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Optimizing carbon nanotube continuous production in a swirled floating catalyst chemical vapour deposition reactor

机译：在旋流浮动催化剂化学气相沉积反应器中优化碳纳米管连续生产

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Effects of various factors affecting the rate of Carbon Nanotubes (CNTs) produced in a Swirled Floating Catalyst Chemical Vapour Deposition (SFCCVD) reactor were investigated. This study was performed in a vertical silica tube plug flow reactor developed by Iyuke at this University. Transmission Electron Microscopy (TEM) images revealed that both Single–Walled and Multi–Walled Carbon Nanotubes were produced continuously by this method. Experimental results also showed that pyrolysis/reaction temperature, acetylene flow rate, hydrogen flow rate and ratio of acetylene to hydrogen flow rate affect the rate of production of carbon nanotubes. Maximum production rate of 0.31g/min was obtained at operating conditions of acetylene flow rate of 370ml/min, hydrogen flow rate of 180ml/min and pyrolysis temperature of 1000oC. It is worth mentioning that to the best of our knowledge such CNTs production rate and technique have not been reported in the open literature.

机译：研究了影响旋流浮式催化剂化学气相沉积（SFCCVD）反应器中碳纳米管（CNT）生成速率的各种因素的影响。这项研究是在该大学的Iyuke开发的立式硅胶管活塞流反应器中进行的。透射电子显微镜（TEM）图像显示，单壁和多壁碳纳米管都是通过这种方法连续生产的。实验结果还表明，热解/反应温度，乙炔流量，氢气流量以及乙炔与氢气的流量比影响碳纳米管的生产速率。在乙炔流量为370ml / min，氢气流量为180ml / min，热解温度为1000oC的操作条件下，获得的最高生产率为0.31g / min。值得一提的是，就我们所知，此类碳纳米管的生产率和技术尚未在公开文献中报道。

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Iyuke S.E.; Pienaar H.C. vZ.; Abdulkareem A.S.; Afolabi A.S.;
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年度 2006
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1. Continuous production of carbon nanotubes and diamond films by swirled floating catalyst chemical vapour deposition method [J] . A.S. Afolabi, A.S. Abdulkareem, S.E. Iyuke, South African Journal of Science . 2009,第7a8期

机译：涡流漂浮催化剂化学气相沉积法连续生产碳纳米管和金刚石薄膜
2. Synthesis of carbon nanotubes by swirled floating catalyst chemical vapour deposition method [J] . Abdulkareem AS, Afolabi AS, Iyuke SE, Journal of nanoscience and nanotechnology . 2007,第9期

机译：旋流催化剂化学气相沉积法合成碳纳米管
3. Synthesis of carbon nanotubes and nanoballs by swirled floating catalyst chemical vapour deposition method [J] . A. S. AFOLABI, A. S. ABDULKAREEM, S. E. IYUKE Journal of Experimental Nanoscience . 2007,第4期

机译：旋流浮式化学气相沉积法合成碳纳米管和纳米球
4. Palm Oil as the Carbon Source for the Synthesis of Carbon Nanotubes using Floating Catalyst - Chemical Vapour Deposition Method [C] . S. A. M. Zobir, A. B. Suriani, Z. Khusaimi, Malaysia Annual Physics Conference . 2011

机译：棕榈油作为使用浮催化剂 - 化学气相沉积法合成碳纳米管的碳源 - 化学气相沉积法
5. Chemical vapour deposition growth of carbon nanotube forests: kinetics, morphology, composition, and their mechanisms. [D] . Vinten, Phillip. 2013

机译：碳纳米管森林的化学气相沉积生长：动力学，形态，组成及其机理。
6. Continuous Synthesis of Double-Walled Carbon Nanotubes with Water-Assisted Floating Catalyst Chemical Vapor Deposition [O] . Liyu Dong, Jin Gyu Park, Branden E. Leonhardt, 2020

机译：水助浮催化剂化学气相沉积法连续合成双壁碳纳米管
7. Synthesis of Carbon Nanomaterials in a Swirled Floating Catalytic Chemical Vapour Deposition Reactor for Continuous and Large Scale Production [O] . Sunny E., Geoffrey S. 2011

机译：旋转浮催化化学气相沉积反应器中碳纳米材料的合成，用于连续和大规模生产

Optimizing carbon nanotube continuous production in a swirled floating catalyst chemical vapour deposition reactor

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