Performance Assessment of Fischer–Tropsch Liquid Fuels Production by Solar Hybridized Dual Fluidized Bed Gasification of Lignite

Guo, Peijun; Eyk, Philip J. van; Saw, Woei L.; Ashman, Peter J.; Nathan, Graham J.; Stechel, Ellen B.

doi:10.1021/acs.energyfuels.5b00007

Cited by 36 publications

(64 citation statements)

References 48 publications

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“…As a versatile building block in the chemical industry and fuel synthesis, synthesis gas (syngas) plays an important role in industry [3][4][5]. Currently, syngas production largely depends on fossil sources through the reforming process [6].…”

Section: Introductionmentioning

confidence: 99%

Characteristics and catalytic properties of Ni/CaAlO x catalyst for hydrogen-enriched syngas production from pyrolysis-steam reforming of biomass sawdust

Chen

Dong

et al. 2016

Applied Catalysis B: Environmental

135

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Abstract:The production of hydrogen-enriched syngas from the thermo-chemical conversion of biomass was studied using Ni/CaAlO x catalysts prepared by coprecipitation method. The effect of Ca addition with different molar ratios of Ca:Al (1:3, 1:2, 1:1, 2:1, 3:1) on the properties and catalytic behaviour in relation to syngas production and the coke formation on the surface of the catalysts were investigated.Catalysts were characterized by BET, XRD, TPR, SEM, and TEM. The SEM and TEM results showed that rod-shaped nano-particles were highly dispersed on the surface of the catalyst. The particle size of NiO was slightly affected with the increase of Ca content in the catalyst. It appeared that the selectivity of CO was increased and the selectivity of CO 2 was reduced with the increase of Ca addition to the catalyst. For example, CO 2 concentration was reduced from 20 to 12 Vol.%, when the molar ratio of Ca/Al was increased from 1:3 to 3:1 for the Ni/CaAlO x catalyst; it is suggested that the water gas shift reaction was inhibited and CO 2 reforming reactions were promoted in the presence of the catalyst with higher Ca content. The CO/H 2 molar ratio could be manipulated by changing the Ca content in the catalyst, while the H 2 concentration remained almost constant (around 45 Vol.%). Thus, using the Ni/CaAlO x catalyst developed in this work could provide a promising route to control the syngas composition, which is an important factor for syngas applications.

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Section: Introductionmentioning

confidence: 99%

Characteristics and catalytic properties of Ni/CaAlO x catalyst for hydrogen-enriched syngas production from pyrolysis-steam reforming of biomass sawdust

Chen

Dong

et al. 2016

Applied Catalysis B: Environmental

135

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“…For all runs of Table 3, τ was in the range 0.7 -4.6 s. Note that since X C < 1 (incomplete conversion), only the converted feedstock was accounted in Eqs. (2) and (3). The peak values of the performance indicators obtained were: X C = 94.4%, η solar-to-fuel = 19.7%, and U = 1.35.…”

Section: The I-i Solar Reactormentioning

confidence: 89%

“…Ultimately, solar gasification offers an efficient means of storing intermittent solar energy in a transportable and dispatchable chemical form. To overcome the intermittency of solar radiation, hybrid solar gasification concepts are proposed for around-the-clock process operation [2][3][4][5].…”

Section: Introductionmentioning

confidence: 99%

A pressurized high-flux solar reactor for the efficient thermochemical gasification of carbonaceous feedstock

Müller

Poživil

Eyk

et al. 2017

Fuel

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We report on the design and first-ever experimental demonstration of a 3 kW pressurized solar reactor for thermochemically converting carbonaceous feedstocks into gaseous fuels. It uses a windowless SiC cavity to efficiently absorb and transfer concentrated solar radiation to an annular gas-particle vortex flow created by injecting tangentially a charcoal/water slurry at high pressures. Experiments were carried out in a high-flux solar simulator under a solar concentration ratio equivalent to 3718 suns. For slurry feeding rates in the range 0.42-1.26 g/min, H 2 O:C molar ratios in the range 1.48-1.98, and absolute reactor pressures in the range 1-6 bar, the nominal reactor temperature was between 1009 and 1273 °C yielding high-quality syngas with a carbon conversion up to 94% within residence times of less than 5

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“…Moreover, FBs, if properly designed and operated, may provide an appropriate environment for solar-driven heterogeneous chemical processes. The FBs potential was recognized and reported as early as in '80s (Flamant et al, 1980;Flamant, 1982;Flamant and Olalde, 1983;von Zedtwitz and Steinfeld, 2005;Gomez-Garcia et al, 2017) and FB reactors were operated with success at lab-scale for the production of solar fuels/ chemicals (von Zedtwitz et al, 2007;Gokon et al, 2015;Guo et al, 2015;Chuayboon et al, 2018a).…”

Section: Fluidized Bed Solar Receivers and Reactors: Basic Design And Operational Features Particle Receivers And Fluidized Bedsmentioning

confidence: 99%

Fluidized Beds for Concentrated Solar Thermal Technologies—A Review

et al. 2021

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Thermal and thermochemical processes can be efficiently developed and carried out in fluidized beds, due to the unique properties of fluidized suspensions of solid particles and to the inherent flexibility of fluidized bed design and operation. Coupling fluidization with concentrated solar power is a stimulating cross-disciplinary field of investigation, with the related issues and opportunities to explore. In this review article the current and perspective applications of fluidized beds to collection, storage and exploitation of solar radiation are surveyed. Novel and “creative” designs of fluidized bed solar receivers/reactors are reported and critically discussed. The vast field of applications of solar-driven fluidized bed processes, from energy conversion with thermal energy storage, to solids looping for thermochemical energy storage, production of fuels, chemicals and materials, is explored with an eye at past and current developments and an outlook of future perspectives.

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Performance Assessment of Fischer–Tropsch Liquid Fuels Production by Solar Hybridized Dual Fluidized Bed Gasification of Lignite

Cited by 36 publications

References 48 publications

Characteristics and catalytic properties of Ni/CaAlO x catalyst for hydrogen-enriched syngas production from pyrolysis-steam reforming of biomass sawdust

Characteristics and catalytic properties of Ni/CaAlO x catalyst for hydrogen-enriched syngas production from pyrolysis-steam reforming of biomass sawdust

A pressurized high-flux solar reactor for the efficient thermochemical gasification of carbonaceous feedstock

Fluidized Beds for Concentrated Solar Thermal Technologies—A Review

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