epithermal leakage

简明释义

超热中子漏失

英英释义

例句

1.Monitoring epithermal leakage 表面泄漏 is crucial for ensuring the sustainability of geothermal energy production.

监测epithermal leakage 表面泄漏 对于确保地热能源生产的可持续性至关重要。

2.The study revealed that the epithermal leakage 表面泄漏 from the geothermal reservoir was affecting local water quality.

研究显示，来自地热储层的epithermal leakage 表面泄漏 正在影响当地水质。

3.Research indicates that epithermal leakage 表面泄漏 can lead to significant heat loss in geothermal plants.

研究表明，epithermal leakage 表面泄漏 会导致地热电厂的显著热量损失。

4.The engineers implemented a new design to minimize epithermal leakage 表面泄漏 during drilling operations.

工程师们实施了一种新设计，以最小化钻探作业中的epithermal leakage 表面泄漏。

5.In our recent project, we identified significant epithermal leakage 表面泄漏 that could compromise the system's efficiency.

在我们最近的项目中，我们发现了显著的epithermal leakage 表面泄漏，这可能会影响系统的效率。

作文

In the field of nuclear physics, understanding various types of radiation and their interactions with materials is crucial. One such phenomenon that has garnered attention is epithermal leakage, which refers to the loss of particles, particularly neutrons, from a system when they possess energies in the epithermal range. This range typically lies between thermal and fast neutrons, specifically from about 0.5 eV to 10 keV. Epithermal leakage can significantly impact the efficiency of nuclear reactors and other applications that rely on neutron behavior.Nuclear reactors depend on a controlled environment where neutrons are utilized to sustain a fission reaction. However, when neutrons escape the reactor core through epithermal leakage, it can lead to a decrease in the overall neutron population required for maintaining the chain reaction. This leakage can occur due to several factors, including the geometry of the reactor, the materials used in construction, and the presence of any moderating substances that affect neutron velocities.To mitigate the effects of epithermal leakage, engineers and physicists work diligently on improving reactor designs. For instance, utilizing materials with higher neutron absorption cross-sections can help capture escaping neutrons, thus minimizing leakage. Additionally, optimizing the arrangement of fuel rods and control mechanisms can create a more favorable environment for neutron retention, ultimately enhancing reactor performance.Moreover, epithermal leakage is not only a concern in nuclear reactors but also in medical applications, such as neutron therapy for cancer treatment. In these scenarios, precise control over neutron behavior is essential to ensure that the therapeutic doses reach the targeted tissues while minimizing exposure to surrounding healthy cells. Understanding and controlling epithermal leakage becomes critical in achieving effective treatment outcomes.Research into epithermal leakage continues to evolve, with scientists exploring advanced materials and innovative designs that could lead to breakthroughs in nuclear technology. For example, recent studies have focused on using nanostructured materials that exhibit unique properties in neutron moderation and absorption. By leveraging these advancements, the industry aims to enhance safety and efficiency in both energy production and medical applications.In conclusion, epithermal leakage plays a vital role in the fields of nuclear physics and engineering. Its implications stretch across various applications, from power generation to medical therapies, making it a significant area of study. As we continue to explore the intricacies of neutron behavior, addressing the challenges posed by epithermal leakage will be essential for advancing technology and improving safety in nuclear applications.

在核物理领域，理解各种类型的辐射及其与材料的相互作用至关重要。其中一个引起关注的现象是表热泄漏，它指的是当粒子，特别是中子，在表热范围内具有能量时，从系统中损失的情况。这个范围通常介于热中子和快中子之间，具体而言，大约从0.5电子伏特到10千电子伏特。表热泄漏会显著影响核反应堆及其他依赖中子行为的应用的效率。核反应堆依赖于一个受控环境，在这里中子被用来维持裂变反应。然而，当中子通过表热泄漏逃逸出反应堆核心时，会导致维持链式反应所需的整体中子数量减少。这种泄漏可能由于多个因素造成，包括反应堆的几何形状、建筑材料的使用以及影响中子速度的任何调节物质的存在。为了减轻表热泄漏的影响，工程师和物理学家努力改善反应堆设计。例如，利用具有更高中子吸收截面的材料可以帮助捕获逃逸的中子，从而最小化泄漏。此外，优化燃料棒和控制机制的排列可以创造出更有利于中子保留的环境，最终提高反应堆性能。此外，表热泄漏不仅是核反应堆中的一个问题，还在医疗应用中具有重要意义，例如用于癌症治疗的中子疗法。在这些情况下，精确控制中子行为对于确保治疗剂量达到目标组织，同时将周围健康细胞的暴露降到最低至关重要。理解和控制表热泄漏在实现有效治疗结果方面变得至关重要。对表热泄漏的研究持续发展，科学家们正在探索先进材料和创新设计，这可能导致核技术的突破。例如，最近的研究集中在使用具有独特中子调节和吸收特性的纳米结构材料上。通过利用这些进展，行业旨在提高核能生产和医疗应用的安全性和效率。总之，表热泄漏在核物理和工程领域扮演着至关重要的角色。它的影响遍及从能源生产到医疗治疗的各种应用，使其成为一个重要的研究领域。随着我们继续探索中子行为的复杂性，解决表热泄漏带来的挑战将对推进技术和提高核应用的安全性至关重要。