radioactive effluent drain pipe
简明释义
放射性废液排放管道
英英释义
A pipe designed to carry away liquid waste that contains radioactive materials from a facility, such as a nuclear power plant or research laboratory. | 一种用于排放含有放射性物质的液体废物的管道,通常来自核电站或研究实验室等设施。 |
例句
1.An incident report was filed after workers noticed unusual readings near the radioactive effluent drain pipe.
在工人注意到放射性废水排水管附近的异常读数后,提交了一份事件报告。
2.The safety inspection revealed a leak in the radioactive effluent drain pipe, which could pose a significant risk to the environment.
安全检查发现放射性废水排水管有泄漏,这可能对环境构成重大风险。
3.The local community expressed concerns about the radioactive effluent drain pipe that runs through their neighborhood.
当地社区对流经他们社区的放射性废水排水管表示担忧。
4.Maintenance workers are required to wear protective gear when handling the radioactive effluent drain pipe during repairs.
维护工人在修理放射性废水排水管时必须穿戴防护装备。
5.The nuclear facility has strict protocols for monitoring the radioactive effluent drain pipe to prevent contamination.
核设施对监测放射性废水排水管有严格的协议,以防止污染。
作文
In the modern world, the management of waste materials has become increasingly critical, especially in industries that deal with hazardous substances. One such concern is the presence of radioactive materials, which require stringent control measures to ensure environmental safety and public health. Among the various methods of handling radioactive waste, the use of a radioactive effluent drain pipe plays a significant role. A radioactive effluent drain pipe (放射性废液排水管) is designed to transport liquid waste that contains radioactive isotopes from facilities such as nuclear power plants or research laboratories to designated storage or treatment areas. The construction and maintenance of these pipes are subject to rigorous regulations to prevent leaks and contamination. Any failure in the system can lead to severe consequences, including environmental pollution and health risks for nearby communities. Therefore, engineers and scientists must collaborate closely to ensure that the radioactive effluent drain pipe (放射性废液排水管) is built with high-quality materials and incorporates advanced technology to monitor and manage the flow of radioactive waste.One of the primary challenges in managing radioactive effluents is the long half-life of certain isotopes, which means that they remain hazardous for extended periods. This necessitates careful planning regarding the location of the radioactive effluent drain pipe (放射性废液排水管) and its connection to treatment facilities. It is essential to ensure that these pipes are not only functional but also secure against potential natural disasters, such as earthquakes or floods, which could compromise their integrity.Moreover, public perception of radioactive waste management is often fraught with fear and misunderstanding. Communities living near nuclear facilities may express concerns about the safety of radioactive effluent drain pipes (放射性废液排水管) and the potential for accidents. To address these fears, transparency and education are crucial. Facility operators must engage with local populations, providing clear information about how radioactive effluent drain pipes (放射性废液排水管) work, the safety measures in place, and the monitoring systems used to detect any issues promptly.In addition to community engagement, technological advancements continue to improve the safety and efficiency of radioactive effluent drain pipes (放射性废液排水管). Innovations in materials science have led to the development of corrosion-resistant alloys and advanced sealing techniques that enhance the durability of these pipes. Furthermore, real-time monitoring systems equipped with sensors can detect leaks or changes in pressure, allowing for immediate response actions to mitigate any risks.Ultimately, the effective management of radioactive waste through the use of radioactive effluent drain pipes (放射性废液排水管) is essential for the sustainability of nuclear energy and research. As society increasingly relies on nuclear technology for energy production and medical applications, ensuring the safe disposal of radioactive materials will be paramount. By investing in robust infrastructure, fostering community trust, and embracing technological innovations, we can manage radioactive waste responsibly while minimizing its impact on the environment and public health.
在现代社会,废物管理变得越来越重要,尤其是在处理危险物质的行业中。其中一个主要关注点是放射性物质的存在,这需要严格的控制措施以确保环境安全和公众健康。在处理放射性废物的各种方法中,使用放射性废液排水管(radioactive effluent drain pipe)发挥了重要作用。放射性废液排水管被设计用来运输来自核电厂或研究实验室等设施的含有放射性同位素的液体废物,运输至指定的储存或处理区域。这些管道的建设和维护受到严格的法规约束,以防止泄漏和污染。系统的任何故障都可能导致严重后果,包括环境污染和对附近社区的健康风险。因此,工程师和科学家必须密切合作,确保放射性废液排水管(radioactive effluent drain pipe)采用高质量材料建造,并结合先进技术来监控和管理放射性废物的流动。管理放射性废液的主要挑战之一是某些同位素的长半衰期,这意味着它们在很长一段时间内仍然是危险的。这就需要对放射性废液排水管(radioactive effluent drain pipe)的选址以及与处理设施的连接进行仔细规划。确保这些管道不仅功能齐全,而且能够抵御潜在的自然灾害,如地震或洪水,这些灾害可能会损害其完整性。此外,公众对放射性废物管理的看法往往充满恐惧和误解。生活在核设施附近的社区可能会对放射性废液排水管(radioactive effluent drain pipe)及其潜在事故表示担忧。为了解决这些担忧,透明度和教育至关重要。设施运营商必须与当地居民互动,提供有关放射性废液排水管(radioactive effluent drain pipe)如何工作、安全措施以及用于及时检测任何问题的监测系统的清晰信息。除了社区参与,技术进步也不断提高放射性废液排水管(radioactive effluent drain pipe)的安全性和效率。材料科学的创新促使耐腐蚀合金和先进密封技术的发展,从而增强了这些管道的耐用性。此外,配备传感器的实时监测系统可以检测泄漏或压力变化,从而能够立即采取应对措施以减轻任何风险。最终,通过使用放射性废液排水管(radioactive effluent drain pipe)有效管理放射性废物对核能和研究的可持续性至关重要。随着社会日益依赖核技术进行能源生产和医疗应用,确保放射性材料的安全处置将是重中之重。通过投资于坚固的基础设施、培养社区信任和接受技术创新,我们可以负责任地管理放射性废物,同时最大限度地减少其对环境和公众健康的影响。
相关单词
