Corrigendum to “Review of gasification fundamentals and new findings: Reactors, feedstock, and kinetic studies” [Chem. Eng. Sci. 148 (2016) 14–31, (S0009250916301440), (10.1016/j.ces.2016.03.037)];Review of gasification fundamentals and new findings: Reactors, feedstock, and kinetic studies

Chemical Engineering Science

Volumn 148, Issue , 2016, Pages 14-31

  Mahinpey, Nader ^a   Gomez, Arturo ^a  

^a UNIVERSITY OF CALGARY   (Canada)

Author keywords

Activation energy; Char surface development; Gasification rate; Kinetic model; Mass transfer; Random pore model

Indexed keywords

GASIFICATION; INERT GASES; KINETIC PARAMETERS; KINETIC THEORY; MASS TRANSFER; REACTION KINETICS;

CHAR SURFACE DEVELOPMENT; GASIFICATION KINETICS; GASIFICATION RATE; KINETIC MODELS; KINETIC STUDY; OVERALL REACTIONS; RANDOM PORE MODEL; REACTION MECHANISM; SURFACE AREA; SURFACE DEVELOPMENT;

ACTIVATION ENERGY;

EID: 84964765853     PISSN: 00092509     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ces.2024.119994     Document Type: Erratum

References (113)

1. 2 gasification rate of char in fluidized bed gasifier. Fuel 1986, 65(12):1688-1693.
2. Ahmed I.I., Gupta A.K. Kinetics of woodchips char gasification with steam and carbon dioxide. Appl. Energy 2011, 88(5):1613-1619.
3. Bhatia S.K., Perlmutter D.D. A random pore model for fluid-solid reactions: I. Isothermal and kinetic control. AIChE J. 1980, 26(3):379-386.
4. Bhatia S.K., Vartak B.J. Reaction of microporous solids: the discrete random pore model. Carbon 1996, 34(11):1383-1391.
5. Bielowicz B. A new technological classification of low-rank coal on the basis of Polish deposits. Fuel 2012, 96:497-510.
6. Bremaud M., Fongarland P., Anfray J., Jallais S., Schweich D., Khodakov A.Y. Influence of syngas composition on the transient behavior of a Fischer-Tropsch continuous slurry reactor. Catal. Today 2005, 106:137-142.
7. Coda B., Cieplik M.J., de Wild P.J., Kiel J.H. Slagging behavior of wood ash under entrained-flow gasification conditions. Energy Fuels 2007, 21:3644-3652.
8. Chhiti Y., Salvador S., Commandre J., Broust F., Couhert C. Wood bio-oil noncatalytic gasification: influence of temperature, dilution by an alcohol and ash content. Energy Fuels 2011, 25:345-351.
9. 3 addition during steam gasification. Fuel Process. Technol. 2013, 114:75-80.
10. Collot A. Matching gasification technologies to coal properties. Int. J. Coal Geol. 2006, 65(3):191-212.
11. Cousins A., Hughes R.W., McCalden D.J., Lu D.Y., Anthony E.J. Waste classification of clag generated in a pilot-scale entrained-flow gasifier. CSIRO Canmet ENERGY 2012, 2:37-44. (last accessed August 2014). http://www.coalcgp-journal.org.
12. Datta S., Sarkar P., Chavan P.D., Saha S., Sahu G., Sinha A.K., Saxena V.K. Agglomeration behavior of high ash Indian coals in fluidized bed gasification pilot plant. Appl. Therm. Eng. 2015, 86:222-228.
13. De Micco G., Nasjleti A., Bohe A.E. Kinetics of the gasification of a Rio Turbio coal under different pyrolysis temperatures. Fuel 2012, 95:537-543.
14. Dermot J.R. A syngas network for reducing industrial carbon footprint and energy use. Appl. Therm. Eng. 2013, 53:299-304.
15. Detournay M., Hemati M., Andreux R. Biomass steam gasification in fluidized bed of inert or catalytic particles: Comparison between experimental results and thermodynamic equilibrium predictions. Powder Technol. 2011, 208(2):558-567.
16. Di Blasi C. Combustion and gasification rates of lignocellulosic chars. Prog. Energy Combust. 2009, 35:121-140.
17. Duchesne M.A., Ilyushechkin A.Y., Hughes R.W., Lu D.Y., McCalden D.J., Macchi A., Anthony E.J. Flow behavior of slags from coal and petroleum coke blends. Fuel 2012, 97:321-328.
