Evaluating the effects of temperature on pressurized pyrolysis of Nannochloropsis oculata based on products yields and characteristics

Energy Conversion and Management

Volumn 76, Issue , 2013, Pages 764-773

  Maguyon, Monet Concepcion C ^a   Capareda, Sergio C ^a  

^a TEXAS A AND M UNIVERSITY   (United States)

Author keywords

Bio oil; Char; Microalgae; Nannochloropsis oculata; Pyrolysis

Indexed keywords

ALTERNATIVE SOURCES OF ENERGY; BIO OIL; CHAR; LIGNOCELLULOSIC BIOMASS; MICRO-ALGAE; NANNOCHLOROPSIS OCULATA; PHOTOSYNTHETIC EFFICIENCY; THERMOCHEMICAL CONVERSION;

ALGAE; DIESEL FUELS; ENERGY CONVERSION; MICROORGANISMS; PYROLYSIS; TEMPERATURE;

BIOFUELS;

EID: 84884326011     PISSN: 01968904     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.enconman.2013.08.033     Document Type: Article

References (46)

1. L. James Beyond peak oil and world geopolitical implications Globalization 7 2008
2. H. Terrell The hydrocarbon blip World Oil 232 2011
3. P. Haldis CIBC: oil price to hit $150/bbl in 'Near Future' Glob Refining Fuels Rep 12 2008
4. US Energy Information Administration. Annual Energy Outlook 2013. DOE/EIA; 2013.
5. X. Miao, Q. Wu, and C. Yang Fast pyrolysis of microalgae to produce renewable fuels J Anal Appl Pyrol 71 2004 855 863
6. S. Grierson, V. Strezov, G. Ellem, R. Mcgregor, and J. Herbertson Thermal characterisation of microalgae under slow pyrolysis conditions J Anal Appl Pyrol 85 2009 118 123
7. G.W. Huber, S. Iborra, and A. Corma Synthesis of transportation fuels from biomass: chemistry, catalysts, and engineering Chem Rev 106 2006 4044 4098 (Pubitemid 44560464)
8. Z. Ji-lu Bio-oil from fast pyrolysis of rice husk L Yields and related properties and improvement of the pyrolysis system J Anal Appl Pyrol 80 2007 30 35
9. A.E. Putun, E. Apaydin, and E. Putun Rice straw as a bio-oil source via pyrolysis and steam pyrolysis Energy 29 2004 2171 2180 (Pubitemid 39605844)
10. M. Asadullah, M.A. Rahman, M.M. Ali, M.S. Rahman, M.A. Motin, and M.B. Sultan Production of bio-oil from fixed bed pyrolysis of bagasse Fuel 86 2007 2514 2520 (Pubitemid 47532071)
11. E. Salehi, J. Abedi, and T. Harding Bio-oil from sawdust: pyrolysis of sawdust in a fixed-bed system Energy Fuels 23 2009 3767 3772
12. N. Mahinpey, P. Murugan, T. Mani, and R. Raina Analysis of Bio-oil, biogas and biochar from pressurized pyrolysis of wheat straw using a tubular reactor Energy Fuels 23 2009 2736 2742
13. F. Karaosmanoglu, E. Tetik, and E. Gollu Biofuel production using slow pyrolysis of the straw and stalk of the rapeseed plant Fuel Process Technol 59 1999 1 12
14. O. Ioannidou, A. Zabaniotou, E.V. Antonakou, K.M. Papazisi, A.A. Lappas, and C. Athanassiou Investigating the potential for energy, fuel materials and chemicals production from corn residues (cobs and stalks) by non-catalytic and catalytic pyrolysis in two reactor configurations Renew Sustain Energy Rev 13 2009 750 762
15. A.A. Boateng, D.E. Daugaard, N.M. Goldberg, and K.B. Hicks Bench-scale fluidized bed pyrolysis of switchgrass for bio-oil production Ind Eng Chem Res 46 2007 1891 1897 (Pubitemid 46588059)
16. S. Czernik, and A.V. Bridgwater Overview of applications of biomass fast pyrolysis oil Energy Fuels 18 2004 590 598
17. Q. Zhang, J. Chang, T.J. Wang, and Y. Xu Review of biomass pyrolysis oil properties and upgrading research Energy Convers Manage 48 2007 87 92 (Pubitemid 44556937)
18. P.J.L.B. Williams, and L.M.L. Laurens Microalgae as biodiesel and biomass feedstocks: review and analysis of the biochemistry, bioenergetics and economics Energy Environ Sci 3 2009 554 590
19. V.H. Smith, B.S.M. Sturm, F.J. deNoyelles, and S.A. Billings The ecology of algal biodiesel production Trends Ecol Evol 25 2009 301 309
20. A. Demirbas Use of algae as biofuel sources Energy Conver Manage 2010 2738 2749
21. M.F. Demirbas Biofuels from algae for sustainable development Appl Energy 2011 3473 3480
22. K.M. Weyer, D.R. Bush, and A. Darzins Theoretical maximum algal oil production Bioenergy Resour 3 2010 204 213
