Fabrication of high pressure hydrogen adsorption/desorption unit—Adsorption study on flame synthesized carbon nanofibers

Vivek Dhand; J. Sarada Prasad; Kyong Yop Rhee

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Fabrication of high pressure hydrogen adsorption/desorption unit—Adsorption study on flame synthesized carbon nanofibers

机译：高压氢吸附/解吸单元的制备—火焰合成碳纳米纤维的吸附研究

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An in-house custom made high pressure adsorption/desorption unit has been designed and fabricated to study reversible hydrogen (H2) intake capacity, hysteresis, kinetics, plateau pressure of various nanomaterials, zeolites and metallic compounds, in the pressure range of 1 ≤ P ≤ 150 atm. The unit has been used to estimate H2 intake capacity of carbon nanofibers prepared by flame synthesis in the absence of catalyst. H2 adsorption studies have been carried out in the pressure range of 25-100 atm at 297 K.The maximum H2 intake capacity has been observed to be 3.7 wt% at 100 atm.

机译：设计和制造了一个内部定制的高压吸附/脱附装置，以研究压力范围为1≤P的可逆氢（H2）的吸收能力，磁滞，动力学，各种纳米材料，沸石和金属化合物的平台压力。 ≤150个大气压该单元已用于估算在不存在催化剂的情况下通过火焰合成制备的碳纳米纤维的H2吸收容量。在297 K下在25-100 atm的压力范围内进行了H2吸附研究。在100 atm处观察到最大H2吸收容量为3.7 wt％。

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《Journal of industrial and engineering chemistry》 |2013年第3期|共6页
作者
Vivek Dhand; J. Sarada Prasad; Kyong Yop Rhee;
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正文语种 eng
中图分类化学工业;
关键词
Hydrogen adsorption; Carbon nanofiber; Flame synthesis; Nanomaterial;

机译：氢吸附;碳纳米纤维;火焰合成;纳米材料;

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1. Fabrication of high pressure hydrogen adsorption/desorption unit—Adsorption study on flame synthesized carbon nanofibers [J] . Vivek Dhand, J. Sarada Prasad, Kyong Yop Rhee Journal of industrial and engineering chemistry . 2013,第3期

机译：高压氢吸附/解吸单元的制备—火焰合成碳纳米纤维的吸附研究
2. Studies of yield and nature of carbon nanostructures synthesized by pyrolysis of ferrocene and hydrogen adsorption studies of carbon nanotubes [J] . M.M. Shaijumon, S. Ramaprabhu International journal of hydrogen energy . 2005,第3期

机译：二茂铁热解合成碳纳米结构的产率和性质及碳纳米管的氢吸附研究
3. Ultra-high vacuum system for adsorption-desorption studies of hydrogen storage on/in carbon nanotubes [J] . Stobinski L, Tien DC, Liao CY, Surface & Coatings Technology . 2006,第10期

机译：超高真空系统，用于在碳纳米管上/中的储氢吸附-解吸研究
4. Syntheses, characterizations and testings of carbon nanofiber for hydrogen adsorption studies [C] . Nurul Syafiqin Mohamad Shah, Sufian Suriati, Yusup Suzana 2011 IEEE First Conference on Clean Energy and Technology . 2011

机译：用于吸氢研究的碳纳米纤维的合成，表征和测试
5. ADSORPTION AND DESORPTION OF LIGHT PARAFFINIC HYDROCARBONS IN DRY AND WATER-SATURATED SAND-CLAY PACKS: STUDIES TO DETERMINE THE EFFECT OF THESEPHENOMENA ON THE PRESSURE - SPECIFIC-VOLUME - TEMPERATURE BEHAVIOR OF NATURAL GASES AND GAS CONDENSATES IN THE RESERVOIR. [D] . CLARK, CHARLES RICHARD. 1969

机译：干燥和水饱和的沙粘土小袋中轻质石蜡烃的吸附和解吸：确定THE烯对自然气体压力-比体积-温度行为和天然气中气体凝结的影响的研究。
6. Enhanced Ibuprofen Adsorption and Desorption on Synthesized Functionalized Magnetic Multiwall Carbon Nanotubes from Aqueous Solution [O] . Ghadir Hanbali, Shehdeh Jodeh, Othman Hamed, 2020

机译：从水溶液中增强了合成官能化磁性多壁碳纳米管的布洛芬吸附和解吸
7. The nature of hydrocarbon synthesis by means of hydrogenation of carbon monoxide on iron-based catalysts: Part II. dynamic adsorption/desorption equilibria [O] . Snel R. 1989

机译：通过在铁基催化剂上氢化一氧化碳来合成烃的性质：第II部分。动态吸附/解吸平衡
8. Hydrogen Desorption and Adsorption Measurements on Graphite Nanofibers [R] . Bowman, R. C., Jr., Ahn, C., Ye, Y., 1998

机译：石墨纳米纤维的氢解吸和吸附测量

Fabrication of high pressure hydrogen adsorption/desorption unit—Adsorption study on flame synthesized carbon nanofibers

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