18. EIA (US Energy Information Administration), 2011. Natural Gas Consumption Has Two Peaks Each Year. 〈〉 (last accessed August 2014). http://www.eia.gov/todayinenergy/detail.cfm?id=2050.
19. EIA (US Energy Information Administration), 2013. Future Power Market Shares of cOal, Natural Gas Generators Depend on Relative Fuel Prices. 〈〉 (last accessed August 2014). http://www.eia.gov/todayinenergy/detail.cfm?id=10951.
20. Fermoso J., Arias B., Pevida C., Plaza M.G., Rubiera F., Pis J.J. Kinetic models comparison for steam gasification of different nature fuel chars. J. Therm. Anal. Calorim. 2008, 91(3):779-786.
21. 2-rich gas production. Bioresour. Technol. 2010, 101:3230-3235.
22. Fermoso J., Gil M.V., García S., Pevida C., Pis J.J., Rubiera F. Kinetic parameters and reactivity for the steam gasification of coal chars obtained under different pyrolysis temperatures and pressures. Energy Fuels 2011, 25:3574-3580.
23. Fogler H.S. Elements of Chemical Reaction Engineering. Diffusion and Reaction 2006, 813-851. Pearson Education, Inc, Boston. 4th ed.
24. 2 atmospheres. Energy 2012, 48:510-518.
25. 2 coal gasification: Is there really a maximum reaction rate?. Appl. Energy 2014, 124:73-81.
26. 2 coal gasification kinetics based only on parent coal characterization properties. Appl. Energy 2015, 137:126-133.
27. 2 and steam gasification. Chem. Eng. Res. Des. 2015, 95:346-357.
28. 2 gasification: a new method to reduce interparticle diffusion. Fuel 2015, 148:160-167.
29. 2 gasification rate of high ash, South African coal. Fuel Process. Technol. 2011, 92(10):2048-2054.
30. Hernandez J.J., Ballesteros R., Aranda G. Characterization of tars from biomass gasification: effect of the operating conditions. Energy 2012, 50:333-342.
31. Hernandez J.J., Aranda G., Barba J., Mendoza J.M. Effect of steam content in the air-steam flow on biomass entrained flow gasification. Fuel Process. Technol. 2012, 99:43-55.
32. Hernandez J.J., Aranda-Almansa G., Bula A. Gasification of biomass wastes in an entrained flow gasifier: effect of the particle size and the residence time. Fuel Process. Technol. 2012, 91:681-692.
33. 2 emissions of coal-fired power plants. Appl. Energy 2011, 88:3917-3929.
34. 2 gasification reactivity of biomass char. Biotechnol. Adv. 2009, 27:568-572.
35. 2 atmosphere and its kinetics since 1948: a brief review. Energy 2011, 36:12-40.
36. Jing N., Wang Q., Cheng L., Luo Z., Cen K., Zhang D. Effect of temperature and pressure on the mineralogical and fusion characteristics of Jincheng coal ash in simulated combustion and gasification environments. Fuel 2013, 104:647-655.
37. Jones J.M., Darvell L.I., Bridgeman T.G., Pourkashanian M., Williams A. An investigation of the thermal and catalytic behaviour of potassium in biomass combustion. Proc. Combust. Inst. 2006, 31:1955-1963.
38. Kajitani S., Hara S., Matsuda H. Gasification rate analysis of coal char with a pressurized drop tube furnace. Fuel 2001, 81:539-546.
39. 2 gasification rate analysis of coal char in entrained flow coal gasifier. Fuel 2006, 85(2):163-169.
40. 2 gasification of biomass chars: a kinetic study. Energy Fuels 2009, 23:94-100.
41. Kihedu J.H., Yoshiie R., Nunome Y., Ueki Y., Naruse I. Counter-flow air gasification of woody biomass pellets in the auto-thermal packed bed reactor. Fuel 2014, 117:1242-1247.
42. Kim Y., Park J., Jung D., Miyawaki J., Yoon S., Mochida I. Low-temperature catalytic conversion of lignite: 1. Steam gasification using potassium carbonate supported on perovskite oxide. J. Ind. Eng. Chem. 2014, 20:216-221.
43. 3 on slag flow properties at high temperatures. Fuel 2012, 109:76-85.
