swimming pool reactor

简明释义

水冷却原子反应堆

英英释义

例句

1.The research facility uses a swimming pool reactor to conduct experiments on neutron scattering.

该研究机构使用游泳池反应堆进行中子散射实验。

2.Students at the nuclear engineering department often visit the swimming pool reactor for hands-on learning.

核工程系的学生经常参观游泳池反应堆进行实践学习。

3.Safety protocols around the swimming pool reactor are strictly enforced to protect personnel.

围绕游泳池反应堆的安全协议被严格执行，以保护工作人员。

4.A swimming pool reactor is often used for training purposes due to its low power output.

由于功率输出低，游泳池反应堆通常用于培训目的。

5.The swimming pool reactor allows for easy access to the reactor core for maintenance.

该游泳池反应堆便于对反应堆核心进行维护。

作文

The concept of a swimming pool reactor is quite fascinating and plays a crucial role in the field of nuclear engineering. A swimming pool reactor is essentially a type of nuclear reactor that is designed to be submerged in a large body of water, typically resembling a swimming pool. This design serves multiple purposes, including safety, cooling, and radiation shielding. In this essay, I will explore the significance of the swimming pool reactor, its operational principles, and its applications in research and education.Firstly, the primary function of a swimming pool reactor is to provide a controlled environment for nuclear reactions to occur. The reactor core, where the fission process takes place, is located at the bottom of the pool, surrounded by water. This water acts as both a moderator, slowing down neutrons to sustain the reaction, and a coolant, dissipating heat generated during the fission process. Additionally, the thick layer of water above the reactor core offers substantial radiation shielding, ensuring that any harmful radiation is contained within the pool, thus protecting personnel and the environment.One of the most notable advantages of a swimming pool reactor is its inherent safety features. Because the reactor is submerged in water, there is a passive safety mechanism in place. In the event of an emergency or malfunction, the water can absorb excess heat and prevent the reactor from overheating. Furthermore, the design allows for easy access to the reactor core for maintenance and inspection, making it an ideal choice for educational institutions and research facilities.Research reactors, particularly those that utilize the swimming pool reactor design, are instrumental in advancing scientific knowledge. These reactors are often used for neutron activation analysis, materials testing, and producing radioisotopes for medical applications. For instance, universities and research centers employ swimming pool reactors to conduct experiments in nuclear physics, engineering, and radiobiology. By providing a safe and controlled environment, researchers can explore various phenomena and develop new technologies that benefit society.Moreover, the swimming pool reactor serves as an educational tool for students pursuing careers in nuclear science and engineering. Many universities have their own research reactors, allowing students to gain hands-on experience in operating a reactor, understanding nuclear safety protocols, and conducting experiments. This practical exposure is invaluable, as it prepares the next generation of scientists and engineers to tackle the challenges of nuclear energy and radiation safety.In conclusion, the swimming pool reactor is a vital component of modern nuclear research and education. Its unique design not only ensures safety and efficiency but also facilitates groundbreaking research and provides practical training for students. As we continue to explore the potential of nuclear technology, the importance of swimming pool reactors cannot be overstated. They represent a bridge between theoretical knowledge and practical application, fostering innovation in the field of nuclear science and engineering.

“游泳池反应堆”的概念非常迷人，在核工程领域中发挥着至关重要的作用。“游泳池反应堆”本质上是一种设计为沉浸在大水体中的核反应堆，通常类似于游泳池。这种设计有多重目的，包括安全、冷却和辐射屏蔽。在这篇文章中，我将探讨“游泳池反应堆”的重要性、其操作原理以及在研究和教育中的应用。首先，“游泳池反应堆”的主要功能是提供一个受控环境以进行核反应。反应堆核心位于池底，周围被水包围。这些水既充当慢化剂，使中子减速以维持反应，也充当冷却剂，消散在裂变过程中产生的热量。此外，反应堆核心上方的厚水层提供了可观的辐射屏蔽，确保任何有害辐射都被限制在池内，从而保护工作人员和环境。“游泳池反应堆”的一个显著优势是其固有的安全特性。由于反应堆沉浸在水中，因此存在一种被动安全机制。如果发生紧急情况或故障，水可以吸收多余的热量，防止反应堆过热。此外，该设计允许对反应堆核心进行便捷的维护和检查，使其成为教育机构和研究设施的理想选择。研究反应堆，特别是那些采用“游泳池反应堆”设计的反应堆，对于推动科学知识的进步至关重要。这些反应堆通常用于中子活化分析、材料测试和生产医疗应用的放射性同位素。例如，大学和研究中心利用“游泳池反应堆”进行核物理、工程和放射生物学的实验。通过提供一个安全和受控的环境，研究人员可以探索各种现象并开发出有利于社会的新技术。此外，“游泳池反应堆”作为核科学和工程专业学生的教育工具。许多大学拥有自己的研究反应堆，使学生能够获得操作反应堆、理解核安全协议和进行实验的实际经验。这种实践经验是无价的，因为它为下一代科学家和工程师准备好应对核能和辐射安全的挑战。总之，“游泳池反应堆”是现代核研究和教育的重要组成部分。其独特的设计不仅确保安全和效率，还促进了开创性的研究，并为学生提供了实践培训。随着我们继续探索核技术的潜力，“游泳池反应堆”的重要性不容小觑。它们代表了理论知识与实际应用之间的桥梁，促进了核科学和工程领域的创新。