Advanced search
Publication Cover
International Journal of Green Energy Volume 13, 2016 - Issue 3
Submit an article Journal homepage
501
Views
22
CrossRef citations to date
0
Altmetric
Original Articles

Economic assessment of microbial biodiesel production using heterotrophic yeasts

Teresa BraunwaldInstitute of Crop Science, University of Hohenheim, Stuttgart, GermanyCorrespondence[email protected]
,
William Todd FrenchDave C. Swalm School of Chemical Engineering, Mississippi State University, Starkville, Mississippi, USA
,
Wilhelm ClaupeinInstitute of Crop Science, University of Hohenheim, Stuttgart, Germany
&
Simone Graeff-HönningerInstitute of Crop Science, University of Hohenheim, Stuttgart, Germany
Pages 274-282 | Published online: 27 Oct 2014

References

  • Angerbauer, C., M. Siebenhofer, M. Mittelbach, and G.M. Guebitz. 2008. Conversion of sewage sludge into lipids by Lipomyces starkeyi for biodiesel production. Bioresource Technology 99:3051–56.
  • Castilho, L.R., C.M.S. Polato, E.A. Baruque, L. Geraldo, and J. Sant’Anna. 2000. Economic analysis of lipase production by Penicillium restrictum in solid-state and submerged fermentation. Biochemical Engineering Journal 4:239–47.
  • Chisti, Y. 2007. Biodiesel from microalgae. Biotechnology Advances 25:294–306.
  • CMR – Chemical Market Reporter 2707 2006. 2006. website: http://www.icis.com/chemicals/channel-info-chemicals-a-z/.
  • Davis, R., A. Aden, and P.T. Pienkos. 2011. Techno-economic analysis of autotrophic microalgae for fuel production. Applied Energy 88:3524–31.
  • Easterling, E.R., W.T. French, R. Hernandez, and M. Licha. 2009. The effect of glycerol as sole and secondary substrate on growth and fatty acid composition of Rhodotorula glutinis. Bioresource Technology 100:356–61.
  • EC (European Commission). 2014. Questions and answers on 2030 framework on climate and energy. European Commission Memo/14/40. Brussels, 22 January 2014. website: http://europa.eu/rapid/ press-release_MEMO-14-40_en.htm.
  • EP (European Parliament). 2013. European Parliament backs switchover to advanced biofuels. European Parliament Press release, 11 September 2013. website: http://www.europarl.europa.eu/ news/en/news-room/content/20130906IPR18831/html/European-Parliament-backs-switchover-to-advanced-biofuels.
  • Gallagher, B.J. 2011. The economics of producing biodiesel from algae. Renewable Energy 36:158–62.
  • Granger, L.M., P. Perlot, G. Goma, and A. Pareilleux. 1993. Effect of various nutrient limitations on fatty acid production by <i>Rhodotorula glutinis. Applied Microbiology and Biotechnology 38:784–89.
  • Greenwell, H.C., L.M.L. Laurens, R.J. Shields, R.W., Lovitt, and K.J. Flynn. 2010. Placing microalgae on the biofuels priority list: a review of the technological challenges. Journal of the Royal Society Interface 7:703–26.
  • Huang, C., X. Cui, H. Wu, W. Lou, and M. Zong. 2014. The effect of different factors on microbial oil production by Trichosporon fermentans on rice straw acid hydrolysate. International Journal of Green Energy 11:787–95.
  • Humbird, D., R. Davis, L. Tao, C. Kinchin, D. Hsu, A. Aden, P. Schoen, J. Lukas, B. Olthof, M. Worley, D. Sexton, and D. Dudgeon. 2011. Process design and economics for biochemical conversion of lignocellulosic biomass to ethanol. Dilute-acid pretreatment and enzymatic hydrolysis of corn stover. Technical Report NREL/TP-5100-47764. website: http://www.osti.gov/bridge/
  • Kaylen, M., D.L. Van Dyne, Y.-S. Choi, and M. Blasé. 2000. Economic feasibility of producing ethanol from lignocellulosic feedstocks. Bioresource Technology 72:19–32.
