2018
DOI: 10.1002/wene.297
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Advancing catalytic fast pyrolysis through integrated multiscale modeling and experimentation: Challenges, progress, and perspectives

Abstract: Catalytic fast pyrolysis (CFP) is a conversion process that integrates rapid thermochemical depolymerization of solid feedstocks with catalytic transformation to yield small molecules for fuel and chemical products. This process is well-suited for the conversion of nonfossil feedstocks such as biomass and waste plastics, and thereby holds great potential for the production of renewable commodities. In spite of many technological developments in various aspects of CFP achieved over decades of research, this tec… Show more

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Cited by 31 publications
(32 citation statements)
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References 167 publications
(237 reference statements)
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“…This multiscale structure leads to difficulties associated with obtaining experimental data that de-couple intra-cell wall and inter-cell wall transport processes. Many studies that model bulk transport through woody materials employ approximations for transport in porous media that couple transport through cell wall material and void regions [21]. Eitelberger and Hofstetter developed an insightful multiscale homogenization approach that considers wood structure at multiple length scales [22], but the approach was lacking experimental validation of assumptions made at each scale.…”
Section: Introductionmentioning
confidence: 99%
“…This multiscale structure leads to difficulties associated with obtaining experimental data that de-couple intra-cell wall and inter-cell wall transport processes. Many studies that model bulk transport through woody materials employ approximations for transport in porous media that couple transport through cell wall material and void regions [21]. Eitelberger and Hofstetter developed an insightful multiscale homogenization approach that considers wood structure at multiple length scales [22], but the approach was lacking experimental validation of assumptions made at each scale.…”
Section: Introductionmentioning
confidence: 99%
“…See Table 5 for more detailed information about these models. Further discussion on coupling atomic scale models, single particle models, and reactor scale models can be seen in Ciesielski et al 26 and a focus on reactor scale modelling in Xiong et al 288,289 Conclusions From this review, the following conclusions and recommendations can be drawn:…”
Section: Sharma 306 2014mentioning
confidence: 88%
“…It has been argued that one reason for failure to scale up is a lack of understanding of the fundamental phenomena of biomass pyrolysis. 26 The purpose of this review is to describe the four principal intra-particle phenomena of biomass pyrolysis: chemical reactions, heat transfer, mass transfer, and phase change. The authors believe that too little attention has been given to phase change, particularly with regards to the liquid intermediate stage between native biopolymer and vaporized organic compounds.…”
Section: Farid Chejnementioning
confidence: 99%
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“…Combined with the structural characteristics of the catalyst, the major factor in KL conversion was the catalyst's exterior structure, and the internal pore structure had a great effect on PL conversion. In contrast to the configurational diffusion in micropore channels, the diffusion mechanism in mesopores needed to consider the joint contribution of configurational diffusion and Knudsen diffusion [30]. The hierarchical sample had funnel-shaped openings on the surface, with pore size as large as 20 nm or more.…”
Section: Cfp Performance Of Plmentioning
confidence: 99%