Abstract
References
- [1] Pienkos P.T. and A. Darzins (2009). “The promise and challenges of micro-algal derived biofuels, Biofuel Bioproducts and Biorefinening”, 3 Pp. 431– 440.
- [2] Sheehan J, Dunahay T, Benemann J, Roessler P (1998). A look back at the U.S.Department of Energy's Aquatic Species Progra biodiesel from algae. National Renewable Energy Laboratory, Golden, CO. .
- [3] Hill. J.E., Nelson, D. Tilman, S. Polasky, D. Tiffany (2006), Environmental economic and energetic costs and benefits of biodiesel and ethanol biofuels. Proc Natl Acad Sci U S A, 103.Pp 11206–11210
- [4] A. Hirano, R. Ueda, S. Hirayama, Y. Ogushi (1997) CO2 fixation and ethanol production with microalgal photosynthesis and intracellular anaerobic fermentation Energy, 22 (2–3) pp. 137–142
- [5] M.L. Ghirardi, L. Zhang, J.W. Lee, T. Flynn, M. Seibert, E. Greenbaum et al. (2000), Microalgae: a green source of renewable H2 Trends in Biotechnology, 18 (12) pp. 506–511
- [6] P. Spolaore, C. Joannis-Cassan, E. Duran, A. Isambert (2006). Commercial applications of microalgae Journal of Bioscience and Bioengineering, 101 (2) pp. 87–96
- [7] X.L. Miao, Q.Y. Wu (2006). Biodiesel production from heterotrophic microalgal oil Bioresour Technol, 97, pp. 841–846
Abstract
The algal species were collected from the siren river Hazara division and were isolated and identified. Various species were selected to optimize the production of different biofuels. In order to efficiently produce biodiesel from algae, strains have to be selected with a high growth rate and oil content. If an open culture system was used, then the selected strain must have the ability to remain dominant under the applied conditions. The main species identified were Tribonema, Ulothrix, Hydrodictyon reticulum, Bubble, Euglena, Oedogonium, and Spirogyra. Amongst these species Tribonema specie showed the highest oil content which could be used for bio-fuel in future. It was concluded from the experiment that the siren valley had various algal species and Tribonema sp. was best for its oil content, which could be used for future bio-fuel purposes
References
- [1] Pienkos P.T. and A. Darzins (2009). “The promise and challenges of micro-algal derived biofuels, Biofuel Bioproducts and Biorefinening”, 3 Pp. 431– 440.
- [2] Sheehan J, Dunahay T, Benemann J, Roessler P (1998). A look back at the U.S.Department of Energy's Aquatic Species Progra biodiesel from algae. National Renewable Energy Laboratory, Golden, CO. .
- [3] Hill. J.E., Nelson, D. Tilman, S. Polasky, D. Tiffany (2006), Environmental economic and energetic costs and benefits of biodiesel and ethanol biofuels. Proc Natl Acad Sci U S A, 103.Pp 11206–11210
- [4] A. Hirano, R. Ueda, S. Hirayama, Y. Ogushi (1997) CO2 fixation and ethanol production with microalgal photosynthesis and intracellular anaerobic fermentation Energy, 22 (2–3) pp. 137–142
- [5] M.L. Ghirardi, L. Zhang, J.W. Lee, T. Flynn, M. Seibert, E. Greenbaum et al. (2000), Microalgae: a green source of renewable H2 Trends in Biotechnology, 18 (12) pp. 506–511
- [6] P. Spolaore, C. Joannis-Cassan, E. Duran, A. Isambert (2006). Commercial applications of microalgae Journal of Bioscience and Bioengineering, 101 (2) pp. 87–96
- [7] X.L. Miao, Q.Y. Wu (2006). Biodiesel production from heterotrophic microalgal oil Bioresour Technol, 97, pp. 841–846
Details
| Primary Language | English |
|---|---|
| Journal Section | Research Article |
| Authors | |
| Publication Date | June 1, 2013 |
| Published in Issue | Year 2013 Volume: 1 Issue: 2 |