  • Khoo, H.H., P.N. Sharratt, P. Das, R.K. Balasubramanian, P.K. Naraharisetti, and S. Shaik. 2011. Life cycle energy and CO2 analysis of microalgae-to-biodiesel: Preliminary results and comparisons. Bioresource Technology 102:5800–807.
  • Koutinas, A.A., A. Chatzifragkou, N. Kopsahelis, S. Papanikolaou, and I.K. Kookos. 2014. Design and techno-economic evaluation of microbial oil production as renewable resource for biodiesel and oleochemical production. Fuel 116:566–77.
  • Ladisch, M.R. and J.A. Svarczkopf. 1991. Ethanol production and the cost of fermentable sugars from biomass. Bioresource Technology 36:83–95.
  • Lardon, L., A. Hélias, B. Sialve, J.-P. Steyer, and O. Bernard. 2009. Life-cycle assessment of biodiesel production from microalgae. Environmental Science & Technology 43:6475–81.
  • Lee, S.Y. and J. Choi. 1997. Effect of fermentation performance on the economics of poly3-hydroxybutyrate production by Alcaligenes latus. Polymer Degradation and Stability 59:387–93.
  • Li, J., D. Zhu, J. Niu, S. Shen, and G. Wang. 2011. An economic assessment of astaxanthin production by large scale cultivation of Haematococcus pluvialis. Biotechnology Advances 29:568–74.
  • Mast, B., N. Merkt, R. Hernandez, W.T. French, W. Claupein, and S. Graeff-Hönninger. 2014. Characterization of different biomasses based on their sugar profile with focus on their utilization for microbial biodiesel production. International Journal of Green Energy, 12:930–938.
  • Matche.com. 2012. Matches’ Process Equipment Cost Estimates. website: http://www.matche.com/EquipCost/index.htm last accessed on Feb. 2013.
  • Molina Grima, E., E.-H. Belarbi, F.G. Acién Fernández, A. Robles Medina, and Y. Chisti. 2003. Recovery of microalgal biomass and metabolites: process options and economics. Biotechnology Advances 20:491–15.
  • Mondala, A. 2010. Enhanced Lipid Production and Biodiesel Yields from Activated Sludge via Fermentation of Lignocellulose Hydrolyzates. Ph.D. Thesis, Mississippi State University, Dave C. Swalm School of Chemical Engineering.
  • Mondala, A.H., R. Hernandez, T. French, L. McFarland, J.W. Santo Domingo, M. Meckes, H. Ryu, and B. Iker. 2012. Enhanced lipid and biodiesel production from glucose-fed activated sludge: Kinetics and microbial community analysis. AIChE Journal 58:1279–90.
  • Murphy, D.J. 2009. Global oil yields: Have we got it seriously wrong? INFORM 20, 499–500.
  • Nigam, P.S. and A. Singh. 2011. Production of liquid biofuels from renewable resources. Progress in Energy and Combustion Science 37:52–68.
  • Peters, M.S. and K.D. Timmerhaus. 1991. Plant Design and Economics for Chemical Engineers. New York: McGraw-Hill.
  • Petrides, D. 2000. Bioprocess Design and Economics. In Bioseparation Science and Engineering, ed. R.G. Harrison, P.W. Todd, S.R. Rudge, and D. Petrides. Oxford: Oxford University Press.
  • Petrides, D., E. Sapidou, and J. Calandranis. 1995. Computer-aided process analysis and economic evaluation for biosynthtic human insulin production – A case study. Biotechnology and Bioengineering 48:529–41.
  • Pokoo-Aikins, G., A. Heath, R.A. Mentzer, M.S. Mannan, W.J. Rogers, and M.M. El-Halwagi. 2010. A multi-criteria approach to screening alternatives for converting sewage sludge to biodiesel. Journal of Loss Prevention in the Process Industries 23:412–20.
  • Ratledge, C. 1987. Lipid biotechnology: A wonderland for the microbial physiologist. Journal of the American Oil Chemist Society 86:1647–56.
