aerosolization

简明释义

英[ˌɛəroʊsəlaɪˈzeɪʃən]美[ˌɛəroʊsəlaɪˈzeɪʃən]

n. 烟雾化

英英释义

单词用法

同义词

反义词

例句

1.The possibility that protozoa are spread by means of droplets formed by the aerosolization of water that is sprayed or splashed during cleaning and disinfection processes cannot be excluded.

通过在清洁和消毒的过程中已经被喷洒和喷淋的水蒸汽灭菌器液滴的传播途径的可能性是不能追查线索。

2.However, aerosol droplets were larger, total drug and mass outputs were lower and aerosolization performance was dependent on formulation.

然而，雾滴比较大，总的药品及质量产量比较低，并且雾化过程依赖于处方。

3.The release and aerosolization of the fungal spore on the surface of building materials are the key factors to investigate the bioaerosol exposure and harmful effects on human health.

建筑材料表面真菌孢子的释放和气溶胶的形成，是研究室内空气微生物气溶胶暴露及其对人体危害的关键因素。

4.The possibility that protozoa are spread by means of droplets formed by the aerosolization of water that is sprayed or splashed during cleaning and disinfection processes cannot be excluded.

通过在清洁和消毒的过程中已经被喷洒和喷淋的水蒸汽灭菌器液滴的传播途径的可能性是不能追查线索。

5.Researchers are investigating the aerosolization 气溶胶化 of pollutants from industrial sources.

研究人员正在调查工业来源的污染物的气溶胶化。

6.During the outbreak, health officials warned about the potential aerosolization 气溶胶化 of the virus.

在疫情期间，卫生官员警告病毒可能发生的气溶胶化。

7.The aerosolization 气溶胶化 of disinfectants can enhance their effectiveness in killing germs.

消毒剂的气溶胶化可以增强其杀灭细菌的效果。

8.Proper ventilation can reduce the risk of aerosolization 气溶胶化 during medical procedures.

适当的通风可以降低医疗程序中气溶胶化的风险。

9.The study focused on the effects of aerosolization 气溶胶化 of viral particles in indoor environments.

这项研究集中于病毒颗粒在室内环境中的气溶胶化的影响。

作文

Aerosols are tiny particles or droplets suspended in the air, and the process of their formation is known as aerosolization. This phenomenon occurs in various natural and artificial contexts, playing a crucial role in environmental science, public health, and even everyday life. Understanding aerosolization is essential for comprehending how pollutants, viruses, and other substances can be transmitted through the air. In nature, aerosolization can occur through processes like evaporation, combustion, and biological activities. For example, when a volcano erupts, it releases ash and gases into the atmosphere, leading to the formation of aerosols that can travel vast distances. Similarly, forest fires produce smoke, which consists of particulate matter that becomes aerosolized and can affect air quality far from the fire's origin. From a public health perspective, aerosolization is particularly significant. Many infectious diseases, including COVID-19, are transmitted through respiratory droplets that become aerosolized. When an infected person coughs, sneezes, or even talks, they release droplets into the air. If these droplets are small enough, they can remain suspended in the air for extended periods, increasing the likelihood of transmission to others. This understanding underscores the importance of ventilation and air filtration in indoor environments, especially during disease outbreaks. Moreover, aerosolization is not limited to natural events; it also occurs in various industrial processes. For instance, spray painting, agricultural spraying of pesticides, and even the use of household cleaners can lead to the aerosolization of chemicals. This can have implications for occupational safety, as workers may be exposed to harmful substances that become airborne. Therefore, understanding aerosolization helps in developing guidelines and regulations to protect workers and the general public from potential hazards. In everyday life, we encounter aerosolization in many forms. For example, when we use deodorants or air fresheners, we are essentially aerosolizing fragrances and other chemicals into the air. While these products can enhance our living environment, it is crucial to be aware of the potential health effects of inhaling aerosolized substances. In conclusion, aerosolization is a multifaceted process with significant implications for our environment, health, and daily lives. By understanding how aerosols form and behave, we can better manage their impact on air quality and public health. As research continues to evolve, it is vital to stay informed about the mechanisms of aerosolization and its effects, especially in the context of global challenges such as climate change and infectious disease control.

气溶胶化是指微小颗粒或液滴悬浮在空气中，而它们的形成过程被称为气溶胶化。这一现象在自然和人造环境中均会发生，在环境科学、公共健康甚至日常生活中都扮演着重要角色。理解气溶胶化对于理解污染物、病毒和其他物质如何通过空气传播至关重要。在自然界中，气溶胶化可以通过蒸发、燃烧和生物活动等过程发生。例如，当火山喷发时，它会将灰烬和气体释放到大气中，从而形成气溶胶，这些气溶胶可以传播到遥远的地方。同样，森林火灾产生的烟雾由颗粒物组成，这些颗粒物变得气溶胶化，并可能影响远离火源的空气质量。从公共健康的角度来看，气溶胶化尤其重要。许多传染病，包括COVID-19，都是通过呼吸道飞沫传播的，这些飞沫会气溶胶化。当一个感染者咳嗽、打喷嚏或甚至说话时，他们会将飞沫释放到空气中。如果这些飞沫足够小，它们可以在空气中悬浮较长时间，从而增加传播给他人的可能性。这种理解强调了在疾病爆发期间室内环境通风和空气过滤的重要性。此外，气溶胶化不仅限于自然事件，它还发生在各种工业过程中。例如，喷漆、农业喷洒农药，甚至使用家用清洁剂都可能导致化学物质的气溶胶化。这可能对职业安全产生影响，因为工人可能会接触到变得空气传播的有害物质。因此，理解气溶胶化有助于制定指导方针和法规，以保护工人和公众免受潜在危害。在日常生活中，我们以多种形式遇到气溶胶化。例如，当我们使用除臭剂或空气清新剂时，我们实际上是在将香味和其他化学物质气溶胶化到空气中。虽然这些产品可以改善我们的生活环境，但了解吸入气溶胶化物质的潜在健康影响至关重要。总之，气溶胶化是一个多方面的过程，对我们的环境、健康和日常生活具有重要影响。通过理解气溶胶的形成和行为，我们可以更好地管理其对空气质量和公共健康的影响。随着研究的不断发展，保持对气溶胶化机制及其影响的了解，尤其是在气候变化和传染病控制等全球挑战的背景下，是至关重要的。