Effect of operating parameters on coal gasification

Agarwal AK, Sears JT (1980) The coal char reaction with CO2–CO gas mixtures. Ind Eng Chem Process Des Dev 79:364–371

Ahn DH, Gibbs BM, Ko KH, Kim JJ (2001) Gasification kinetics of an indonesian sub-bituminous coal-char with CO2 at elevated pressure. Fuel 80:1651–1658

Alvarez T, Fuertes AB, Pis JJ, Ehrburger P (1994) Influence of coal oxidation upon char gasification reactivity. Fuel 74(5):729–735

Basu P (2006) Combustion and gasification in fluidized beds. Taylor & Francis Group, Abingdon-on-Thames

Beamish BB, Shaw KJ, Rodgers KA, Newman J (1998) Thermogravimetric determination of the carbon dioxide reactivity of char from some New Zealand coals and its association with the inorganic geochemistry of the parent coal. Fuel Process Technol 53:243–253

Bhatia SK, Gupta JS (1994) Mathematical modeling of gas-solid reactions: effect of pore structure. Rev Chem Eng 8(3–4):177–258

Cakal GO, Yucel H, Guruzm AG (2007) Physical and chemical properties of selected Turkish lignites and their pyrolysis and gasification rates determined by thermogravimetric analysis. J Anal Appl Pyrolysis 80:262–268

Canel M, Mısırlıoglu Z, Sınag A (2005) Hydropyrolysis of a Turkish lignite (Tuncbilek) and effect of temperature and pressure on product distribution. Energy Convers Manag 46:2185–2197

Corella J, Toledo JM, Molina G (2006) Steam gasification of coal at low-medium (600–800 °C) temperature with simultaneous CO2 capture in fluidized bed at atmospheric pressure: the effect of inorganic species. 1. Literature review and comments. Ind Eng Chem Res 45:6137–6146

Everson RC, Neomagus HWJP, Kaitano R, Falcon R, Cann VMD (2008) Properties of high ash coal-char particles derived from inertinite-rich coal: II. Gasification kinetics with carbon dioxide. Fuel 87:3403–3408

Feng B, Bhatia SK (2003) Variation of the pore structure of coal chars during gasification. Carbon 41:507–523

Fouga GG, Micco GD, Bohe A (2011) Kinetic study of Argentinean asphaltite gasification using carbon dioxide as gasifying agent. Fuel 90:674–680

Harris DJ, Roberts DG, Henderson DG (2006) Gasification behaviour of Australian coals at high temperature and pressure. Fuel 85:134–142

Hattingh BB, Everson RC, Neomagus HWJP, Bunt JR (2011) Assessing the catalytic effect of coal ash constituents on the CO2 gasification rate of high ash, South African coal. Fuel Process Technol 92:2048–2054

Hirsch PB (1954) X-ray scattering from coals. Proc R Soc A Lond 226:143–169

Hoffmann BS, Szklo A (2011) Integrated gasification combined cycle and carbon capture: a risky option to mitigate CO2 emissions of coal-fired power plants. Appl Energy 88:3917–3929

Hurt RH, Sarofim AF, Longwell JP (1991) The role of microporous surface area in the gasification of chars from a sub-bituminous coal. Fuel 70:1079–1082

IPCC (2014) Climate change 2014: mitigation of climate change. In: Edenhofer O et al (eds) Contribution of working group III to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge

Jenkins RG, Nandi SP, Walker PL Jr (1973) Reactivity of heat-treated coals in air at 500 °C. Fuel 52:288–293

Kiihl H, Kashani-Motlagh MM, Miihlen H-J, Van Heek KH (1992) Controlled gasification of different carbon materials and development of pore structure. Fuel 71:879–882

Kim YT, Seo DK, Hwang J (2011) Study of the effect of coal type and particle size on char CO2 gasification via gas analysis. Energy Fuels 25:5044–5054

Kristiansen A (1996) Understanding coal gasification. IEA Coal Research, London

Li C-Z (2007) Some recent advances in the understanding of the pyrolysis and gasification behaviour of Victorian brown coal. Fuel 86:1664–1683

Liu G, Benyon P, Benfella KE, Bryanta GW, Tatea AG, Boyd RK, Harrisc DJ, Walla TF (2000) The porous structure of bituminous coal chars and its influence on combustion and gasification under chemically controlled conditions. Fuel 79:617–626

