Carbon Dioxide Decomposition by Plasma Methods and Application of High Energy and High Density Plasmas in Material Processing and Nanostructures

SRIVASTAVA Mahesh P.; KOBAYASHI Akira

首页> 外文期刊>Transactions of JWRI >Carbon Dioxide Decomposition by Plasma Methods and Application of High Energy and High Density Plasmas in Material Processing and Nanostructures

【24h】

Carbon Dioxide Decomposition by Plasma Methods and Application of High Energy and High Density Plasmas in Material Processing and Nanostructures

机译：等离子体法二氧化碳分解及高能高密度等离子体在材料加工和纳米结构中的应用

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

The increase of carbon dioxide (CO_2) in the atmosphere can cause climatic and geographical changes which will destroy nature. ln order to combat this destruction many researchers have attempted either decomposition of carbon dioxide or carbon dioxide sequestration so as to bring the carbon dioxide content down to 260 ppm in the atmosphere. ln the present paper, we have summarized some of the earlier attempts at the decomposition of carbon dioxide. We give a detailed introduction about the gas tunnel type of plasma jet for the decomposition of carbon dioxide. However, in most of the earlier attempts, carbon dioxide decomposed into carbon monoxide which is highly poisonous and it is a drawback in these attempts. In order to circumvent this drawback we have proposed a scheme for decomposition of carbon dioxide using an array of high voltage electrode systems with which it may be possible to decompose carbon dioxide to its constituents. We will also present some of the results of material p0rocessing using the gas tunnel type plasma jet and high energy high density non equilibrium plasma under fusion conditions such as those prevailing in dense plasma focus (DPF) device.

机译：大气中二氧化碳（CO_2）的增加会引起气候和地理变化，从而破坏自然。为了对抗这种破坏，许多研究人员试图分解二氧化碳或隔离二氧化碳，以使大气中的二氧化碳含量降至260 ppm。在本文中，我们总结了一些较早的二氧化碳分解尝试。我们详细介绍了用于二氧化碳分解的等离子流的气体隧道类型。但是，在大多数较早的尝试中，二氧化碳分解成一氧化碳，这是剧毒的，并且在这些尝试中是一个缺点。为了克服该缺点，我们提出了一种使用高压电极系统阵列分解二氧化碳的方案，利用该方案可以将二氧化碳分解成其成分。我们还将介绍在融合条件下使用气体隧道型等离子体射流和高能高密度非平衡等离子体进行材料处理的一些结果，例如在密集等离子体聚焦（DPF）装置中普遍使用的条件。

著录项

来源
《Transactions of JWRI》 |2010年第1期|p.11-25|共15页
作者
SRIVASTAVA Mahesh P.; KOBAYASHI Akira;
展开▼
作者单位

Univ. of Delhi;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词
carbon dioxide; decomposition; plasma methods; high energy and high density plasmas; material processing; nanostructures;

机译：二氧化碳;分解;等离子方法;高能高密度等离子体;材料加工;纳米结构;

相似文献

外文文献
中文文献
专利

1. High Energy Density Pulsed Plasmas in Plasma Focus: Novel Plasma Processing Tool for Nanophase Hard Magnetic Material Synthesis [J] . R. S. Rawat Nanoscience and Nanotechnology Letters . 2012,第3期

机译：等离子体聚焦中的高能量密度脉冲等离子体：用于纳米相硬磁材料合成的新型等离子体处理工具
2. TRANSFER PROCESSES IN LOW-TEMPERATURE PLASMA ON THE FORMATION OF CARBON NANOSTRUCTURES ON THE STEEL SURFACE OF A REACTOR AS A RESULT OF THE DECOMPOSITION OF HYDROCARBONS IN THE LOW-TEMPERATURE PLASMA. 2. MODERNIZATION OF THE EXPERIMENTAL SETUP [J] . S. A. Zhdanok, I. F. Buyakov, A. V. Krauklis, Journal of engineering physics and thermophysics . 2009,第3期

机译：反应堆钢表面碳纳米结构形成过程中低温等离子体的转移过程，这是低温等离子体中碳氢化合物分解的结果。 2.实验装置的现代化
3. Plasma Processing for Carbon Nanomaterials. Syntheses of Nanostructures and Their Process Control by Numerical Simulation of Plasma [J] . YOSHIYUKI SUDA, HIROFUMI TAKIKAWA, HIDETO TANOUE Electronics and communications in Japan . 2013,第6期

机译：碳纳米材料的等离子处理。纳米结构的合成及其过程控制的等离子体数值模拟
4. 3-D porous hierarachical nanostructured materials by low temperature green plasma chemistry and plasma-surface interactions for applications in energy storage [C] . Bo Ouyang, Rajdeep S. Rawat IEEE International Conference on Plasma Sciences . 2016

机译：通过低温绿色等离子化学和等离子-表面相互作用的3-D多孔层状纳米结构材料用于储能
5. Application of Low Current Gliding Arc Plasma Discharges for Hydrogen Sulfide Decomposition and Carbon Dioxide Emission Reduction [D] . Nunnally, Thomas Patrick 2011

机译：低电流滑动电弧等离子体放电在硫化氢分解及二氧化碳减排中的应用
6. Applications of Long-Length Carbon Nano-Tube (L-CNT) as Conductive Materials in High Energy Density Pouch Type Lithium Ion Batteries [O] . Shan-Ho Tsai, Ying-Ru Chen, Yi-Lin Tsou, 2020

机译：长度碳纳米管（L-CNT）在高能量密度袋型锂离子电池中的导电材料的应用
7. Plasma Processing of III-V Materials for Energy Efficient Electronics Applications [O] . Thayne Iain, Li Xu, Millar David, 2017

机译：用于节能电子应用的III-V材料的等离子体处理
8. Study of the High-Density High-Energy Plasma-Producing Methods and Physical-Property Measurements and Its Application for Thermonuclear Reaction. Final Report, February 1, 1979-December 31, 1979 [R] . Cheng, D. Y., Chang, C. N., Tripathi, P. P. 1980

机译：高密度高能等离子体产生方法和物性测量及其在热核反应中的应用研究。最终报告，1979年2月1日至1979年12月31日

Carbon Dioxide Decomposition by Plasma Methods and Application of High Energy and High Density Plasmas in Material Processing and Nanostructures

摘要

著录项

相似文献

相关主题

期刊订阅