44. Kong Y., Kim J., Chun D., Lee S., Rhim Y., Lim J., Choi H., Kim S., Yoo J. Comparative studies on steam gasification of ash-free coals and their original raw coals. Int. J. Hydrog. Energy 2014, 39:9212-9220.
45. 2 gasification of ash-free coal: Kinetic study. Energy Fuels 2013, 27:4875-4883.
46. 2 atmosphere. Fuel 2014, 117:1181-1189.
47. 3 catalyzed steam gasification of ash-free coal. Studying the effect of temperature on carbon conversion and gas production rate using a drop-down reactor. Fuel 2014, 128:210-219.
48. Kosminski A., Ross D.P., Agnew J.B. Influence of gas environment on reactions between sodium and silicon minerals during gasification of low-rank coal. Fuel Process. Technol. 2006, 87:953-962.
49. Kosminski A., Ross D.P., Agnew J.B. Reactions between sodium and silica during gasification of a low-rank coal. Fuel Process. Technol. 2006, 87:1037-1049.
50. Lee S.H., Yoon S.J., Ra H.W., Son Y., Hong J.C., Lee J.G. Gasification characteristics of coke and mixture with coal in an entrained-flow gasifier. Energy 2012, 35:3239-3244.
51. Loewenberg D.A., Levendis W.A. Combustion behavior and kinetics of synthetic and coal-derived chars: Comparison of theory and experiment. Combust. Flame 1991, 84:47-65.
52. Lu T., Li K., Zhang R., Bi J. Addition of ash to prevent agglomeration during catalytic coal gasification in a pressurized fluidized bed. Fuel Process. Technol. 2015, 134:414-423.
53. Ma, L., Zhu, Y., Chen, H., Ding, Y., 2011. An environment friendly energy recovery technology: Municipal solid waste gasification. In: Proceedings of the Third International Conference on Measuring Technology and Mechatronics Automation, pp. 407-409.
54. 2 gasification of petroleum coke at high pressure. Energy Fuels 2011, 25:4043-4048.
55. 2 gasification of Indian coal chars in the context of underground coal gasification. Ind. Eng. Chem. Res. 2012, 51:15041-15052.
56. 2 and steam gasification of a grapefruit skin char. Fuel 2002, 81(4):423-429.
57. Marrone P.A., Hong G.T. Corrosion control methods in supercritical water oxidation and gasification processes. J. Supercritic. Fluid 2009, 51:83-103.
58. Materazzi M., Lettieri P., Mazzei L., Taylor R., Chapman C. Tar evolution in a two stage fluid bed-plasma gasification process for waste valorization. Fuel Process. Technol. 2014, 128:146-157.
59. Matthews H.D., Gillet N.P., Stott P.A., Zickfeld K. The proportionality of global warming to cumulative carbon emissions. Nature 2009, 459:829-832.
60. McKendry P. Energy production from biomass (Part 3): gasification technologies. Bioresour. Technol. 2002, 83:55-63.
61. Minchener A. Coal gasification for advanced power generation. Fuel 2005, 84(17):2222-2235.
62. 2: The catalytic effects of K and Ca species on char gasification reactivity. Fuel Process. Technol. 2011, 92:26-31.
63. NETL (The national energy technology laboratory), 2002. Gasification technologies: gasification markets and technologies- present and future. 〈〉 (last accessed August 2014). http://www.netl.doe.gov/File%20library/research/coal/energy%20systems/gasification/gasifipedia/Gasification_Technologies.pdf.
64. Nipattummakul N., Ahmed I., Kerdsuwan S., Gupta A.K. High temperature steam gasification of wastewater sludge. Appl. Energy 2010, 87(12):3729-3734.
65. Nzihou A., Stanmore B., Sharrock P. A review of catalysts for the gasification of biomass char, with some reference to coal. Energy 2013, 58:305-317.
66. 2 Gasification of Argentinean coal chars: a kinetic characterization. Fuel Process. Technol. 2001, 74(3):161-176.
67. O'Keefe J.M.K., Bechtel A., Christanis K., Dai S., DiMichele W.A., Eble C.F., et al. On the fundamental difference between coal rank and coal type. Int. J. Coal Geol. 2013, 118:58-87.
