核燃料成分对高能量密度等离子体中子产率的影响

IF 0.4 4区 工程技术 Q4 NUCLEAR SCIENCE & TECHNOLOGY
Sonia M. Reda, Dalia Anwar, Emad I. Khalil, Ahmed Youssef
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引用次数: 0

摘要

在高能量密度等离子体中产生中子是开发中子热核源和混合反应堆的一个有趣课题。热核聚变(热核中子源)有希望的候选反应是 T(d,n)4He 和 D(d,n)3He(D-T 和 D-D 反应)。由于 T 是一种放射性物质,世界各地的聚变实验都通过使用 CD 或 CD2 等塑料材料形式的核燃料来处理 D-D 反应。因此,氘和碳的反应有效地参与了中子产率。在这项工作中,使用 MCUNED 代码模拟了超高功率激光器产生的高能量密度等离子体中 D(d, n)3He 和 D(12c, n)13N 核反应的中子通量。中子是使用核燃料 D2、CD 和 CD2 产生的。中子通量是按燃料中消耗的每千瓦激光能量计算的。在相同的能量条件下,还计算了氘核和质子通量。获得的 D(d,n)3He 和 D(12c,n)13N 反应数据与现有实验数据进行了比较。计算机程序 NJOY 以 Acer 格式计算截面,供 MCUNED 使用。由于在氘燃料中添加了碳,CD 和 CD2 中子源和磁池内部的中子通量峰值有所增加。这些值在源外的单元中有所降低。在源外的空气室中,D2、CD 和 CD2 燃料的总中子产率大致相同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of nuclear fuel composition on neutrons yield in high-energy-density plasma

Effect of nuclear fuel composition on neutrons yield in high-energy-density plasma

Effect of nuclear fuel composition on neutrons yield in high-energy-density plasma

Neutron production in high-energy-density plasma is an interesting topic for developing thermonuclear sources of neutrons and hybrid reactors. The promising candidate reactions for thermonuclear fusion (thermonuclear sources of neutrons) are T(d, n)4He and D(d, n)3He (D‑T and D‑D reactions). As T is a radioactive material, fusion experiments in all over the world deal with the D‑D reaction by using nuclear fuel in the form of plastic material such as CD or CD2. Consequently, reactions of deuterium and carbon effectively participate in the neutron yield. In this work, the neutrons flux of the nuclear reactions D(d, n)3He and D(12c, n)13N were simulated using the MCUNED Code in high-energy-density plasma produced by an ultra-high-power laser. Neutrons have been produced using nuclear fuels D2, CD, and CD2. Neutron flux has been calculated per kW of the laser energy expended in the fuel. Deuteron and proton fluxes have been calculated under the same energy conditions. The obtained data for the reactions D(d, n)3He and D(12c, n)13N were compared with each other and with the available experimental data. A computer program, NJOY, has been used to calculate cross section in Acer format to be used by MCUNED. The neutrons flux peak was increased inside the source and magnet cells for CD and CD2 due to adding carbon to the deuterium fuel. These values were decreased in the cells outside the source. The total neutron yields were approximately the same for D2, CD, and CD2 fuels in the air cells outside the source.

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来源期刊
Atomic Energy
Atomic Energy 工程技术-核科学技术
CiteScore
1.00
自引率
20.00%
发文量
100
审稿时长
4-8 weeks
期刊介绍: Atomic Energy publishes papers and review articles dealing with the latest developments in the peaceful uses of atomic energy. Topics include nuclear chemistry and physics, plasma physics, accelerator characteristics, reactor economics and engineering, applications of isotopes, and radiation monitoring and safety.
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