Liu TF, Fang YT, Wang Y (2008) An experimental investigation into the gasification reactivity of chars prepared at high temperatures. Fuel 87:460–466

Mahinpey N, Gomez A (2016) Review of gasification fundamentals and new findings: reactors, feed stock and kinetic studies. Chem Eng Sci 148:14–31

Messenbock RC, Paterson NP, Dugwell DR, Kandiyoti R (2000) Factors governing reactivity in low temperature coal gasification. Part 1. An attempt to correlate results from a suite of coals with experiments on maceral concentrates. Fuel 79:109–121

Miura K, Hashimotot K, Silveston PL (1989) Factors affecting the reactivity of coal chars during gasification and indices representing reactivity. Fuel 68:1461–1475

NCC (2015) Fossil forward: revitalizing CCS bringing scale and speed to CCS deployment. National Coal Council, Washington

Ochoa J, Cassanello MC, Bonelli PR, Cukierman AL (2001) CO gasification of Argentinean coal chars a kinetic characterization. Fuel Process Technol 74:161–176

Radovic LR, Walker PL Jr, Jenkins RG (1983) Carbon active sites in coal char gasification fuel. Fuel 62:849–856

Roberts DG, Harris DJ, Wall TF (2003) On the effects of high pressure and heating rate during coal pyrolysis on char gasification reactivity. Energy Fuels 17:887–895

Rodrigues-Reinoso F (1991) Controlled gasification of carbon and pore structure development. In: Lahaye J, Ehrburger P (eds) Fundamental issues in control of carbon gasification reactivity. Springer, Dordrecht, pp 533–571

Rubin ES, Davison JE, Herzog HJ (2015) The cost of CO2 capture and storage. Int J Greenhouse Gas Control 40:378–400

Saha S (2013) Studies on physical properties of Indian coals and its effect on coal gasification kinetics, (Ph.D Dissertation). Indian School of Mines, Dhanbad, India

Schobert HH (1992) Catalytic and chemical behaviour of coal mineral matter behaviour in the coal conversion process. In: Yürüm Y (ed) Clean utilization of coal: coal structure and reactivity, cleaning and environmental aspects. Kluwer Academic Publishers, Dordrecht, pp 65–73

Sha XZ, Chen YG, Cao J, Yang YM, Ran DQ (1990) Effects of operating pressure on coal gasification. Fuel 69:656–659

Shufen L, Ruizheng S (1994) Kinetic studies of a lignite char pressurized gasification with CO, H2 and steam. Fuel 73(3):413–416

Siauw HN, Fung DPC, Kim SD (1984) Some physical properties of Canadian coals and their effects on coal reactivity. Fuel 63:1564–1569

Simons GA (1983) The role of pore structure in coal pyrolysis and gasification. Prog Energy Combust Sci 9:269–290

Song BH, Kim S (1993) Catalytic activity of alkali and iron salt mixtures for steam-char gasification. Fuel 72(6):797–803

Takarada T, Tamai Y, Tomita A (1986) Effectiveness of K2CO3 and Ni as catalysts in steam gasification. Fuel 65:679–683

Tanner J, Bhattacharya S (2016) Kinetics of CO2 and steam gasification of Victorian brown coal chars. Chem Eng J 285:331–340

Wang G, Zhang J, Hou X, Shao J (2015) Geng W, Study on CO2 gasification properties and kinetics of biomass chars and anthracite char. Biores Technol 177:66–73

Wu Y, Wu S, Gu J, Gao J (2009) Differences in physical properties and CO2 gasification reactivity between coal char and petroleum coke. Process Saf Environ Prot 87:323–330

Xiao R, Zhang M, Jin B, Huang Y (2006) High-temperature air/steam-blown gasification of coal in a pressurized spout-fluid bed. Energy Fuels 20:715–720

Ye DP, Agnew JB, Zhang DK (1998) Gasification of a South Australian low-rank coal with carbon dioxide and steam: kinetics and reactivity studies. Fuel 77(11):1209–1219

Yu J, Lucas JA, Wall TF (2007) Formation of the structure of chars during devolatilization of pulverized coal and its thermoproperties: a review. Prog Energy Combust Sci 33:135–170

Zhang L, Huang J, Fang Y, Wang Y (2006) Gasification reactivity and kinetics of typical chinese anthracite chars with steam and CO2. Energy Fuels 20:1201–1210