gas tight

简明释义

气密的

英英释义

例句

1.The engineers confirmed that the pipeline is gas tight under high pressure.

工程师确认管道在高压下是气密的。

2.For this project, all joints need to be gas tight to prevent leaks.

对于这个项目，所有接头需要保持气密以防止泄漏。

3.During the inspection, we found that the seals were not gas tight.

在检查过程中，我们发现密封不气密。

4.The new storage tanks are designed to be gas tight.

新的储罐设计为气密。

5.To ensure safety, the laboratory must maintain a gas tight environment.

为了确保安全，实验室必须保持气密环境。

作文

In the modern world, where environmental concerns are at the forefront of global discussions, the concept of being gas tight has gained significant importance. The term gas tight refers to the ability of a material or structure to prevent the passage of gases, thereby ensuring that no unwanted gases escape or enter a confined space. This characteristic is crucial in various industries, including construction, manufacturing, and even in our homes. For instance, when building a house, it is essential to ensure that the windows and doors are gas tight. This not only helps in maintaining energy efficiency by preventing heat loss but also protects against harmful gases such as radon or carbon monoxide from infiltrating living spaces. A gas tight home contributes to a healthier environment for its inhabitants, reducing the risk of respiratory issues and other health problems associated with poor air quality.Moreover, in the manufacturing sector, products that require containment of gases must be designed to be gas tight. For example, in the production of pharmaceuticals, it is critical to maintain a sterile environment. Any breach in the gas tight seal can lead to contamination, compromising the integrity of the product and posing risks to consumer safety. Therefore, engineers and designers must prioritize gas tight solutions when developing systems that handle volatile substances.On a larger scale, the importance of gas tight structures can be observed in industries such as oil and gas. Pipelines and storage facilities must be constructed to be gas tight to prevent leaks that could result in environmental disasters. A small leak in a gas pipeline can have catastrophic consequences, including explosions and severe pollution. Thus, ensuring that these infrastructures are gas tight is not just a matter of efficiency but also a critical aspect of environmental protection and public safety.Furthermore, the concept of gas tight is also relevant in the context of climate change. As we strive to reduce greenhouse gas emissions, it becomes imperative to develop technologies and materials that are gas tight. Innovations in insulation materials and sealing technologies can significantly contribute to lowering carbon footprints by preventing the escape of heated or cooled air from buildings. This not only helps in conserving energy but also plays a role in combating climate change by reducing overall emissions.In conclusion, the term gas tight encompasses a wide range of applications and implications across various fields. From residential buildings to industrial processes, ensuring that structures and materials are gas tight is vital for safety, efficiency, and environmental sustainability. As we move forward in an era that demands greater accountability in our environmental practices, the significance of being gas tight will only continue to grow. It is essential for individuals, businesses, and governments alike to recognize the importance of this concept and strive towards implementing gas tight solutions in their respective domains. By doing so, we can create a safer and more sustainable future for generations to come.

在现代世界，环境问题已成为全球讨论的焦点，因此“气密性”这一概念变得尤为重要。“气密性”指的是材料或结构防止气体通过的能力，从而确保不希望的气体逃逸或进入封闭空间。这一特性在建筑、制造业甚至我们的家庭中都至关重要。例如，在建造房屋时，确保窗户和门具有气密性是非常重要的。这不仅有助于通过防止热量损失来维持能效，还能保护居民免受氡气或一氧化碳等有害气体的侵入。一个气密性良好的家为居住者提供了更健康的环境，降低了与空气质量差相关的呼吸问题和其他健康问题的风险。此外，在制造行业，需要气体封闭的产品必须设计为气密性。例如，在制药生产中，维持无菌环境至关重要。任何气密性密封的破裂都可能导致污染，危及产品的完整性，并对消费者安全构成风险。因此，工程师和设计师在开发处理挥发性物质的系统时，必须优先考虑气密性解决方案。在更大范围内，气密性结构的重要性可以在石油和天然气等行业中观察到。管道和储存设施必须建造为气密性，以防止泄漏，这可能导致环境灾难。天然气管道的小泄漏可能会导致灾难性的后果，包括爆炸和严重污染。因此，确保这些基础设施具备气密性不仅是效率的问题，更是环境保护和公共安全的关键方面。此外，在气候变化的背景下，气密性的概念也变得相关。随着我们努力减少温室气体排放，开发气密性材料和技术变得至关重要。绝缘材料和密封技术的创新可以显著降低碳足迹，因为它们可以防止加热或冷却空气从建筑物中逃逸。这不仅有助于节约能源，还有助于通过减少整体排放来应对气候变化。总之，气密性这一术语涵盖了各个领域广泛的应用和影响。从住宅建筑到工业流程，确保结构和材料具备气密性对于安全、效率和环境可持续性至关重要。随着我们进入一个要求更高环境责任的时代，具备气密性的重要性将只会继续增长。个人、企业和政府都必须认识到这一概念的重要性，并努力在各自领域实施气密性解决方案。通过这样做，我们可以为未来几代人创造一个更安全、更可持续的未来。