Journal ArticleDOI
Hydrogen production from ethanol reforming: Catalysts and reaction mechanism
TLDR
A detailed analysis based on the spectroscopic technique revealed that reaction pathways proceeded along a mono-functional or bi-functional mechanism according to the types of active metal and support as mentioned in this paper.Abstract:
Hydrogen production from ethanol is regarded as a promising way for energy sustainable development, which is undergoing an explosive growth over the last decade. Besides operating conditions, hydrogen yield greatly dependent on the nature of metal and the support selected. To date, Rh based catalysts proved to be the most active systems due to the fact that Rh possessed the greatest capacity toward C–C bond cleavage. Support also played a critical role in terms of hydrogen selectivity and stability. MgO, CeO2 and La2O3 etc were evidenced as suitable supports because of their basic characteristic and/or redox capacity. A detailed analysis based on the spectroscopic technique revealed that reaction pathways proceeded along a mono-functional or bi-functional mechanism according to the types of active metal and support. Ethanol dehydrogenation and/or dehydration reaction mainly occurred on the support, and the diffusion/transformation of the intermediates took place at the metal–support interface. Meanwhile, active metal accelerated the decomposition reaction. The observed catalyst deactivation was normally assigned to the coke formation, active metal sintering and/or oxidation as well as the impurity in crude bio-ethanol. Hence, the scope of this review is to address the present progress in ethanol reforming for hydrogen production including catalyst development and the analysis of the reaction mechanism and kinetics in order to shed light on the design of high efficient catalyst systems and the fundamental understanding of ethanol conversion at the molecular level.read more
Citations
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Coke formation and deactivation during catalytic reforming of biomass and waste pyrolysis products: A review
TL;DR: In this article, a review deals with the currently existing alternatives at the catalyst and reactor level to cope with catalyst deactivation and increase process stability, and then delves with the fundamental phenomena occurring during this catalysts deactivation.
Journal ArticleDOI
Catalytic Reforming of Oxygenates: State of the Art and Future Prospects.
Di Li,Xinyu Li,Jinlong Gong +2 more
TL;DR: In insights into the intrinsic mechanism involved in catalytic reforming are presented and guidance is provided to the development of novel catalysts and processes for the efficient utilization of oxygenates for energy and environmental purposes.
Journal ArticleDOI
Strategies for carbon and sulfur tolerant solid oxide fuel cell materials, incorporating lessons from heterogeneous catalysis
Paul Boldrin,Enrique Ruiz-Trejo,Joshua M. Mermelstein,José Miguel Bermudez Menendez,Tomas Ramirez Reina,Nigel P. Brandon +5 more
TL;DR: The theoretical basis behind carbon and sulfur poisoning is studied, before examining the strategies toward carbon and sulphur tolerance used so far in the SOFC literature, and the more extensive relevant heterogeneous catalysis literature is studied for strategies and materials which could be incorporated intocarbon and sulfur tolerant fuel cells.
Journal ArticleDOI
Recent development in the synthesis, modification and application of Mg(OH)(2) and MgO: A review
TL;DR: Magnesium hydroxide and magnesium oxide are compounds with favorable and unique properties, leading to a broad range of opportunities for their use in science, and above all in practical applications.
Journal ArticleDOI
Renewable hydrogen economy in Asia – Opportunities and challenges: An overview
Manoj Pudukudy,Manoj Pudukudy,Zahira Yaakob,Masita Mohammad,Binitha N. Narayanan,Kamaruzzaman Sopian +5 more
TL;DR: In this article, the authors have discussed the necessity of employing hydrogen as an alternative fuel, its production paths, storage issues, transportation and the available sources in Asia, and highlighted the challenges in the execution of hydrogen as a economical fuel in Asia.
References
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Journal ArticleDOI
Effect of calcium dopant on catalysis of Ir/La2O3 for hydrogen production by oxidative steam reforming of glycerol
TL;DR: In this article, a La2O3 supported iridium catalyst was employed to catalyze the oxidative steam reforming of glycerol (OSRG) for hydrogen production, in the range of S/C ratio of 1-3, C/O ratio of 0.75-1 and 550-750°C.
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Co catalysts modified by rare earths (La, Ce or Pr) for hydrogen production from ethanol
TL;DR: In this paper, Co/MgAl 2 O 4 catalysts modified with La, Pr or Ce were tested in ethanol steam reforming reaction to produce hydrogen, and the amount of carbon on promoted catalysts was significantly lower than that on unpromoted one.
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Catalytic performance of CoAlZn and NiAlZn mixed oxides in hydrogen production by bio-ethanol partial oxidation
TL;DR: In this paper, the results showed that NiO particles were reduced easier than Co3O4 and NiAlZn had more mobile lattice oxygen with higher capacity to form vacancies.
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Study of a CeZrCoRh mixed oxide for hydrogen production by ethanol steam reforming
TL;DR: In this article, the catalytic activity of Ce2Zr1.5Co0.47Rh0.07O8−δ oxide has been studied in the reaction of ethanol steam reforming.
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Support effects on the properties of Co and Ni catalysts for the hydrogen production from bio-ethanol partial oxidation
TL;DR: In this article, the state of active metallic phase and reducibility of the catalysts were investigated and it was proposed that ZnAl2O4 spinel phase determines the reaction pathway and Ni promote the hydrogen generation.