Modeling study of hydrogen production via partial oxidation of H 2 S–H 2 O blend
Autor: | Alexander M. Starik, V.A. Savelieva, Nataliya S. Titova |
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Rok vydání: | 2017 |
Předmět: |
Reaction mechanism
Atmospheric pressure Renewable Energy Sustainability and the Environment Chemistry 05 social sciences Flow (psychology) Energy Engineering and Power Technology Thermodynamics 02 engineering and technology 021001 nanoscience & nanotechnology Condensed Matter Physics Fuel Technology Scientific method 0502 economics and business Thermal Partial oxidation 050207 economics 0210 nano-technology Pyrolysis Hydrogen production |
Zdroj: | International Journal of Hydrogen Energy. 42:10854-10866 |
ISSN: | 0360-3199 |
Popis: | Kinetic analysis of the thermal partial oxidation in the H2S–H2O–O2(air) mixture in a flow reactor with given length is conducted numerically on the basis of developed reaction mechanism. This mechanism incorporates the reaction paths typical both for the H2S pyrolysis and for the H2S oxidation and describes with reasonable accuracy a large set of experimental data. The computations have demonstrated that addition of H2O to the fuel-rich H2S–O2(air) mixture allows one to increase the relative yield of H2 in the conversion products. At identical fractions of H2S and H2O in the H2S–H2O blend the increase in the H2 relative yield can mount to a factor of 1.5. Though the addition of H2O to H2S leads to the delay of the conversion of H2S, nevertheless, at initial temperature (T0 = 1000 K) it is possible to occur the conversion process in a shot flow reactor of 1 m length at atmospheric pressure. It has been shown that the formation of additional amount of H2 in the conversion products upon the H2O admixture to H2S is caused by the increase of the role of reaction H2O + H = OH + H2. The growth in the initial temperature of the H2S–H2O–O2(air) mixture increases the absolute concentration of H2 in the conversion products and its relative yield. |
Databáze: | OpenAIRE |
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