Oboirien, BOEngelbrecht, ADNorth, Brian CDu Cann, VMVerryn, SFalcon, R2010-04-082010-04-082009-10Oboirien BO; Engelbrecht AD et al 2009. Study on the structure and gasification characteristics of selected South African bituminous coal in fluidised bed gasification. International Conference on Coal Science and Technology (ICCS&T), Cape Town, 26-29 October 2009, pp 1-19http://hdl.handle.net/10204/4012International Conference on Coal Science and Technology (ICCS&T), Cape Town, 26-29 October 2009The gasification characteristics of three South African bituminous coals were investigated in a bubbling fluidised bed reactor. The three coals are similar in rank, but two are inertinite-rich coals and the third has high vitrinite content. The microstructural characteristics of the parent coals and their resultant chars were determined using XRD, FTIR, Raman and petrographic analysis. The microstructural changes that occurred in the organic (maceral) and the inorganic (mineral) fractions of the selected coals were evaluated. The change in the carbon structure was correlated to the proportions of inertinite and vitrinite macerals in the coals. High vitrinite content resulted in an increase in the order of the disordered carbon structure after gasification and this lead greater graphitised ordered carbon structures. While a high inertinite content resulted in low or no structural transformation of the chemical structure. The transformation of inorganic mineral constituents of the coal was correlated to the amount of inerntinite present in the selected coals. Higher proportions of inertinite macerals and inertinitic chars resulted in higher proportions of melted minerals. This correlation could be well related to the fact that inertinites are known to burn at higher temperatures than vitrinites and for a longer time.enBituminous coalsInerntiniteFluidised bed gasificationInertinite-richCoal scienceVitrinite-rich coalCharCoalConference PresentationOboirien, B., Engelbrecht, A., North, B. C., Du Cann, V., Verryn, S., & Falcon, R. (2009). Study on the structure and gasification characteristics of selected South African bituminous coal in fluidised bed gasification. http://hdl.handle.net/10204/4012Oboirien, BO, AD Engelbrecht, Brian C North, VM Du Cann, S Verryn, and R Falcon. "Study on the structure and gasification characteristics of selected South African bituminous coal in fluidised bed gasification." (2009): http://hdl.handle.net/10204/4012Oboirien B, Engelbrecht A, North BC, Du Cann V, Verryn S, Falcon R, Study on the structure and gasification characteristics of selected South African bituminous coal in fluidised bed gasification; 2009. http://hdl.handle.net/10204/4012 .TY - Conference Presentation AU - Oboirien, BO AU - Engelbrecht, AD AU - North, Brian C AU - Du Cann, VM AU - Verryn, S AU - Falcon, R AB - The gasification characteristics of three South African bituminous coals were investigated in a bubbling fluidised bed reactor. The three coals are similar in rank, but two are inertinite-rich coals and the third has high vitrinite content. The microstructural characteristics of the parent coals and their resultant chars were determined using XRD, FTIR, Raman and petrographic analysis. The microstructural changes that occurred in the organic (maceral) and the inorganic (mineral) fractions of the selected coals were evaluated. The change in the carbon structure was correlated to the proportions of inertinite and vitrinite macerals in the coals. High vitrinite content resulted in an increase in the order of the disordered carbon structure after gasification and this lead greater graphitised ordered carbon structures. While a high inertinite content resulted in low or no structural transformation of the chemical structure. The transformation of inorganic mineral constituents of the coal was correlated to the amount of inerntinite present in the selected coals. Higher proportions of inertinite macerals and inertinitic chars resulted in higher proportions of melted minerals. This correlation could be well related to the fact that inertinites are known to burn at higher temperatures than vitrinites and for a longer time. DA - 2009-10 DB - ResearchSpace DP - CSIR KW - Bituminous coals KW - Inerntinite KW - Fluidised bed gasification KW - Inertinite-rich KW - Coal science KW - Vitrinite-rich coal KW - Char KW - Coal LK - https://researchspace.csir.co.za PY - 2009 T1 - Study on the structure and gasification characteristics of selected South African bituminous coal in fluidised bed gasification TI - Study on the structure and gasification characteristics of selected South African bituminous coal in fluidised bed gasification UR - http://hdl.handle.net/10204/4012 ER -