68. Pian, C.C., 2002. Regenerative gasification systems operating on farm-waste and bioenergy-crop feedstocks. In: Proceedings of the 37th Intersociety Energy Conversion Engineering Conference, pp. 668-674.
69. Qian F., Kong X., Cheng H., Du W., Zhong W. Development of a kinetic model for industrial entrained flow coal gasifiers. Ind. Eng. Chem. Res. 2013, 52:1819-1828.
70. Qin K., Lin W., Jensen P.A., Jensen A.D. High-temperature entrained flow gasification of biomass. Fuel 2011, 93:589-600.
71. 2/steam at high temperatures. Energy Fuels 2013, 27:5054-5068.
72. Rezaiyan J., Cheremisinoff N.P. Gasification Technologies, A premier for Engineer and Scientists 2005, CRC Press, Taylor & Francis Group, Boca Raton.
73. Rivolta Hernandez M., Figueroa Murcia C., Gupta R., De Klerk A. Solvent-coal-mineral interaction during solvent extraction of coal. Energy Fuels 2012, 26(11):6834-6842.
74. Roll H., Hedden K. Entrained flow gasification of coarsely ground Chinese reed. Chem. Eng. Process. 1994, 33:353-361.
75. 2 using a standardised methodology for fixed-bed gasification. Chem. Eng. Sci. 2015, 128:82-91.
76. Ruiz J., Juarez M., Morales M., Munoz P., Mendivil M. Biomass gasification for electricity generation: review of current technology barriers. Renew. Sust. Energy Rev. 2013, 18:174-183.
77. Ruj B., Ghosh S. Technological aspects for thermal plasma treatment of municipal solid waste-A review. Fuel Process. Technol. 2014, 126:298-308.
78. Rutberg Ph.G., Bratsev A.N., Kuznetsov V.A., Popov V.E., Ufimtsev A.A., Shtengel S.V. On efficiency of plasma gasification of wood residues. Biomass. Bioenergy 2011, 35:495-504.
79. Schrober H.H., Streeter R.C., Diehl E.K. Flow properties of low-rank coal ash slags: implications for slagging gasification. Fuel 1985, 64(11):1611-1617.
80. Schweinfurth, S.P., 2009. An introduction to coal quality. U.S. Geological Survey Professional Paper 1625-F. 〈〉 (last accessed August 2014). http://pubs.usgs.gov/pp/1625f/downloads/ChapterC.pdf.
81. Senapati P.K., Behera S. Experimental investigation on an entrained flow type biomass gasification system using coconut coir dust as powdery biomass feedstock. Bioresour. Technol. 2012, 117:99-106.
82. Senneca O., Russo P., Salatino P., Masi S. The relevance of thermal annealing to the evolution of coal char gasification reactivity. Carbon 1997, 35(1):141-151.
83. Senneca O., Cortese L. Thermal annealing of coal at high temperature and high pressure. Effects on fragmentation and on rate of combustion, gasification and oxy-combustion. Fuel 2014, 116:221-228.
84. Seo D.K., Park S.S., Kim Y.T., Hwang J., Yu T. Study of coal pyrolysis by thermo-gravimetric analysis (TGA) and concentration measurements of the evolved species. J. Anal. Appl. Pyrol. 2011, 92(1):209-216.
85. Serrano D., Sanchez-Delgado S., Sobrino C., Marugan-Cruz C. Defluidization and agglomeration of a fluidized bed reactor during Cynara cardunculus L. gasification using sepiolite as a bed material. Fuel Process. Technol. 2015, 131:338-347.
86. 2 and synthesis gas. Fuel 2008, 87(4-5):491-497.
87. 2 gasification method using coal from deep unmineable seams. Ind. Eng. Chem. Res. 2013, 52:14787-14797.
88. Singer S.L., Ghoniem A.F. An adaptive random pore model for multimodal pore structure evolution with application to char gasification. Energy Fuels 2011, 25:1423-1437.
89. Smith J.M., Van Ness H.C., Abbott M.M. Introduction to Chemical Engineering Thermodynamics 2005, McGraw-Hill, New York. 7th ed.
90. Su J.L., Perlmutter D.D. Effect of pore structure on char oxidation kinetics. AIChE J. 1985, 31:973-981.
