Conference on CarbonDioxide Utilization, Oslo, Norway, June20-23, 2005 (OC 06 pp. 48-49)[Conference paper]
  15. Wijanarko A. and K. Ohtaguchi (2005), “Double-ended helix of blue green alga 16Sribosomal RNA, a suitable environmentaltemperature subsequence”, ACGCChemical Research Communications,19, 16-20 [Journal article]
  16. Wijanarko A., Dianursanti, Heidi, R W.Soemantojo and K. Ohtaguchi (2006a),“Effect of Light Illumination alteration onChlorella vulgaris Buitenzorg’s CO2fixation in bubble columnphotobioreactor”, International Journalfor Algae, 8,. 53-60 [Journal article]
  17. Wijanarko A., Dianursanti, M. Gozan, S. M. K.Andika, P. Widiastuti, H. Hermansyah,A.B. Witarto, K. Asami, R. W. Soemantojo,K. Ohtaguchi, S. K. Song (2006b),“Enhancement of carbon dioxide fixationby alteration of illumination duringChlorella vulgaris Buitenzorg’s growth”,Biotechnology and BioprocessEngineering, 11, 484-488 [Journalarticle]
  18. Wijanarko A., Dianursanti, A.Y. Sendjaya, H.Hermansyah, A.B. Witarto, M. Gozan, B.T.Sofyan, K.Asami, K. Ohtaguchi, R. W.Soemantojo and S. K. Song (2007a),Enhanced Chlorella vulgaris BuitenzorgGrowth by Photon Flux Density Alterationin Serial Photobioreactors, ASEAN Journalof Chemical Engineering, 7, 89-101[Journal article]
  19. Wijanarko A., Dianursanti, M. A. Sujarwo and M.Gozan, An enhancement effort of BiomassProduction by Chlorella vulgarisBuitenzorg’s in serial configuration ofBubble Column Photo Bioreactor, FirstIndonesia-Korea BiotechnologySymposium, Jakarta, Indonesia, January30th, 2007b (OP 06 pp. 1-6) [Conferencepaper]
  20. Wirosaputro, S. (2002), Chlorella UntukKesehatan Global, Gadjah MadaUniversity Press, Yogyakarta [Book]



DOI: https://doi.org/10.22146/ajche.50091

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ASEAN Journal of Chemical Engineering  (print ISSN 1655-4418; online ISSN 2655-5409) is published by Chemical Engineering Department, Faculty of Engineering, Universitas Gadjah Mada.