primary fission yield

简明释义

原始裂变产额

英英释义

例句

1.A higher primary fission yield 初级裂变产额 can lead to more energy produced per reaction.

更高的初级裂变产额 primary fission yield 可以导致每次反应产生更多的能量。

2.In nuclear physics, the primary fission yield 初级裂变产额 helps determine the products formed during the fission process.

在核物理中，初级裂变产额 primary fission yield 有助于确定裂变过程中形成的产物。

3.The calculation of the primary fission yield 初级裂变产额 is crucial for understanding the efficiency of nuclear reactors.

计算初级裂变产额 primary fission yield 对于理解核反应堆的效率至关重要。

4.Researchers are studying the primary fission yield 初级裂变产额 of different isotopes to improve nuclear fuel performance.

研究人员正在研究不同同位素的初级裂变产额 primary fission yield 以改善核燃料性能。

5.The safety analysis of a reactor must include the primary fission yield 初级裂变产额 to assess potential risks.

反应堆的安全分析必须包括初级裂变产额 primary fission yield 以评估潜在风险。

作文

The concept of primary fission yield is crucial in the field of nuclear physics and engineering. It refers to the amount of energy or mass that is released during the initial stages of the fission process when a heavy nucleus splits into two or more lighter nuclei. Understanding this concept is essential for several reasons, including the design of nuclear reactors, the development of nuclear weapons, and the management of nuclear waste. In a nuclear reactor, the primary fission yield determines the efficiency of the fuel used. When uranium-235 or plutonium-239 undergoes fission, it releases a significant amount of energy that can be harnessed to generate electricity. The efficiency of this process directly correlates with the amount of energy produced per fission event. Therefore, optimizing the primary fission yield is a critical aspect of reactor design, as it impacts both the output of power and the sustainability of the nuclear fuel cycle.Moreover, the primary fission yield plays a vital role in the context of nuclear weapons. In nuclear explosive devices, maximizing the yield is paramount. The energy released during fission reactions is what causes the massive explosions associated with nuclear bombs. Scientists and engineers must carefully calculate the primary fission yield to ensure that the weapon achieves its intended destructive capability. This involves not only understanding the materials involved but also the physics of the fission process itself.Another important aspect of the primary fission yield is its implications for nuclear waste management. After a fission reaction occurs, various radioactive isotopes are produced as byproducts, and their management is a significant concern for environmental safety. The amount of waste generated is influenced by the primary fission yield, as higher yields can lead to more byproducts. Therefore, understanding and managing the primary fission yield is essential for developing effective strategies to handle nuclear waste responsibly.In conclusion, the primary fission yield is a fundamental concept in nuclear science that affects various applications, from energy production to national security and environmental protection. A thorough understanding of this concept allows scientists and engineers to optimize nuclear processes for better efficiency and safety. As we continue to explore the potential of nuclear technology, the importance of mastering the primary fission yield cannot be overstated. It is a key factor that shapes the future of nuclear energy and its role in our society.

“初级裂变产额”这一概念在核物理和工程领域至关重要。它指的是在裂变过程中，重核素分裂成两个或多个较轻的核素时释放的能量或质量的数量。理解这一概念对于多个方面至关重要，包括核反应堆的设计、核武器的发展以及核废料的管理。在核反应堆中，“初级裂变产额”决定了所用燃料的效率。当铀-235或钚-239发生裂变时，它释放出大量能量，这可以被利用来发电。该过程的效率与每次裂变事件产生的能量直接相关。因此，优化“初级裂变产额”是反应堆设计的关键方面，因为它影响着电力输出和核燃料循环的可持续性。此外，“初级裂变产额”在核武器的背景下也发挥着重要作用。在核爆炸装置中，最大化产额是至关重要的。裂变反应中释放的能量是导致核弹引发巨大爆炸的原因。科学家和工程师必须仔细计算“初级裂变产额”，以确保武器达到预期的毁灭能力。这不仅涉及对所用材料的理解，还涉及对裂变过程本身的物理学理解。“初级裂变产额”的另一个重要方面是其对核废料管理的影响。裂变反应发生后，会产生各种放射性同位素作为副产品，而这些副产品的管理是环境安全的重要问题。产生的废物数量受“初级裂变产额”的影响，因为更高的产额可能导致更多的副产品。因此，理解和管理“初级裂变产额”对于制定有效的核废料处理策略至关重要。总之，“初级裂变产额”是核科学中的一个基本概念，影响着从能源生产到国家安全和环境保护等多种应用。对这一概念的透彻理解使科学家和工程师能够优化核过程，以提高效率和安全性。随着我们继续探索核技术的潜力，掌握“初级裂变产额”的重要性不容小觑。它是塑造核能未来及其在我们社会中角色的关键因素。