91. Tafur-Marinos J.A., Ginepro M., Pastero L., Torazzo A., Paschetta E., Fabbri D., Zelano V. Comparison of inorganic constituents in bottom and fly residues from pelletised wood pyro-gasification. Fuel 2014, 119:157-162.
92. Thibault B. Electricity From Coal: Time to Turn the Page on Canada's Dirtiest Source of Power 2012, Pembina Institute, (last accessed July 2014). http://www.pembina.org/blog/634.
93. Thy P., Jenkins B.M., Lesher C.E., Grundvig S. Compositional constraints on slag formation and potassium volatilization from rice straw blended wood fuel. Fuel Process. Technol. 2005, 87:383-408.
94. Tomlinson L., Cory N.J. Hydrogen emission during the steam oxidation of ferritic steels: kinetics and mechanism. Corros. Sci. 1989, 29(8):939-965.
95. Tremel A., Haselstenier T., Kunze C., Spliethoff H. Experimental investigation of high temperature and high pressure coal gasification. Appl. Energy 2011, 92:79-285.
96. Tremel A., Haselsteiner T., Nakonz M., Spliethoff H. Coal and char properties in high temperature entrained flow gasification. Energy 2012, 45:176-182.
97. Tremel A., Spliethoff H. Gasification kinetics during entrained flow gasification - Part II: intrinsic char reaction rate and surface area development. Fuel 2013, 107:653-661.
98. Tremel A., Becherer D., Fendt S., Gaderer M., Spliethoff H. Performance of entrained flow and fluidised bed biomass gasifiers on different scales. Energy Convers. Manag. 2013, 69:95-106.
99. Umeki K., Moilanen A., Gómez-Barea A., Konttinen J. A model of biomass char gasification describing the change in catalytic activity of ash. Chem. Eng. J. 2012, 207-208:616-624.
100. Umeki K., Namioka T., Yoshikawa K. The effect of steam on pyrolysis and char reactions behavior during rice straw gasification. Fuel Process. Technol. 2012, 94(1):53-60.
101. 2O considering sharing of active sites. Fuel 2013, 103:14-21.
102. Wall T.F., Liu G., Wu H., Roberts D.G., Benfell K.E., Gupta S., Lucas J.A., Harris D.J. The effects of pressure on coal reactions during pulverised coal combustion and gasification. Prog. Energy Combust. 2002, 28:405-433.
103. Wang B., Li X., Xu S., Paterson N., Dugwell D.R., Kandiyoti R. Performance of Chinese coals under conditions simulating entrained-flow gasification. Energy Fuels 2005, 19(5):2006-2013.
104. 3 for enhanced production of hydrogen without formation of methane. Fuel 2009, 88(9):1572-1579.
105. Warnecke R. Gasification of biomass: comparison of fixed bed and fluidized bed gasifier. Biomass. Bioenergy 2000, 18:489-497.
106. Yoon S.J., Choi Y., Son Y., Lee S., Lee J. Gasification of biodiesel by-product with air or oxygen to make syngas. Bioresour. Technol. 2009, 101:1227-1232.
107. Zhang Q., Wu Y., Dor L., Yang W., Blasiak W. A thermodynamic analysis of solid waste gasification in the Plasma Gasification Melting process. Appl. Energy 2013, 112:405-413.
108. Zhao Y., Sun S., Tian H., Qian J., Su F., Ling F. Characteristics of rice husk gasification in an entrained flow reactor. Bioresour. Technol. 2009, 100:6040-6044.
109. Zhao Y., Sun S., Zhou H., Sun R., Tian H., Luan J., Qian J. Experimental study on sawdust air gasification in an entrained-flow reactor. Fuel Process. Technol. 2012, 91:910-914.
110. Zhou J., Chen Q., Zhao H., Cao X., Mei Q., Luo Z., Cen K. Biomass-oxygen gasification in a high-temperature entrained-flow gasifier. Biotechnol. Adv. 2009, 27:606-611.
111. Zhu W., Song W., Lin W. Catalytic gasification of char from co-pyrolysis of coal and biomass. Fuel Process. Technol. 2008, 89(9):890-896.
112. 2. Chem. Eng. Process. 2006, 46:630-636.
113. Zoulalian A., Bounaceur R., Dufour A. Kinetic modelling of char gasification by accounting for the evolution of the reactive surface area. Chem. Eng. Sci. 2015, 138:281-290.