A comparative thermodynamic analysis and experimental studies on hydrogen synthesis by supercritical water gasification of glucose

Clean Technologies and Environmental Policy

Volumn 17, Issue 8, 2015, Pages 2267-2288

  Nikoo, Maryam Khoshtinat ^a   Saeidi, Samrand ^b   Lohi, Ali ^c  

^a UNIVERSITI TEKNOLOGI MALAYSIA   (Malaysia)

^b AMIRKABIR UNIVERSITY OF TECHNOLOGY   (Iran)

^c RYERSON UNIVERSITY   (Canada)

Author keywords

Glucose; Hydrogen production; Supercritical water gasification; Thermodynamic equilibrium

Indexed keywords

EQUATIONS OF STATE; FREE ENERGY; GIBBS FREE ENERGY; GLUCOSE; HYDROGEN PRODUCTION; RESIDENCE TIME DISTRIBUTION; THERMOANALYSIS; THERMODYNAMICS;

EXPERIMENTAL CONDITIONS; GIBBS FREE ENERGY MINIMIZATION; SUPERCRITICAL WATER GASIFICATION; SUPERCRITICAL WATER GASIFICATION (SCWG); THERMO DYNAMIC ANALYSIS; THERMODYNAMIC EQUILIBRIA; THERMODYNAMIC EQUILIBRIUM ANALYSIS; THERMODYNAMIC PARAMETER;

GASIFICATION;

EID: 84952865547     PISSN: 1618954X     EISSN: 16189558     Source Type: Journal    
DOI: 10.1007/s10098-015-0965-2     Document Type: Article

References (83)

