Journal ArticleDOI
A review of the primary measures for tar elimination in biomass gasification processes
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In this paper, a review of the research and development in this area are reviewed and cited in the present paper, and the concepts of two-stage gasification and secondary air injection in the gasifier are of prime importance.Abstract:
Tar formation is one of the major problems to deal with during biomass gasification. Tar condenses at reduced temperature, thus blocking and fouling process equipments such as engines and turbines. Considerable efforts have been directed on tar removal from fuel gas. Tar removal technologies can broadly be divided into two approaches; hot gas cleaning after the gasifier (secondary methods), and treatments inside the gasifier (primary methods). Although secondary methods are proven to be effective, treatments inside the gasifier are gaining much attention as these may eliminate the need for downstream cleanup. In primary treatment, the gasifier is optimized to produce a fuel gas with minimum tar concentration. The different approaches of primary treatment are (a) proper selection of operating parameters, (b) use of bed additive/catalyst, and (c) gasifier modifications. The operating parameters such as temperature, gasifying agent, equivalence ratio, residence time, etc. play an important role in formation and decomposition of tar. There is a potential of using some active bed additives such as dolomite, olivine, char, etc. inside the gasifier. Ni-based catalyst are reported to be very effective not only for tar reduction, but also for decreasing the amount of nitrogenous compounds such as ammonia. Also, reactor modification can improve the quality of the product gas. The concepts of two-stage gasification and secondary air injection in the gasifier are of prime importance. Some aspects of primary methods and the research and development in this area are reviewed and cited in the present paper.read more
Citations
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Journal ArticleDOI
Role of CO2 in the Conversion of Toluene as a Tar Surrogate in a Nonthermal Plasma Dielectric Barrier Discharge Reactor
TL;DR: In this article, the decomposition of toluene (a model tar compound) in CO2 was investigated at ambient and elevated temperatures in a dielectric barrier discharge (DBD).
Journal ArticleDOI
Ruthenium(IV) dioxide-catalyzed reductive gasification of intractable biomass including cellulose, heterocyclic compounds, and sludge in supercritical water
TL;DR: In this paper, the authors used catalytic reduction gasification in the presence of ruthenium(IV) dioxide (RuO2) in supercritical water to decompose intractable biomass.
Journal ArticleDOI
Bed material as a catalyst for char gasification: The case of ash-coated olivine activated by K and S addition
Teresa Berdugo Vilches,Jelena Maric,Pavleta Knutsson,Daniel C. Rosenfeld,Henrik Thunman,Martin Seemann +5 more
TL;DR: In this paper, the ability of an ash-coated olivine to catalyze the steam gasification of biomass-derived char is investigated in a laboratory reactor, where the char and bed material samples were analyzed by Scanning Electron Microscopy coupled with Energy Dispersive X-ray Spectroscopy.
Journal ArticleDOI
Tar reduction in downdraft biomass gasifier using a primary method
Einara Blanco Machin,Daniel Travieso Pedroso,Nestor Proenza,José Luz Silveira,Leonetto Conti,Lúcia Bollini Braga,Adrian Blanco Machin +6 more
TL;DR: In this article, the authors present a novel primary method, for tar reduction in downdraft gasification, by changing the fluid dynamic behavior of the mixture, formed by pyrolysis product and gasification agent in combustion zone, allowing a homogeneous temperature distribution in radial direction in this reaction zone.
Journal ArticleDOI
Catalytic gasification of woody biomass in an air-blown fluidized-bed reactor using Canadian limonite iron ore as the bed material
Scott Hurley,Chunbao (Charles) Xu,Chunbao (Charles) Xu,Fernando Preto,Yuanyuan Shao,Hanning Li,Jinsheng Wang,Guy Tourigny +7 more
TL;DR: A Canadian limonite iron ore was tested for the first time as a catalytic bed material for air-blown gasification of pine sawdust at various equivalence ratios (ER, 0.20-0.35) on a pilot-scale fluidized bed gasifier, in comparison to a conventional olivine bed material as discussed by the authors.
References
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Journal ArticleDOI
Review of literature on catalysts for biomass gasification
TL;DR: In this article, an extensive literature review of the three main groups of catalysts, which have been evaluated for the elimination of these hydrocarbons, are dolomite, alkali metals and nickel.
Journal ArticleDOI
The technical and economic feasibility of biomass gasification for power generation
TL;DR: In this paper, the costs and technologies involved in an integrated system for the production of electricity from biomass in general and wood in particular are reviewed, and the main conclusions are that wood handling, storage, drying, comminution and screening are well established and present no uncertainties in operation and performance.
Book
World energy assessment : energy and the challenge of sustainability
TL;DR: In this paper, the authors discuss the linkage between energy and economic, social, environmental, and security issues, and analyzes the contradictions between current patterns of use and objectives in these areas.
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Steam-gasification of biomass in a fluidised-bed of olivine particles.
TL;DR: In this paper, the catalytic behavior of olivine, a common, naturally occurring mineral containing magnesium, iron oxides and silica, was investigated in a laboratory scale, biomass gasification unit.
Journal ArticleDOI
Biomass gasification with air in an atmospheric bubbling fluidized bed. Effect of six operational variables on the quality of the produced raw gas
TL;DR: In this paper, the equivalence ratio (from 0.20 to 0.45), temperatures of the gasifier bed (750−850 °C) and of its freeboard (500−600 °C), H/C ratio in the feed, use of secondary air (10% of the overall) in the freeboard, and addition (2−5 wt %) of a calcined dolomite mixed with the biomass used as the feedstock.