  • Ratledge, C. 2010. Single Cell Oils for the 21st Century. In Single Cell Oils. Microbial and Algal Oils, ed. Z. Cohen and C. Ratledge. Urbana, Illinois: AOCS Press.
  • Ratledge, C. and Z. Cohen. 2008. Microbial and algal oils: Do they have a future for biodiesel or as commodity oils? Lipid Technology 20:155–60.
  • Richardson, J.W., J.L. Outlaw, and M. Allison. 2010. The economics of microalgae oil. AgBio Forum 13:119:130.
  • Ruth, M.F. and R.J. Wooley. 2000. The cost of lignocellulosic sugar for commodity chemical production. Proceedings of the 4th Annual Green Chemistry and Engineering Conference, Washington D.C., 27–29 June 2000, pp 109–12.
  • Sander, K. and G.S. Murthy. 2010. Life cycle analysis of algal biodiesel. International Journal of Life Cycle Assessment 15:704–14.
  • Schneider, T., S. Graeff-Hönninger, W.T. French, R. Hernandez, N. Merkt, W. Claupein, M. Hetrick, and P. Pham. 2013. Lipid and carotenoid production by oleaginous red yeast Rhodotorula glutinis cultivated on brewery effluents. Energy 61:34–43.
  • Stephenson, A.L., E. Kazamia, J.S. Dennis, C.J. Howe, S.A. Scott, and A.G. Smith. 2010. Life-cycle assessment of potential algal biodiesel production in the United Kingdom: A comparison of raceways and air-lift tubular reactors. Energy & Fuels 24:4062–77.
  • Subramaniam, R., S. Dufreche, M. Zappi, and R. Bajpai. 2010. Microbial lipids from renewable resources: production and characterization. Journal of Industrial Microbiology and Biotechnology 37:1271–87.
  • Sun, A., R. Davis, M. Starbuck, A. Ben-Amotz, R. Pate, and P.T. Pienkos. 2011. Comparative cost analysis of algal oil production for biofuels. Energy 36:5169–79.
  • Tao, J., C.-C. Dai, Q.-Y. Yang, X.-Y. Guan, and W.-L. Shao. 2010. Production of biodiesel with acid hydrolysate of Populus euramevicana cv leaves by Rhodotorula glutinis. International Journal of Green Energy 7:387–96.
  • West, A.H., D. Posarac, and N. Ellis. 2008. Assessment of four biodiesel production processes using HYSYS.Plant. Bioresource Technology 99:6587–601.
  • Wooley, R., M. Ruth, J. Sheehan, K. Ibsen, H. Majdeski, and A. Galvez. 1999. Lignocellulosic Biomass to Ethanol Process Design and Economics Utilizing Co-Current Dilute Acid Prehydrolysis and Enzymatic Hydrolysis Current and Futuristic Scenarios. NREL Technical Report. website: http://www.nrel.gov/docs/fy99osti/26157.pdf, Accessed on Feb. 2013.
  • Xu, L., D.W.F. Brilman, J.A.M. Withag, G. Brem, and S. Kersten. 2011. Assessment of a dry and a wet route for the production of biofuels from microalgae: Energy balance analysis. Bioresource Technology 102:5113–22.
  • You, J.-D., J.-L. Shie, C.-Y. Chang, S.-H. Huang, C.-Y. Pai, Y.-H. Yu, and C.H. Chang. 2008. Economic cost analysis of biodiesel production: case of soybean oil. Energy & Fuels 22:182–89.
  • Zhang, Y., M.A. Dubé, D.D. McLean, and M. Kates. 2003. Biodiesel production from waste cooking oil: 2. Economic assessment and sensitivity analysis. Bioresource Technology 90:229–40.
  • Zhao, X., X. Kong, Y. Hua, B. Feng, and Z.K. Zhao. 2008. Medium optimization for lipid production through co-fermentation of glucose and xylose by the oleaginous yeas Lipomyces starkeyi. European Journal of Lipid Science and Technology 110:405–12.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Supercharge Your Next Research Paper: Research and write your next paper with Jenni AI.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.