1. Ahmed S, Aitani A, Rahman F, Al-Dawood A, Al-Muhaish F (2009) Decomposition of hydrocarbons to hydrogen and carbon. Appl Catal A 359:1-24
2. Ahmed T, Ahmad M, Lam H, Yusup S (2013) Hydrogen from renewable palm kernel shell via enhanced gasification with low carbon dioxide emission. Clean Technol Environ Policy 15:513-523
3. Antal MJ Jr, Allen SG, Schulman D, Xu X, Divilio RJ (2000) Biomass gasification in supercritical water. Ind Eng Chem Res 39:4040-4053
4. Antal MJ Jr. (1978) Synthesis gas production from organic wastes by pyrolysis/steam reforming. In: Energy from biomass and wastes. IGT, Chicago, pp 495-524
5. Aspen Technology Inc (2012) Aspen Plus User Guide Release 12.1. Aspen Tech, Cambridge
6. Azadi P, Farnood R (2011) Review of heterogeneous catalysts for sub-and supercritical water gasification of biomass and wastes. Int J Hydrogen Energy 36:9529-9541
7. Baghchehsaraee B, Nakhla G, Karamanev D, Margaritis A (2010) Fermentative hydrogen production by diverse microflora. Int J Hydrogen Energy 35:5021-5027
8. Bleeker M, Gorter S, Kersten S, van der Ham L, van den Berg H, Veringa H (2010) Hydrogen production from pyrolysis oil using the steam-iron process: a process design study. Clean Technol Environ Policy 12:125-135
9. Bozorgmehr MR, Housaindokht MR (2006) Prediction of the solubility of cholesterol and its esters in supercritical carbon dioxide. Chem Eng Technol 29:1481-1486
10. Brau JF, Morandin M, Berntsson T (2013) Hydrogen for oil refining via biomass indirect steam gasification: energy and environmental targets. Clean Technol Environ Policy 15:501-512
11. Bulatov I, Klemeš J (2011) Clean fuel technologies and clean and reliable energy: a summary. Clean Technol Environ Policy 13:543-546
12. 3 catalyst in supercritical water. Ind Eng Chem Res 46:3574-3579
13. Castello D, Fiori L (2011) Supercritical water gasification of biomass: thermodynamic constraints. Bioresour Technol 102:7574-7582
14. Castello D, Kruse A, Fiori L (2015) Low temperature supercritical water gasification of biomass constituents: glucose/phenol mixtures. Biomass Bioenergy 73:84-94
15. Chen HL, Lee HM, Chen SH, Chao Y, Chang MB (2008) Review of plasma catalysis on hydrocarbon reforming for hydrogen production - interaction, integration, and prospects. Appl Catal B 85:1-9
16. Chen Y, Guo L, Cao W, Jin H, Guo S, Zhang X (2013) Hydrogen production by sewage sludge gasification in supercritical water with a fluidized bed reactor. Int J Hydrogen Energy 38:12991-12999
17. Das D, Veziroʇlu TN (2001) Hydrogen production by biological processes: a survey of literature. Int J Hydrogen Energy 26:13-28
18. de Resende FLP (2009) Supercritical water gasification of biomass. ProQuest, Ann Arbor
19. Foglia D, Wukovits W, Friedl A, Ljunggren M, Zacchi G, Urbaniec K, Markowski M (2011) Effects of feedstocks on the process integration of biohydrogen production. Clean Technol Environ Policy 13:547-558
20. Goodwin AK, Rorrer GL (2008) Conversion of glucose to hydrogen-rich gas by supercritical water in a microchannel reactor. Ind Eng Chem Res 47:4106-4114
21. Graboski MS, Daubert TE (1978) A modified Soave equation of state for phase equilibrium calculations. 1. Hydrocarbon systems. Ind Eng Chem Process Des Dev 17:443-448
22. Hao X, Guo L, Mao X, Zhang X, Chen X (2003) Hydrogen production from glucose used as a model compound of biomass gasified in supercritical water. Int J Hydrogen Energy 28:55-64
23. Hendry D, Venkitasamy C, Wilkinson N, Jacoby W (2011) Exploration of the effect of process variables on the production of high-value fuel gas from glucose via supercritical water gasification. Bioresour Technol 102:3480-3487
24. Higman C, Van der Burgt M (2003) Gasification. Gulf Professional Publishing, Burlington. ISBN 0-7506-7707-4
25. Hirth T, Franck E (1993) Oxidation and hydrothermolysis of hydrocarbons in supercritical water at high pressures. Ber Bunsen Phys Chem 97:1091-1097
26. Huff JA, Reed TM III (1963) Second virial coefficients of mixtures of nonpolar molecules from correlations on pure components. J Chem Eng Data 8:306-311
27. Igliński B, Piechota G, Buczkowski R (2014) Development of biomass in polish energy sector: an overview. Clean Technol Environ Policy 17:317-329
28. Kabyemela BM, Adschiri T, Malaluan RM, Arai K (1997) Kinetics of glucose epimerization and decomposition in subcritical and supercritical water. Ind Eng Chem Res 36:1552-1558
