gas tightness

简明释义

气密性

英英释义

例句

1.Regular maintenance checks are essential for verifying the gas tightness 气密性 of storage tanks.

定期维护检查对验证储罐的气密性至关重要。

2.During the inspection, we found that the gas tightness 气密性 of the seals was compromised.

在检查中，我们发现密封件的气密性受到了损害。

3.The engineer conducted a test to ensure the gas tightness 气密性 of the new pipeline.

工程师进行了测试，以确保新管道的气密性。

4.A leak test is performed to check the gas tightness 气密性 of the equipment before it goes into operation.

在设备投入运行之前，会进行泄漏测试以检查其气密性。

5.The manufacturer guarantees the gas tightness 气密性 of their products for five years.

制造商保证其产品的气密性为五年。

作文

In today's industrial world, the concept of gas tightness is crucial for ensuring safety and efficiency in various applications. Gas tightness, defined as the ability of a material or system to prevent gas from escaping or entering, plays a vital role in numerous sectors, including manufacturing, construction, and energy production. Understanding the importance of gas tightness can help us appreciate its impact on both environmental protection and operational effectiveness.One of the primary areas where gas tightness is essential is in the manufacturing of equipment that deals with hazardous gases. For example, in the chemical industry, reactors and storage tanks must maintain a high level of gas tightness to prevent toxic gas leaks, which could pose serious health risks to workers and surrounding communities. Any failure in gas tightness can lead to catastrophic accidents, highlighting the need for rigorous testing and quality control measures.Moreover, in the construction industry, ensuring gas tightness in buildings is vital for maintaining indoor air quality. Buildings must be designed to prevent the infiltration of harmful gases, such as radon or carbon monoxide. This is particularly important in areas where these gases are prevalent in the environment. Proper sealing techniques and materials that provide excellent gas tightness are necessary to create safe living and working spaces.In the context of energy production, gas tightness is equally critical. Natural gas pipelines and storage facilities must be constructed with materials that ensure gas tightness to prevent leaks, which not only waste resources but also pose significant environmental hazards. The oil and gas industry invests heavily in technology and infrastructure to monitor and maintain gas tightness, as even minor leaks can have devastating effects on the ecosystem.Furthermore, the concept of gas tightness extends beyond industrial applications. In everyday life, we encounter situations where gas tightness is important, such as in household appliances like gas stoves and heaters. Ensuring that these devices have proper gas tightness prevents dangerous gas leaks, protecting families from potential explosions or poisoning.To achieve optimal gas tightness, various testing methods are employed. One common method is the pressure test, which assesses the integrity of a system by measuring its ability to hold pressure without leaking. Another method is the use of gas detection systems that continuously monitor for leaks in real-time. These technologies are essential for maintaining safety standards and ensuring compliance with regulations.In conclusion, the significance of gas tightness cannot be overstated. It is a fundamental aspect of safety in many industries and everyday applications. By understanding and prioritizing gas tightness, we can protect human health, safeguard the environment, and enhance operational efficiency. As technology advances, it is essential to continue developing better materials and methods to ensure gas tightness in all relevant fields, thereby contributing to a safer and more sustainable future.

在当今的工业世界中，气体密封性的概念对于确保各种应用的安全性和效率至关重要。气体密封性被定义为材料或系统防止气体泄漏或进入的能力，在制造、建筑和能源生产等多个领域发挥着重要作用。理解气体密封性的重要性可以帮助我们认识到它对环境保护和运营效率的影响。气体密封性至关重要的主要领域之一是处理危险气体的设备制造。例如，在化工行业，反应器和储罐必须保持高水平的气体密封性以防止有毒气体泄漏，这可能对工人和周围社区造成严重健康风险。气体密封性的任何失败都可能导致灾难性的事故，突显了严格测试和质量控制措施的必要性。此外，在建筑行业，确保建筑物的气体密封性对于维持室内空气质量至关重要。建筑物必须设计成防止有害气体的渗入，例如氡气或一氧化碳。这在这些气体在环境中普遍存在的地区尤为重要。采用适当的密封技术和提供优良气体密封性的材料是创建安全居住和工作空间所必需的。在能源生产的背景下，气体密封性同样至关重要。天然气管道和储存设施必须使用确保气体密封性的材料来防止泄漏，这不仅浪费资源，还对环境造成重大危害。石油和天然气行业在监测和维护气体密封性方面投入巨资，因为即使是小的泄漏也会对生态系统产生毁灭性的影响。此外，气体密封性的概念超越了工业应用。在日常生活中，我们遇到的许多情况中，气体密封性都是重要的，例如家用电器如燃气灶和加热器。确保这些设备具有良好的气体密封性可以防止危险的气体泄漏，保护家庭免受潜在爆炸或中毒的威胁。为了实现最佳的气体密封性，采用了各种测试方法。一种常见的方法是压力测试，它通过测量系统在没有泄漏的情况下保持压力的能力来评估其完整性。另一种方法是使用气体检测系统，实时监控泄漏。这些技术对于维护安全标准和确保遵守法规至关重要。总之，气体密封性的重要性不容小觑。它是许多行业和日常应用中安全的基本方面。通过理解和优先考虑气体密封性，我们可以保护人类健康，保障环境，并提高运营效率。随着技术的进步，继续开发更好的材料和方法以确保所有相关领域的气体密封性是至关重要的，从而为一个更安全和可持续的未来做出贡献。