neutron monitoring

简明释义

中子监测

英英释义

例句

1.Regular neutron monitoring 中子监测 is essential for detecting any leaks in nuclear reactors.

定期的neutron monitoring 中子监测对于检测核反应堆中的任何泄漏至关重要。

2.The new neutron monitoring 中子监测 technology allows for real-time data collection.

新的neutron monitoring 中子监测技术允许实时数据收集。

3.The research facility implemented advanced neutron monitoring 中子监测 systems to ensure safety during experiments.

该研究机构实施了先进的neutron monitoring 中子监测系统，以确保实验期间的安全。

4.In nuclear waste management, neutron monitoring 中子监测 helps track the isotopes present.

在核废料管理中，neutron monitoring 中子监测有助于跟踪存在的同位素。

5.Scientists use neutron monitoring 中子监测 to study the properties of materials under high radiation.

科学家使用neutron monitoring 中子监测来研究高辐射下材料的特性。

作文

Neutron monitoring is a crucial aspect of various scientific and industrial fields, particularly in nuclear physics and radiation safety. The term refers to the process of detecting and measuring neutrons, which are neutral particles found in the nucleus of an atom. Neutrons play a significant role in nuclear reactions, including fission and fusion, and their monitoring is essential for ensuring safety in environments where nuclear materials are present.In nuclear power plants, for instance, effective neutron monitoring (中子监测) systems are installed to track neutron flux, which is the flow of neutrons through a given area. This monitoring helps in maintaining the stability of the nuclear reaction and ensures that it operates within safe parameters. If neutron levels rise unexpectedly, it could indicate a potential problem, such as an uncontrolled reaction, prompting immediate safety measures.Moreover, neutron monitoring (中子监测) is also critical in research laboratories where scientists conduct experiments involving radioactive materials. By utilizing various detection methods, such as helium-3 detectors or boron trifluoride counters, researchers can accurately measure neutron emissions. This data is vital not only for conducting experiments safely but also for complying with regulatory standards that govern the use of nuclear materials.In the field of radiation protection, neutron monitoring (中子监测) serves to protect workers and the public from potential exposure to harmful radiation. Neutrons can be more penetrating than other types of radiation, making it essential to have effective monitoring systems in place. Personal dosimeters that measure neutron exposure can be worn by individuals working in high-risk areas, ensuring that they do not exceed safe exposure limits.The importance of neutron monitoring (中子监测) extends beyond just nuclear facilities. It is also utilized in various applications, such as oil and gas exploration, where neutrons are used to determine the density and composition of geological formations. In this context, neutron logging techniques help geologists identify oil and gas reserves, contributing to efficient resource management.Furthermore, advancements in technology have led to the development of more sophisticated neutron monitoring (中子监测) systems. Innovations such as digital signal processing and real-time data analysis have improved the accuracy and responsiveness of neutron detection. These advancements are crucial in enhancing safety protocols and ensuring that any anomalies are detected promptly.In conclusion, neutron monitoring (中子监测) is an essential practice across various sectors that deal with nuclear materials and radiation. Its applications range from ensuring the safe operation of nuclear reactors to protecting workers in research environments and aiding in resource exploration. As technology continues to evolve, the methods and tools for neutron monitoring (中子监测) will likely become even more advanced, further enhancing our ability to manage and mitigate the risks associated with nuclear energy and radiation exposure.