High-temperature attrition of sorbents and a catalyst for sorption-enhanced steam methane reforming in a fluidized bed environment

K.Johnsen; J.R.Grace

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High-temperature attrition of sorbents and a catalyst for sorption-enhanced steam methane reforming in a fluidized bed environment

机译：在流化床环境中吸附剂和催化剂的高温磨损，用于增强吸附甲烷的重整

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Mechanical degradation of the solid particles used in sorption-enhanced steam methane reforming (SE-SMR) was investigated in a gas jet attrition apparatus.The performance of a dolomite,a limestone and a commercial reforming catalyst were compared based on the air jet attrition index (AJI).The dolomite showed the poorest resistance to attrition,likely due to the extra pore volume caused by calcination of MgC03.The degree of loss of fines from the catalyst was significant,pointing to the need to develop catalysts suited to fluidized bed operation.Co-fluidization of the harder catalyst and the dolomite did not lead to additional attrition of the dolomite.

机译：在气体喷射磨损装置中研究了吸附增强蒸汽甲烷重整（SE-SMR）中使用的固体颗粒的机械降解，并根据空气喷射磨损指数比较了白云石，石灰石和商用重整催化剂的性能（AJI）。白云石显示出最差的耐磨耗性，这可能是由于MgCO3煅烧导致了额外的孔体积。催化剂中细粉的损失程度很明显，这表明需要开发适合流化床操作的催化剂较硬的催化剂和白云石的共流化没有导致白云石的额外磨损。

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《Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems》 |2007年第3期|共3页
作者
K.Johnsen; J.R.Grace;
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正文语种 eng
中图分类粉末技术;
关键词
Attrition; Dolomite; Fluidization; Sorbents; Steam reforming;

机译：磨损;白云石;流化;吸附剂;蒸汽重整;

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1. High-temperature attrition of sorbents and a catalyst for sorption-enhanced steam methane reforming in a fluidized bed environment [J] . K.Johnsen, J.R.Grace Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems . 2007,第3期

机译：在流化床环境中吸附剂和催化剂的高温磨损，用于增强吸附甲烷的重整
2. Sorption enhanced steam methane reforming on catalyst-sorbent bifunctional particles: A CFD fluidized bed reactor model [J] . Di Carlo Andrea, Aloisi Ilaria, Jand Nader, Chemical Engineering Science . 2017,第期

机译：催化剂 - 吸附剂双官能颗粒上的吸附增强蒸汽甲烷重整：CFD流化床反应器模型
3. Continuous hydrogen production by sorption enhanced steam methane reforming (SE-SMR) in a circulating fluidized bed reactor: Sorbent to catalyst ratio dependencies [J] . Bjornar Arstad, Joanna Prostak, Richard Blom Chemical engineering journal . 2012,第Null期

机译：在循环流化床反应器中通过吸附增强的蒸汽甲烷重整（SE-SMR）连续生产氢气：吸收剂与催化剂的比例相关
4. A two property catalyst/sorbent pellet design for the sorption-enhanced steam-methane reforming process: Mathematical modeling and numerical analysis [C] . Jannike Solsvik, Hugo A. Jakobsen Trondheim Gas Technology Conference . 2011

机译：用于吸附增强蒸汽甲烷重整过程的两种性能催化剂/吸附剂颗粒设计：数学建模和数值分析
5. Fluidized bed steam methane reforming with high-flux membranes and oxygen input. [D] . Roy, Surajit. 1999

机译：具有高通量膜和氧气输入的流化床蒸汽甲烷重整。
6. Thermochemical Performance Analysis of the Steam Reforming of Methane in a Fixed Bed Membrane Reformer: A Modelling and Simulation Study [O] . João Paulo Fernando de Medeiros, Vitória da Fonseca Dias, José Marcelo da Silva, 2021

机译：固定床膜重整器中甲烷蒸汽重整的热化学性能分析：一种建模与仿真研究
7. Bi-functional Ru/Ca3Al2O6–CaO catalyst-CO2 sorbent for the production of high purity hydrogen via sorption-enhanced steam methane reforming [O] . Sung Min Kim, Paula M. Abdala, Davood Hosseini, 2019

机译：双官能Ru / Ca3Al2O6-CaO催化剂-CO2吸附剂通过吸附增强蒸汽甲烷重整生产高纯度氢气

High-temperature attrition of sorbents and a catalyst for sorption-enhanced steam methane reforming in a fluidized bed environment

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