air isolation

简明释义

空气绝缘

英英释义

例句

1.In hospitals, air isolation 空气隔离 rooms are used for patients with airborne diseases.

在医院中，空气隔离 air isolation病房用于治疗有空气传播疾病的患者。

2.During the experiment, air isolation 空气隔离 was crucial to ensure accurate results.

在实验过程中，空气隔离 air isolation对确保准确结果至关重要。

3.The laboratory requires strict air isolation 空气隔离 to prevent contamination of samples.

实验室要求严格的空气隔离 air isolation以防止样品污染。

4.The construction site implemented air isolation 空气隔离 measures to control dust pollution.

施工现场实施了空气隔离 air isolation措施以控制粉尘污染。

5.To maintain product quality, the factory uses air isolation 空气隔离 techniques during production.

为了保持产品质量，工厂在生产过程中使用空气隔离 air isolation技术。

作文

In the field of science and engineering, the concept of air isolation plays a crucial role in various applications. Air isolation refers to the process of creating a barrier that prevents the exchange of air between two environments. This technique is particularly important in laboratories, clean rooms, and certain industrial processes where contamination from the external environment can compromise experiments or product quality. The significance of air isolation can be seen in several key areas, including pharmaceuticals, semiconductor manufacturing, and environmental research.In pharmaceutical production, maintaining a sterile environment is essential for ensuring the safety and efficacy of medications. Any exposure to airborne contaminants can lead to serious health risks for patients. To achieve air isolation, manufacturers often use specialized equipment such as laminar flow hoods and isolators that filter out particulates and microorganisms from the air. These systems create a controlled atmosphere where the risk of contamination is minimized, allowing for the safe handling of sensitive compounds.Similarly, in semiconductor manufacturing, air isolation is vital for producing high-quality microchips. The fabrication of semiconductors involves intricate processes that are highly sensitive to environmental conditions. Dust particles, moisture, and other airborne impurities can adversely affect the performance of the final product. By implementing air isolation techniques, manufacturers can ensure that their production environments remain free from contaminants, thereby enhancing yield and reliability.Environmental research also benefits from air isolation. Scientists studying atmospheric phenomena often require controlled environments to conduct experiments. For instance, when investigating the effects of pollutants on plant growth, researchers may use chambers that isolate the air to accurately measure the impact of specific variables. This approach allows for more precise data collection and analysis, leading to better understanding and solutions for environmental issues.Moreover, air isolation is not limited to industrial applications; it also has implications for everyday life. In residential settings, effective air isolation can improve indoor air quality and energy efficiency. Homes equipped with proper insulation and ventilation systems can limit the infiltration of outdoor pollutants while maintaining comfortable temperatures. This is particularly relevant in urban areas where air pollution levels can be high. By ensuring that indoor air remains isolated from outdoor contaminants, residents can enjoy a healthier living environment.In conclusion, the concept of air isolation is integral to many fields, from pharmaceuticals and semiconductor manufacturing to environmental research and home living. Its ability to prevent unwanted air exchange not only safeguards products and experiments but also enhances overall quality of life. As technology continues to advance, the methods of achieving air isolation will likely evolve, leading to even more efficient and effective solutions for maintaining clean and safe environments. Understanding and applying this concept is essential for professionals across various industries, as well as for individuals seeking to improve their living spaces.

在科学和工程领域，空气隔离的概念在各种应用中发挥着至关重要的作用。空气隔离指的是创建一个屏障，以防止两个环境之间的空气交换。这种技术在实验室、洁净室和某些工业过程中尤为重要，因为外部环境的污染可能会影响实验或产品质量。空气隔离的重要性可以在几个关键领域中看到，包括制药、半导体制造和环境研究。在制药生产中，保持无菌环境对于确保药物的安全性和有效性至关重要。任何暴露于空气污染物的情况都可能对患者造成严重健康风险。为了实现空气隔离，制造商通常使用专门设备，如层流罩和隔离器，这些设备可以过滤掉空气中的颗粒和微生物。这些系统创造了一个受控的气氛，在这里，污染的风险被最小化，从而允许安全处理敏感化合物。同样，在半导体制造中，空气隔离对生产高质量微芯片至关重要。半导体的制造涉及高度敏感的复杂过程，受到环境条件的高度影响。灰尘颗粒、湿气和其他空气杂质会对最终产品的性能产生不利影响。通过实施空气隔离技术，制造商可以确保他们的生产环境不受污染，从而提高产量和可靠性。环境研究也受益于空气隔离。研究大气现象的科学家通常需要控制环境来进行实验。例如，在研究污染物对植物生长的影响时，研究人员可能会使用隔离空气的舱室，以准确测量特定变量的影响。这种方法允许更精确的数据收集和分析，从而导致对环境问题的更好理解和解决方案。此外，空气隔离不仅限于工业应用；它对日常生活也有影响。在住宅环境中，有效的空气隔离可以改善室内空气质量和能源效率。配备适当绝缘和通风系统的房屋可以限制户外污染物的渗透，同时保持舒适的温度。这在城市地区尤其相关，因为空气污染水平可能很高。通过确保室内空气与户外污染物隔离，居民可以享受更健康的生活环境。总之，空气隔离的概念在多个领域中都是不可或缺的，从制药和半导体制造到环境研究和家庭生活。它防止不必要的空气交换的能力不仅保护产品和实验，而且提升整体生活质量。随着技术的不断进步，实现空气隔离的方法可能会不断演变，从而带来更高效和有效的解决方案，以维持清洁和安全的环境。理解和应用这一概念对于各个行业的专业人士以及寻求改善居住空间的个人都是至关重要的。