NMR Imaging of Low Pressure, Gas-Phase Transport in Packed Beds Using Hyperpolarized Xenon-129

Pavlovskaya Galina; Six Joseph; Meersman Thomas; Gopinathan Navin; Rigby Sean P.

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NMR Imaging of Low Pressure, Gas-Phase Transport in Packed Beds Using Hyperpolarized Xenon-129

机译：使用超极化Xenon-129在填充床中进行低压气相传输的NMR成像

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Gas-phase magnetic resonance imaging (MRI) has been used to investigate heterogeneity in mass transport in a packed bed of commercial, alumina, catalyst supports. Hyperpolarized Xe-129 MRI enables study of transient diffusion for microscopic porous systems using xenon chemical shift to selectively image gas within the pores, and, thence, permits study of low-density, gas-phase mass-transport, such that diffusion can be studied in the Knudsen regime, and not just the molecular regime, which is the limitation with other current techniques. Knudsen-regime diffusion is common in many industrial, catalytic processes. Significantly, larger spatial variability in mass transport rates across the packed bed was found compared to techniques using only molecular diffusion. It has thus been found that that these heterogeneities arise over length-scales much larger than similar to 100 mu m. (c) 2015 American Institute of Chemical Engineers.

机译：气相磁共振成像（MRI）已用于研究在商用氧化铝催化剂载体填充床中传质中的异质性。超极化Xe-129 MRI能够研究使用氙化学位移对孔中的气体进行选择性成像的微观多孔系统的瞬态扩散，因此可以研究低密度的气相传质，从而可以研究扩散在克努森（Knudsen）体制中，不仅限于分子体制，这是当前其他技术的局限性。努森制度的扩散在许多工业催化过程中很常见。值得注意的是，与仅使用分子扩散的技术相比，发现在整个填充床中的传质速率具有较大的空间变异性。因此发现，这些异质性在远大于100μm的长度尺度上出现。（c）2015美国化学工程师学会。

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《AIChE Journal》 |2015年第11期|共7页
作者
Pavlovskaya Galina; Six Joseph; Meersman Thomas; Gopinathan Navin; Rigby Sean P.;
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正文语种 eng
中图分类化学工业;
关键词
gas-phase magnetic resonance imaging; hyperpolarized xenon; Knudsen diffusion; catalyst support;

机译：气相磁共振成像;超极化氙;努森扩散;催化剂载体;

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1. NMR Imaging of Low Pressure, Gas-Phase Transport in Packed Beds Using Hyperpolarized Xenon-129 [J] . Pavlovskaya Galina, Six Joseph, Meersman Thomas, AIChE Journal . 2015,第11期

机译：使用超极化Xenon-129在填充床中进行低压气相传输的NMR成像
2. Observation of Single-File Diffusion in Dipeptide Nanotubes by Continuous-Flow Hyperpolarized Xenon-129 NMR Spectroscopy [J] . Chi-Yuan Cheng, Clifford R.Bowers Chemphyschem: A European journal of chemical physics and physical chemistry . 2007,第14期

机译：连续流超极化Xenon-129 NMR光谱观察二肽纳米管中的单文件扩散
3. Assessment of Pulmonary Gas Transport in Rabbits Using Hyperpolarized Xenon-129 Magnetic Resonance Imaging [J] . Kai Ruppert, Hooman Hamedani, Faraz Amzajerdian, Scientific reports. . 2018,第1期

机译：超极化氙-129磁共振成像评估家兔的肺气体运输。
4. Xenon-129 NMR as a Probe of Polymer Sorption Sites: A New View of Structure and Transport [C] . J.M.Koons, W.-Y.Wen, P.T.Inglefield, National meeting of the American Chemical Society . 1998

机译：Xenon-129 NMR作为聚合物吸附位点的探针：结构和传输的新观点
5. Magnetic resonance imaging of lungs at ultra-low magnetic field strength using hyperpolarized xenon-129 gas. [D] . Parra Robles, Juan Miguel. 2004

机译：使用超极化氙气129气体以超低磁场强度对肺部进行磁共振成像。
6. Assessment of Pulmonary Gas Transport in Rabbits Using Hyperpolarized Xenon-129 Magnetic Resonance Imaging [O] . Kai Ruppert, Hooman Hamedani, Faraz Amzajerdian, -1

机译：超极化氙-129磁共振成像评估家兔的肺气体运输。
7. NMR Imaging of low pressure, gas-phase transport in packed beds using hyperpolarized xenon-129 [O] . Pavlovskaya Galina E., Six Joseph S., Meersman Thomas, 2015

机译：使用超极化Xenon-129在填充床中进行低压气相传输的NMR成像
8. STATIC PRESSURE-AIRFLOW RELATIONSHIPS IN PACKED BEDS OF GRANULAR BIOLOGICAL MATERIALS SUCH AS GRAIN II [R] . R. J. Patterson, F. W. Bakker-Arkema, W. G. Bickert 1969

机译：颗粒状生物材料包装床的静压 - 气流关系，如谷物II

NMR Imaging of Low Pressure, Gas-Phase Transport in Packed Beds Using Hyperpolarized Xenon-129

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