Microreactors technology for hydrogen purification: Effect of the catalytic layer thickness on CuO /CeO2-coated microchannel reactors for the PROX reaction

Laguna, Óscar H.; González‐Castaño, Miriam; Odriozola, J.A.

doi:10.1016/j.cej.2015.04.023

Cited by 30 publications

(15 citation statements)

References 28 publications

(48 reference statements)

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“…For instance, Laguna et al [17] recently demonstrated the absence of significant diffusional limitations controlling the catalytic performances for layer thicknesses around 10 m. Moreover, Potemkin et al [36] established a limit slightly higher for the layer thickness, above 20 m, for which the diffusional processes does not control the reaction rate .…”

Section: Physicochemical Characterizationmentioning

confidence: 99%

“…Considering that those processes are controlled by the layer thickness, the use of micromonolithic structures should improve the diffusional processes and allow a better control of the reaction through an appropriate catalytic layer thickness providing a better temperature control hindering the hot spot formation [16,17]. Therefore, the layer thickness should be well-controlled in order to maintain the enhancement of the transport phenomena provided by the micromonoliths.…”

Section: Introductionmentioning

confidence: 99%

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Structuring Pt/CeO2/Al2O3 WGS catalyst: Introduction of buffer layer

González‐Castaño

Ivanova

Laguna

et al. 2017

Applied Catalysis B: Environmental

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Section: Physicochemical Characterizationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Structuring Pt/CeO2/Al2O3 WGS catalyst: Introduction of buffer layer

González‐Castaño

Ivanova

Laguna

et al. 2017

Applied Catalysis B: Environmental

Self Cite

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“…In addition, coating monoliths by solution-combustion synthesis has given materials with good catalytic performance for the PrOx reaction in the presence of H 2 O and CO 2 [295,296]. Other properties that should be optimized to enhance the performance of copper/ceria monolithic catalysts include the coating thickness [297] and cell density of the structure [293].…”

Section: Preferential Oxidation Of Carbon Monoxidementioning

confidence: 99%

Monoliths: A Review of the Basics, Preparation Methods and Their Relevance to Oxidation

2017

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Considerable research has been conducted on monolithic catalysts for various applications. Strategies toward coating monoliths are of equal interest and importance. In this paper, the preparation of monoliths and monolithic catalysts have been summarized. More specifically, a brief explanation for the manufacturing of ceramic and metallic monoliths has been provided. Also, different methods for coating γ-alumina, as a secondary support, are included. Techniques used to deposit metal-based species, zeolites and carbon onto monoliths are discussed. Furthermore, monoliths extruded with metal oxides, zeolites and carbon are described. The main foci are on the reasoning and understanding behind the preparation of monolithic catalysts. Ideas and concerns are also contributed to encourage better approaches when designing these catalysts. More importantly, the relevance of monolithic structures to reactions, such as the selective oxidation of alkanes, catalytic combustion for power generation and the preferential oxidation of carbon monoxide, has been described.

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“…The catalyst coating methods for the wash‐coated microchannel reformers are out of the scope of this review paper; however, interested readers can refer to other studies …”

Section: Methanol Reformingmentioning

confidence: 99%

An overview of the methanol reforming process: Comparison of fuels, catalysts, reformers, and systems

et al. 2019

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Summary One of the main challenges facing power generation by fuel cells involves the difficulties related to hydrogen storage. Several methods have been suggested and studied by researchers to overcome this problem. Among these methods, using fuel reformers as a component of the fuel cell system is a practical and promising alternative to hydrogen storage. Among many hydrogen carrier fuels used in reformers, methanol is one of the most attractive ones because of its distinctive properties. To design and improve of the methanol reformate gas fuel cell systems, different aspects such as promising market applications for reformate gas–fueled fuel cell systems, and catalysts for methanol reforming should be considered. Therefore, our goal in this paper is to provide a comprehensive overview on the past and recent studies regarding methanol reforming technologies, while considering different aspects of this topic. Firstly, different fuel reforming processes are briefly explained in the first section of the paper. Then properties of various fuels and reforming of these fuels are compared, and the characteristics of commercial reformate gas–fueled systems are presented. The main objective of the first section of the paper is to give information about studies and market applications related to reformation of various fuels to understand advantages and disadvantages of using various fuels for different practical applications. In the next sections of the paper, advancements in the methanol reforming technology are explained. The methanol reforming catalysts and reaction kinetics studies by various researchers are reviewed, and the advantages and disadvantages of each catalyst are discussed, followed by presenting the studies accomplished on different types of reformers. The effects of operating parameters on methanol reforming are also discussed. In the last section of this paper, methanol reformate gas–fueled fuel cell systems are reviewed. Overall, this review paper provides insight to researchers on what has been accomplished so far in the field of methanol reforming for fuel cell power generation applications to better plan the next stage of studies in this field.

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Microreactors technology for hydrogen purification: Effect of the catalytic layer thickness on CuO /CeO2-coated microchannel reactors for the PROX reaction

Cited by 30 publications

References 28 publications

Structuring Pt/CeO2/Al2O3 WGS catalyst: Introduction of buffer layer

Structuring Pt/CeO2/Al2O3 WGS catalyst: Introduction of buffer layer

Monoliths: A Review of the Basics, Preparation Methods and Their Relevance to Oxidation

An overview of the methanol reforming process: Comparison of fuels, catalysts, reformers, and systems

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