Model of Vapor—Air Gasification of a Solid Fuel in a Filtration Mode

Салганский, Е. А.; Fursov, V. P.; Глазов, С. В.; Salganskaya, M. V.; Манелис, Г. Б.

doi:10.1007/s10573-006-0007-9

Cited by 25 publications

(9 citation statements)

References 6 publications

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“…Experimental hybrid filtration combustion has been studied for syngas production using carbon [18], coal [19], wood pellets [20] and polyethylene [21] among other solid fuels and a mathematical model based on mass and energy equilibrium equations has been proposed [22,23]. Salgansky et al [19] studied and modeled [22] the filtration combustion of a steameair flow in a porous media composed on carbon and an inert solid material; temperature in the combustion wave and product composition are obtained varying the carbon fraction (from 10 to 100%) and steam (varying water/oxygen from 1 to 4.5) present in the oxidant. The maximum combustion wave temperature showed a slight dependence on the porous bed composition and steam presence.…”

Section: Introductionmentioning

confidence: 99%

Syngas production from residual biomass of forestry and cereal plantations using hybrid filtration combustion

Caro

Torres

Toledo

2015

International Journal of Hydrogen Energy

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Section: Introductionmentioning

confidence: 99%

Syngas production from residual biomass of forestry and cereal plantations using hybrid filtration combustion

Caro

Torres

Toledo

2015

International Journal of Hydrogen Energy

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“…In both calculations and experiments, the CO yield increases with increasing fraction of carbon, and the concentration decreases as the maximum value is reached in the region of transitional waves (25-35% of carbon [18]). For carbon fractions over 60%, the CO yield increases in experiments, while theoretical calculations did not predict an increase in the CO concentration in gasification products.…”

Section: Resultsmentioning

confidence: 91%

Filtration combustion of a carbon-inert material system in the regime with superadiabatic heating

Salgansky

Кислов

Глазов

et al. 2008

Combust Explos Shock Waves

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Superadiabatic regimes of combustion of carbon mixed with an inert solid with filtration of the steam-air mixture are studied theoretically and experimentally. The temperature in the combustion wave and the composition of gaseous products are obtained as functions of the fraction of carbon in the fuel and the amount of steam in the gaseous oxidant. In the examined range of the control parameters, the maximum temperature in the combustion wave is shown to depend only slightly on the fraction of carbon in the mixture and the amount of steam in the oxidant gas. Simulations of filtration combustion of carbon with allowance for the kinetics of its oxidation are in good agreement with experimental results. The calculated combustion temperature coincides with that measured in experiments. In calculating the composition of the gaseous products, coincidence with experimental data is observed only for particular compositions with the mass content of carbon under 60%. As the fraction of the fuel exceeds 60%, the yield of CO and H 2 increases in experiments, though such a behavior is not predicted by the theoretical analysis. Hypotheses on the reasons for the disagreement in results are put forward and experimentally checked.

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“…In this case, a reaction wave is produced by a flow that can contain hot air, H 2 O(g), or a gaseous fuel-air mixture that propagates along the reactor reforming the solid fuel inside within a wide-power-range, high-efficiency, high energy concentration per unit of volume and stable combustion over a wide range of equivalence ratios [23]. Several experimental studies on HFC for syngas and H 2 production have been conducted [24][25][26][27][28][29][30][31][32][33][34][35], showing that the technology presents a strong and feasible option for syngas production from gaseous and solid fuels in a batch configuration.…”

Section: Hybrid Filtration Combustion For Solid Fuelsmentioning

confidence: 99%

Syngas Fuel Production from Carbonaceous Feedstocks Using Hybrid Porous Media

Torres¹,

Ripoll²

2019

Sustainable Alternative Syngas Fuel [Working Title]

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During the last years, hybrid porous media reactors have been developed aiming to partially oxidize solid and gaseous fuels to produce reducing gases. The gases produced are mainly composed of hydrogen (H 2 ) and carbon monoxide, among other products of gasification. This hybrid process combines inert porous media (IPM) combustion and gasification of solid fuels by replacing a fraction of the inert solid volume with a solid fuel. The gaseous mixture is produced from carbon-rich reactants exposed to the high temperatures of filtration combustion. Experimental results from different solid fuels (coal, biomass, and others) and gaseous fuels (natural gas (NG), propane, and others) are presented, with detailed analysis of high temperatures (between 900 and 1800 K), velocities, and product gas composition of the combustion waves, which is able to produce [H 2 ]/[CO] ratios from 0.2 to 10.

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Model of Vapor—Air Gasification of a Solid Fuel in a Filtration Mode

Cited by 25 publications

References 6 publications

Syngas production from residual biomass of forestry and cereal plantations using hybrid filtration combustion

Syngas production from residual biomass of forestry and cereal plantations using hybrid filtration combustion

Filtration combustion of a carbon-inert material system in the regime with superadiabatic heating

Syngas Fuel Production from Carbonaceous Feedstocks Using Hybrid Porous Media

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