Integrated hydrogen production and power generation from microalgae

International Journal of Hydrogen Energy

Volumn 41, Issue 1, 2016, Pages 104-112

  Aziz, Muhammad ^a  

^a TOKYO INSTITUTE OF TECHNOLOGY   (Japan)

Author keywords

Energy efficiency; Exergy recovery; Hydrogen; Hydrogenation; Microalgae; Process integration

Indexed keywords

ALGAE; ELECTRIC POWER GENERATION; ENERGY EFFICIENCY; EXERGY; FLUIDIZATION; GAS GENERATORS; GASIFICATION; HYDROGEN; HYDROGEN STORAGE; HYDROGENATION; INTEGRATED CONTROL; MICROORGANISMS; RECOVERY;

ELECTRICITY GENERATION EFFICIENCIES; FLUIDIZATION VELOCITY; GASIFICATION PRESSURE; GENERATE ELECTRICITY; INTEGRATED HYDROGEN; MICRO-ALGAE; PROCESS INTEGRATION; SUPERCRITICAL WATER GASIFICATION;

HYDROGEN PRODUCTION;

EID: 84954372840     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2015.10.115     Document Type: Article

References (32)

1. G. Markou, O. Depraetere, D. Vandamme, and K. Muylaert Cultivation of Chlorella vulgaris and Arthrospira platensis with recovered phosphorus from wastewater by means of zeolite sorption Int J Mol Sci 16 2015 4250 4264
2. 2 bio-mitigation using microalgae Appl Microbiol Biotechnol 79 2008 707 718
3. M. Aziz, T. Oda, and T. Kashiwagi Advanced energy harvesting from macroalgae-innovative integration of drying, gasification and combined cycle Energies 7 2014 8217 8235
4. M. Aziz, T. Oda, and T. Kashiwagi Enhanced high energy efficient steam drying of algae Appl Energy 109 2013 163 170
5. P.J. McGinn, K.E. Dickinson, S. Bhatti, J.C. Frigon, S.R. Guiot, and S.J.B. O'Leary Integration of microalgae cultivation with industrial waste remediation for biofuel and bioenergy production: opportunities and limitations Photosynth Res 109 2011 231 247
6. R. Chaubey, S. Sahu, O.O. James, and S. Maity A review on development of industrial processes and emerging techniques for production of hydrogen from renewable and sustainable sources Renew Sustain Energy Rev 23 2013 443 462
7. R.A. Huggins Energy storage 2010 Springer New York, USA
8. D. Teichmann, W. Arlt, and P. Wasserscheid Liquid organic hydrogen carriers as an efficient vector for the transport and storage of renewable energy Int J Hydrogen Energy 37 2012 18118 18132
9. Z. Jiang, Q. Pan, J. Xu, and T. Fang Current situation and prospect of hydrogen storage technology with new organic liquid Int J Hydrogen Energy 30 2014 17442 17451
10. st Joint GCC-Japan Environment Symposium, Doha, Qatar Feb 5-6, 2013
11. M. Aziz, P. Prawisudha, B. Prabowo, and B.A. Budiman Integration of energy-efficient empty fruit bunch drying with gasification/combined cycle systems Appl Energy 139 2015 188 195
12. M. Aziz, T. Oda, and T. Kashiwagi Integration of energy-efficient drying in microalgae utilization based on enhanced process integration Energy 70 2014 307 316
13. A.G. Chakinala, D.W.F. Brilman, W.P.M. van Swaaij, and S.R.A. Kersten Catalytic and non-catalytic supercritical water gasification of microalgae and glycerol Ind Eng Chem Res 49 2010 1113 1122
14. J.A. Onwudili, A.R. Lea-Langton, A.B. Ross, and P.T. Williams Catalytic hydrothermal gasification of algae for hydrogen production: composition of reaction products and potential for nutrient recycling Bioresour Technol 127 2013 72 80
15. Q. Guan, C. Wei, and P.E. Savage Hydrothermal gasification of Nannochloropsis sp. with Ru/C Energy Fuels 26 2012 4575 4582
16. Y.J. Lu, H. Jin, L.J. Guo, X.M. Zhang, C.Q. Cao, and X. Guo Hydrogen production by biomass gasification in supercritical water with a fluidized bed reactor Int J Hydrogen Energy 33 2008 6066 6075
17. L. Wei, Y. Lu, and J. Wei Hydrogen production by supercritical water gasification of biomass: particle and residence time distribution in fluidized bed reactor Int J Hydrogen Energy 38 2013 13117 13124
18. 2 production: process design Bioresour Technol 121 2012 139 147
19. 2 mitigation J Appl Phsycol 21 2009 529 541
20. Y. Liu, M. Aziz, C. Fushimi, Y. Kansha, K. Mochidzuki, S. Kaneko, and et al. Exergy analysis of biomass drying based on self-heat recuperation technology and its application to industry: a simulation and experimental study Ind Eng Chem Res 51 2012 9997 10007
21. Y. Liu, M. Aziz, Y. Kansha, and A. Tsutsumi Application of the self-heat recuperation technology for energy saving in biomass drying system Fuel Process Technol 117 2014 66 74
22. Y. Kotani, M. Aziz, Y. Kansha, C. Fushimi, and A. Tsutsumi Magnetocaloric heat circulator based on self-heat recuperation technology Chem Eng Sci 101 2013 5 12
23. Y. Kansha, M. Aziz, A. Kishimoto, and A. Tsutsumi Evaluation of a self-heat recuperative thermal process based on thermodynamic irreversibility and exergy J Chem Eng Jpn 46 2013 87 91
24. S. Lange, and L.A. Pellegrini Study of hydrogen potentiality from supercritical water gasification of different biomasses: thermodynamic analysis and comparison with experimental data Chem Eng Trans 37 2014 175 180
25. M. Aziz Integrated supercritical water gasification and a combined cycle for microalgal utilization Energy Convers Manage 91 2015 140 148
26. A.L. Serani, C. Aymonier, and F. Cansell Current and foreseeable application of supercritical water for energy and the environment Chem Sus Chem 1 2008 486 503
27. S.R.A. Kersten, B. Potic, W. Prins, and W.P.P. VanSwaaij Gasification of model compounds and wood in hot compressed water Ind Eng Chem Res 45 2006 4169 4177
28. Y. Matsumura, and T. Minowa Fundamental design of continuous biomass gasification process using a supercritical water fluidized bed Int J Hydrogen Energy 29 2004 701 707
29. K. Liu, C. Song, and V. Subramani Hydrogen and syngas production and purification technologies 2010 Wiley Hoboken, USA
30. 2 from humidified ternary gas mixtures using thermally rearranged polymeric membranes J Membr Sci 492 2015 257 262
31. C. Dejoye, M.A. Vian, G. Lumia, C. Bouscarle, F. Charton, and F. Chemat Combined extraction processes of lipid from Chlorella vulgaris microalgae: microwave prior to supercritical carbon dioxide extraction Int J Mol Sci 12 2011 9332 9341
32. 2 and temperature Int J Mol Sci 10 2009 518 532