29. Kabyemela B, Takigawa M, Adschiri T, Malaluan R, Arai K (1998) Mechanism and kinetics of cellobiose decomposition in sub-and supercritical water. Ind Eng Chem Res 37:357-361
30. Keche A, Gaddale A, Tated R (2014) Simulation of biomass gasification in downdraft gasifier for different biomass fuels using Aspen Plus. Clean Technol Environ Policy 17:465-473
31. Kirtay E (2011) Recent advances in production of hydrogen from biomass. Energy Convers Manag 52:1778-1789
32. Kruse A (2008) Supercritical water gasification. Biofuels Bioprod Biorefin 2:415-437
33. Kruse A, Dinjus E (2007) Hot compressed water as reaction medium and reactant: properties and synthesis reactions. J Supercrit Fluid 41:361-379
34. Kruse A, Gawlik A (2003) Biomass conversion in water at 330-410 & #xB0;C and 30-50 MPa. Identification of key compounds for indicating different chemical reaction pathways. Ind Eng Chem Res 42:267-279
35. Kruse A, Henningsen T, Sinaʇ A, Pfeiffer J (2003) Biomass gasification in supercritical water: influence of the dry matter content and the formation of phenols. Ind Eng Chem Res 42:3711-3717
36. Lee IG (2011) Effect of metal addition to Ni/activated charcoal catalyst on gasification of glucose in supercritical water. Int J Hydrogen Energy 36:8869-8877
37. Lee IG, Ihm SK (2008) Catalytic gasification of glucose over Ni/activated charcoal in supercritical water. Ind Eng Chem Res 48:1435-1442
38. Lee IG, Kim MS, Ihm SK (2002) Gasification of glucose in supercritical water. Ind Eng Chem Res 41:1182-1188
39. Lems S, van der Kooi HJ, de Swaan Arons J (2003) Quantifying technological aspects of process sustainability: a thermodynamic approach. Clean Technol Environ Policy 5:248-253
40. Lu Y, Guo L, Ji C, Zhang X, Hao X, Yan Q (2006) Hydrogen production by biomass gasification in supercritical water: a parametric study. Int J Hydrogen Energy 31:822-831
41. Lu Y, Guo L, Zhang X, Yan Q (2007) Thermodynamic modeling and analysis of biomass gasification for hydrogen production in supercritical water. Chem Eng J 131:233-244
42. Lu Y, Guo L, Zhang X, Ji C (2012) Hydrogen production by supercritical water gasification of biomass: explore the way to maximum hydrogen yield and high carbon gasification efficiency. Int J Hydrogen Energy 37:3177-3185
43. Madenoʇlu TG, Boukis N, Saʇlam M, Yüksel M (2011) Supercritical water gasification of real biomass feedstocks in continuous flow system. Int J Hydrogen Energy 36:14408-14415
44. Marrone PA, Hong GT (2009) Corrosion control methods in supercritical water oxidation and gasification processes. J Supercrit Fluids 51:83-103
45. Mathias PM (1983) A versatile phase equilibrium equation of state. Ind Eng Chem Process Des Dev 22:385-391
46. Matsumura Y, Minowa T, Potic B, Kersten SR, Prins W, van Swaaij WP, Kruse A (2005) Biomass gasification in near-and super-critical water: status and prospects. Biomass Bioenergy 29:269-292
47. Matsumura Y, Harada M, Nagata K, Kikuchi Y (2006) Effect of heating rate of biomass feedstock on carbon gasification efficiency in supercritical water gasification. Chem Eng Commun 193:649-659
48. Meier K (2014) Hydrogen production with sea water electrolysis using Norwegian offshore wind energy potentials. Int J Energy Environ Eng 5:1-12
49. Nikoo MK, Amin NAS (2011) Thermodynamic analysis of carbon dioxide reforming of methane in view of solid carbon formation. Fuel Process Technol 92:678-691
50. Noureldin MB, Bao B, Elbashir N, El-Halwagi M (2014) Benchmarking, insights, and potential for improvement of Fischer-Tropsch-based biomass-to-liquid technology. Clean Technol Environ Policy 16:37-44
51. Onwudili JA, Williams PT (2009) Role of sodium hydroxide in the production of hydrogen gas from the hydrothermal gasification of biomass. Int J Hydrogen Energy 34:5645-5656
52. Ozbay N, Pütün AE, Pütün E (2006) Bio-oil production from rapid pyrolysis of cottonseed cake: product yields and compositions. Int J Energy Res 30:501-510
53. Palma V, Castaldo F, Ciambelli P, Iaquaniello G (2012) Hydrogen production through catalytic low-temperature bio-ethanol steam reforming. Clean Technol Environ Policy 14:973-987
54. Pandu K, Joseph S (2012) Comparisons and limitations of biohydrogen production processes: a review. Int J Adv Eng Technol 2:342-356
