Proposition of a Minimum Set of Independent Chemical Reactions To Model Gas-Phase Composition during Gasification of Complex Cokes

Paniagua-Rodríguez, Juan Carlos; Jiménez-García, Gladys; Maya-Yescas, Rafael

doi:10.1021/ef200592f

Energy Fuels

2011

DOI: 10.1021/ef200592f

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Proposition of a Minimum Set of Independent Chemical Reactions To Model Gas-Phase Composition during Gasification of Complex Cokes

Juan Carlos Paniagua-Rodríguez

Gladys Jiménez-García

Rafael Maya-Yescas

Abstract: Petroleum coke, obtained as a product from the delayed coking of vacuum residue, could experiment with gasification, helped by oxygen and steam, to recover hydrogen and/or energy. To model and simulate this process, it is necessary to predict gas-phase composition, considering the reaction of molecules of coke, oxygen, carbon monoxide, carbon dioxide, and water. In previous works, coke has been considered as a mixture of independent elements, such as carbon, hydrogen, oxygen, sulfur, nitrogen, and ashes; howev… Show more

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2024

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Pressure Behaviors and Isothermal Kinetics of Magnesiothermic Reduction of Titanium Tetrachloride in a Semi-batch Reactor

Wang,

2024

Metall Mater Trans B

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There is still no consensus on the pressure behaviors, thermal hazard, reaction pathways, and kinetic characteristics of magnesiothermic reduction of TiCl 4 , and theoretical innovations are required for further research of titanium sponge metallurgy. We determined e cient reaction pathways via chemical reaction stoichiometry methodology and proposed an innovative isothermal kinetic modeling approach for the magnesiothermic reduction of TiCl 4 . The net chemical reaction rate of the titanium sponge decreased with decreasing feeding rate of TiCl 4 and with increasing gauge pressure, to relieve its rapid pressurization and thermal runaway. The reaction order and activation energy were α = 1.30 and E a =60.85 ± 4.58 kJ•mol -1 at temperature range of 1053.0 K to 1073.0 K, respectively. And reaction order and activation energy were α = 1.50 and E a =56.46 ± 1.31 kJ•mol -1 at temperature range of 1073.0 K to 1123.0 K, respectively. The self-heating of magnesiothermic reduction of TiCl 4 causes its selfacceleration. And the autocatalytic effect of the sponge structure of the new-formed may play an irreplaceable role.

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Pressure Behaviors and Isothermal Kinetics of Magnesiothermic Reduction of Titanium Tetrachloride in a Semi-batch Reactor

Wang,

2024

Metall Mater Trans B

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Proposition of a Minimum Set of Independent Chemical Reactions To Model Gas-Phase Composition during Gasification of Complex Cokes

Cited by 1 publication

References 10 publications

Pressure Behaviors and Isothermal Kinetics of Magnesiothermic Reduction of Titanium Tetrachloride in a Semi-batch Reactor

Pressure Behaviors and Isothermal Kinetics of Magnesiothermic Reduction of Titanium Tetrachloride in a Semi-batch Reactor

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