23. L. Rodolfi, G.C. Zittelli, N. Bassi, G. Padovani, N. Biondi, and G. Bonini Microalgae for oil: strain selection, induction of lipid synthesis and outdoor mass cultivation in a low cost photobioreactor Biotechnol Bioeng 102 2008 100 112
24. W. Peng, Q. Wu, P. Tu, and N. Zhao Pyrolytic characteristics of microalgae as renewable energy source determined by thermogravimetric analysis Bioresour Technol 80 2001 1 7 (Pubitemid 32734479)
25. A. Marcilla, A. Gomez-Siurana, C. Gomis, E. Chapuli, M.C. Catala, and F.J. Valdes Characterization of microalgal species through TGA/FTIR analysis: application to nannochloropsis sp Thermochim Acta 484 2009 41 47
26. P. Pan, C. Hu, W. Yang, Y. Li, L. Dong, and L. Zhu The direct pyrolysis and catalytic pyrolysis of Nannochloropsis sp. residue for renewable bio-oils Bioresour Technol 101 2010 4593 4599
27. U. Jena, K.C. Das, and J.R. Kastner Effect of operating conditions of thermochemical liquefaction on biocrude production from Spirulina platensis Bioresour Technol 102 2011 6221 6229
28. A. Demirbas Calculation of higher heating values of biomass fuels Fuel 76 1997 431 434 (Pubitemid 127381739)
29. A.B. Ross, J.M. Jones, M.L. Kubacki, and T. Bridgeman Classification of macroalgae as fuel and its thermochemical behaviour Bioresour Technol 99 2008 6494 6504
30. P.T. Martone, J.M. Estevez, F. Lu, K. Ruel, M.W. Denny, and C. Somerville Discovery of lignin in seaweed reveals convergent evolution of cell-wall architecture Curr Biol CB 19 2009 169 175
31. I. Sørensen, F.A. Pettolino, A. Bacic, J. Ralph, F. Lu, and M.A. O'Neill The charophycean green algae provide insights into the early origins of plant cell walls Plant J 68 2011 201 211
32. D. Li, L. Chen, J. Zhao, X. Zhang, Q. Wang, and H. Wang Evaluation of the pyrolytic and kinetic characteristics of Enteromorpha prolifera as a source of renewable biofuel from the Yellow Sea of China Chem Eng Res Des 88 2010 647 652
33. M.A. Carriquiry, X. Du, and G.R. Timilsina Second generation biofuels: economics and policies Energy Policy 39 2011 4222 4234
34. Y. Christi Biodiesel from microalgae Biotechnol Adv 25 2007 294 306
35. Y. Liang Producing liquid transportation fuels from heterotrophic microalgae Appl Energy 104 2013 860 868
36. B.B. Uzun, A.E. Pütün, and E. Pütün Composition of products obtained via fast pyrolysis of olive-oil residue: effect of pyrolysis temperature J Anal Appl Pyrol 79 2007 147 153 (Pubitemid 46589619)
37. P. McKendry Energy production from biomass (part 2): conversion technologies Bioresour Technol 83 2002 47 54 (Pubitemid 34119062)
38. P. McKendry Energy production from biomass (part 1): overview of biomass Bioresour Technol 83 2002 37 46 (Pubitemid 34119061)
39. A.B. Ross, P. Biller, M.L. Kubacki, H. Li, A. Lea-Langton, and J.M. Jones Hydrothermal processing of microalgae using alkali and organic acids Fuel 89 2010 2234 2243
40. R.K. Singh, and K.P. Shadangi Liquid fuel from castor seeds by pyrolysis Fuel 90 2011 2538 2544
41. M. Ertaş, and M. HakkI Alma Pyrolysis of laurel (Laurus nobilis L.) extraction residues in a fixed-bed reactor: characterization of bio-oil and bio-char J Anal Appl Pyrol 88 2010 22 29
42. E. Apaydin-Varol, E. Pütün, and A.E. Pütün Slow pyrolysis of pistachio shell Fuel 86 2007 1892 1899 (Pubitemid 46776665)
43. Z. Du, Y. Li, X. Wang, Y. Wan, Q. Chen, and C. Wang Microwave-assisted pyrolysis of microalgae for biofuel production Bioresour Technol 102 2011 4890 4896
44. S. Şensöz, and D. AngIn Pyrolysis of safflower (Charthamus tinctorius L.) seed press cake in a fixed-bed reactor: Part 2. Structural characterization of pyrolysis bio-oils Bioresour Technol 99 2008 5498 5504
45. X. Jiang, E. Naoko, and Z. Zhong Structure properties of pyrolytic lignin extracted from aged bio-oil Chin Sci Bull 56 2011 1417 1421
46. L. Zhou, Z.M. Zong, S.R. Tang, Y. Zong, R.L. Xie, and M.J. Ding FTIR and mass spectral analyses of an upgraded bio-oil Energy Sources, Part A: Recov Util Environ Effects 32 2009 370 375