55. Parthasarathy P, Sheeba K (2015) Combined slow pyrolysis and steam gasification of biomass for hydrogen generation - a review. Int J Energy Res 39:147-164
56. Penninger J, Kersten R, Baur H (1999) Reactions of diphenylether in supercritical water - mechanism and kinetics. J Supercrit Fluid 16:119-132
57. Preston RA (1981) A computer model of the Rectisol process using the Aspen Simulator. Dissertation, Department of Chemical Engineering, MIT
58. Ramayya S, Brittain A, DeAlmeida C, Mok W, Antal MJ Jr (1987) Acid-catalysed dehydration of alcohols in supercritical water. Fuel 66:1364-1371
59. Rashidi M, Tavasoli A (2015) Hydrogen rich gas production via supercritical water gasification of sugarcane bagasse using unpromoted and copper promoted Ni/CNT nanocatalysts. J Supercrit Fluids 98:111-118
60. Reddy SN, Nanda S, Dalai AK, Kozinski JA (2014) Supercritical water gasification of biomass for hydrogen production. Int J Hydrogen Energy 39:6912-6926
61. 2 emissions. Clean Technol Environ Policy 12:171-175
62. Rossi C, Cardozo-Filho L, Guirardello R (2009) Gibbs free energy minimization for the calculation of chemical and phase equilibrium using linear programming. Fluid Phase Equilib 278:117-128
63. Sato T, Kurosawa S, Smith RL (2004) Water gas shift reaction kinetics under noncatalytic conditions in supercritical water. J Supercrit Fluid 29:113-119
64. Sherif S, Goswami DY, Stefanakos EL, Steinfeld A (2014) Handbook of hydrogen energy. CRC Press, Southampton
65. 2 economy. Clean Technol Environ Policy 6:223-226
66. 3. Ind Eng Chem Res 42:3516-3521
67. Singh L, Wahid ZA (2014) Enhancement of hydrogen production from palm oil mill effluent via cell immobilisation technique. Int J Energy Res 2:215-222
68. Susanti RF, Veriansyah B, Kim JD, Kim J, Lee YW (2010) Continuous supercritical water gasification of isooctane: a promising reactor design. Int J Hydrogen Energy 35:1957-1970
69. Susanti RF, Dianningrum LW, Yum T, Kim Y, Lee BG, Kim J (2012) High-yield hydrogen production from glucose by supercritical water gasification without added catalyst. Int J Hydrogen Energy 37:11677-11690
70. Tam MS, Craciun R, Miller DJ, Jackson JE (1998) Reaction and kinetic studies of lactic acid conversion over alkali-metal salts. Ind Eng Chem Res 37:2360-2366
71. Tang H, Kitagawa K (2005) Supercritical water gasification of biomass: thermodynamic analysis with direct Gibbs free energy minimization. Chem Eng J 106:261-267
72. Tay D, Ng D, Kheireddine H, El-Halwagi M (2011) Synthesis of an integrated biorefinery via the C-H-O ternary diagram. Clean Technol Environ Policy 13:567-579
73. Testa E, Giammusso C, Bruno M, Maggiore P (2014) Analysis of environmental benefits resulting from use of hydrogen technology in handling operations at airports. Clean Technol Environ Policy 16:875-890
74. Turner J, Sverdrup G, Mann MK, Maness PC, Kroposki B, Ghirardi M, Blake D (2008) Renewable hydrogen production. Int J Energy Res 32:379-407
75. Van Ness HC, Smith J, Abbott M (2004) Introduction to chemical engineering thermodynamics. Mcgraw-Hill Education, New York City
76. Voll F, Rossi C, Silva C, Guirardello R, Souza R, Cabral V, Cardozo-Filho L (2009) Thermodynamic analysis of supercritical water gasification of methanol, ethanol, glycerol, glucose and cellulose. Int J Hydrogen Energy 34:9737-9744
77. Wang X, Li S, Wang H, Liu B, Ma X (2008) Thermodynamic analysis of glycerin steam reforming. Energy Fuel 22:4285-4291
78. Withag JAM, Smeets JR, Bramer EA, Brem G (2011) System model for gasification of biomass model compounds in supercritical water-a thermodynamic analysis. J Supercrit Fluid 61:157-166
79. Wooley RJ, Putsche V (1996) Development of an Aspen Plus physical property database for biofuels components. NREL, Golden, Report MP-425-20685
80. Xu X, Matsumura Y, Stenberg J, Antal MJ Jr (1996) Carbon-catalyzed gasification of organic feedstocks in supercritical water. Ind Eng Chem Res 35:2522-2530
81. Yan Q, Guo L, Lu Y (2006) Thermodynamic analysis of hydrogen production from biomass gasification in supercritical water. Energy Convers Manag 47:1515-1528
82. Yaws CL (2008) Thermophysical properties of chemicals and hydrocarbons. William Andrew Publishing, New York
83. Yu D, Aihara M, Antal MJ Jr (1993) Hydrogen production by steam reforming glucose in supercritical water. Energy Fuel 7:574-577