pressure suppression containment

简明释义

压力抑制安全壳

英英释义

例句

1.The incident highlighted the importance of effective pressure suppression containment in industrial plants.

事件强调了在工业厂房中有效的压力抑制控制的重要性。

2.The engineering team implemented a new system for pressure suppression containment to enhance safety during operations.

工程团队实施了一种新的系统用于压力抑制控制，以增强操作安全性。

3.Regular maintenance checks are essential to ensure the pressure suppression containment systems are functioning properly.

定期维护检查对于确保压力抑制控制系统正常运作至关重要。

4.The design of the reactor includes advanced pressure suppression containment features to manage potential overpressures.

反应堆的设计包括先进的压力抑制控制特性，以管理潜在的过压情况。

5.In nuclear facilities, pressure suppression containment is crucial for preventing the release of radioactive materials.

在核设施中，压力抑制控制对于防止放射性材料释放至关重要。

作文

In the field of engineering and safety management, the term pressure suppression containment plays a crucial role in ensuring the integrity and safety of systems that operate under high pressure. This concept is particularly relevant in industries such as nuclear power, chemical manufacturing, and oil and gas extraction, where the potential for catastrophic failure is significant. Understanding pressure suppression containment involves recognizing its purpose, mechanisms, and applications in real-world scenarios.The primary purpose of pressure suppression containment is to prevent the release of hazardous materials into the environment during an overpressure event. Overpressure can occur due to various reasons, including equipment failure, chemical reactions, or external impacts. When such events happen, the containment systems are designed to absorb and dissipate excess pressure, thereby protecting both the facility and surrounding communities.Mechanically, pressure suppression containment employs various technologies and designs. For example, in nuclear reactors, containment structures are built to withstand extreme pressures and temperatures. These structures are typically made from reinforced concrete and steel, designed to contain any potential release of radioactive materials. In addition to physical barriers, active systems such as pressure relief valves and venting systems are also employed to manage pressure levels effectively.The application of pressure suppression containment is not limited to nuclear facilities. In the chemical industry, pressure vessels are equipped with safety features that utilize similar principles. For instance, if a chemical reaction generates excessive pressure, the containment system can release steam or gas safely, preventing explosions or leaks. Similarly, in the oil and gas sector, blowout preventers are critical components that embody the principles of pressure suppression containment, ensuring that any uncontrolled release of hydrocarbons is managed swiftly and effectively.Moreover, the importance of pressure suppression containment extends beyond just preventing accidents; it also plays a vital role in regulatory compliance and public safety. Governments and regulatory bodies impose strict guidelines and standards to ensure that industries implement adequate containment measures. Companies that prioritize safety through effective pressure suppression containment not only protect their workers and the environment but also enhance their reputation and operational efficiency.In conclusion, pressure suppression containment is a fundamental concept in various high-risk industries aimed at safeguarding against potential disasters. By understanding its mechanisms and applications, engineers and safety professionals can design better systems that mitigate risks associated with high-pressure operations. As technology advances, the methods and materials used in pressure suppression containment will continue to evolve, further enhancing safety and reliability in industrial practices. The commitment to maintaining robust containment strategies is essential for protecting both human life and the environment from the dangers posed by high-pressure systems.

在工程和安全管理领域，术语压力抑制封闭在确保高压系统的完整性和安全性方面起着至关重要的作用。这个概念在核能、化工制造和石油天然气开采等行业尤为相关，因为这些行业潜在的灾难性故障风险显著。理解压力抑制封闭涉及认识其目的、机制和在现实场景中的应用。压力抑制封闭的主要目的是防止在过压事件中有害物质释放到环境中。过压可能由于多种原因发生，包括设备故障、化学反应或外部冲击。当这种事件发生时，封闭系统旨在吸收和消散多余的压力，从而保护设施和周围社区。在机械上，压力抑制封闭采用各种技术和设计。例如，在核反应堆中，建造了能够承受极端压力和温度的封闭结构。这些结构通常由钢筋混凝土和钢材制成，旨在封闭任何潜在的放射性材料释放。除了物理屏障，主动系统如压力释放阀和通风系统也被用来有效管理压力水平。压力抑制封闭的应用不仅限于核设施。在化工行业，压力容器配备了利用类似原理的安全功能。例如，如果化学反应产生过多压力，封闭系统可以安全地释放蒸汽或气体，防止爆炸或泄漏。同样，在石油和天然气行业，防喷器是体现压力抑制封闭原则的重要组成部分，确保任何失控的碳氢化合物释放能够迅速有效地管理。此外，压力抑制封闭的重要性不仅仅在于预防事故；它还在合规性和公共安全中发挥着重要作用。政府和监管机构对行业实施严格的指南和标准，以确保企业实施足够的封闭措施。优先考虑通过有效的压力抑制封闭保障安全的公司，不仅保护其员工和环境，还提升其声誉和运营效率。总之，压力抑制封闭是各种高风险行业中的基本概念，旨在保护免受潜在灾难的影响。通过理解其机制和应用，工程师和安全专业人员可以设计更好的系统，减轻与高压操作相关的风险。随着技术的进步，用于压力抑制封闭的方法和材料将继续发展，进一步增强工业实践的安全性和可靠性。维护强大封闭策略的承诺对于保护人类生命和环境免受高压系统带来的危险至关重要。