Hydrogen-Rich Gas Production by Sorption Enhanced Steam Reforming of Woodgas Containing TAR over a Commercial Ni Catalyst and Calcined Dolomite as CO2 Sorbent

Sisinni, Mario; Carlo, Andrea Di; Bocci, Enrico; Micangeli, Andrea; Naso, Vincenzo

doi:10.3390/en6073167

Cited by 40 publications

(19 citation statements)

References 36 publications

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“…Nowadays, methane steam reforming is the most conventional and economical process for hydrogen production [3,4] but other technologies, including biofuels conversion, have been intensively investigated, also due to the bio-feedstock's ability to act as an emission sink within a carbon-balanced life-cycle [5,6]. Moreover, among the various renewable sources, biomass is highly promising due to its abundance and low cost [7,8]. Biofuels can be produced both from food crops (first generation), as well as the residuals of agricultural and forestry wastes (second generation).…”

Section: Introductionmentioning

confidence: 99%

Influence of Catalytic Formulation and Operative Conditions on Coke Deposition over CeO2-SiO2 Based Catalysts for Ethanol Reforming

et al. 2017

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Abstract:In this work, a series of CeO 2 -SiO 2 (30 wt % of ceria)-based catalysts was prepared by the wetness impregnation method and tested for ESR (ethanol steam reforming) at 450-500 • C, atmospheric pressure and a water/ethanol ratio increasing from 4 to 6 (the ethanol concentration being fixed to 10 vol %); after every test, coke gasification measurements were performed at the same water partial pressure, and the temperature of the test and the gasified carbon was measured from the areas under the CO and CO 2 profiles. Finally, oxidation measurements under a 5% O 2 /N 2 stream made it possible to calculate the total carbon deposited. In an attempt to improve the coke resistance of a Pt-Ni/CeO 2 -SiO 2 catalyst, the effect of support basification by alkali addition (K and Cs), as well as Pt substitution by Rh was investigated. The novel catalysts, especially those containing Rh, displayed a lowering in the carbon formation rate; however, a faster reduction of ethanol conversion with time-on-stream and lessened hydrogen selectivities were recorded. In addition, no significant gain in terms of coke gasification rates was observed. The most active catalyst (Pt-Ni/CeO 2 -SiO 2 ) was also tested under different operative conditions, in order to study the effect of temperature and water/ethanol ratio on carbon formation and gasification. The increase in the water content resulted in an enhanced reactor-plugging time due to reduced carbonaceous deposits formation; however, no effect of steam concentration on the carbon gasification rate were recorded. On the other hand, the increase in temperature from 450-500 • C lowered the coke selectivity by almost one order of magnitude improving, at the same time, the contribution of the gasification reactions.

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Section: Introductionmentioning

confidence: 99%

Influence of Catalytic Formulation and Operative Conditions on Coke Deposition over CeO2-SiO2 Based Catalysts for Ethanol Reforming

et al. 2017

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“…Alkaline materials such as CaO have high sorption capacities and rapid kinetics, making them suitable candidates for CO 2 capture [2][3][4]. High temperature CO 2 capture by CaO has been studied in related works [5][6][7]; they demonstrate that warm CO 2 capture with calcium oxides is feasible for use in related industrial applications.…”

Section: Introductionmentioning

confidence: 98%

Carbon dioxide removal using calcium aluminate carbonates on titanic oxide under warm-gas conditions

Kuo

Chen

2016

Applied Energy

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“…In addition, also organic (tar) and inorganic (H 2 S, HCl, NH 3 , alkali metals) impurities and particulate are generated. The obtained syngas could be used to produce electric energy by Combined Heat and Power systems (CHP), such as Internal Combustion Engine or Fuel Cell [2]- [4], or to produce Hydrogen [5] or Biofuel (CH 4 , methanol). However, in order to be exploitable the syngas should be completely purified from all the impurities, since they are the main cause of clogging and damage of the entire system.…”

Section: Introductionmentioning

confidence: 99%

Perovskite sensing materials for syngas composition monitoring and biomass gasifier numerical model validation: A preliminary approach

Pallozzi¹,

Carlo²,

Zaza³

et al. 2016

AIP Conference Proceedings

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Abstract. Biomass gasification represents a suitable choice for global environmental impact reduction, but more efforts on the process efficiency need to be conducted in order to enhance the use of this technology. Studies on inputs and outputs of the process, as well as measurements and controls of syngas composition and correlated organic and inorganic impurities, are crucial points for the optimization of the entire process: models of the system and sensing devices are, thus, very attractive for this purpose. In particular, perovskite based chemoresistive sensors could represent a promising technology, since their simplicity in function, relatively low cost and direct high temperature operation. The aim of this work is to develop a steam fluidized bed biomass gasifier model, for the prediction of the process gas composition, and new perovskite compounds, LaFeO 3 based, as sensing material of chemoresistive sensors for syngas composition and impurities measurements. Chemometric analysis on the combustion synthesis via citrate-nitrate technique of LaFeO 3 was also performed, in order to evaluate the relationship between synthesis conditions and perovskite materials and, thus, sensor properties. Performance of different sensors will be tested, in next works, with the support of the developed gasifier model.

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Hydrogen-Rich Gas Production by Sorption Enhanced Steam Reforming of Woodgas Containing TAR over a Commercial Ni Catalyst and Calcined Dolomite as CO2 Sorbent

Cited by 40 publications

References 36 publications

Influence of Catalytic Formulation and Operative Conditions on Coke Deposition over CeO2-SiO2 Based Catalysts for Ethanol Reforming

Influence of Catalytic Formulation and Operative Conditions on Coke Deposition over CeO2-SiO2 Based Catalysts for Ethanol Reforming

Carbon dioxide removal using calcium aluminate carbonates on titanic oxide under warm-gas conditions

Perovskite sensing materials for syngas composition monitoring and biomass gasifier numerical model validation: A preliminary approach

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