vapour transmission

简明释义

蒸气传递

英英释义

例句

1.New technologies aim to minimize vapour transmission 蒸汽传输 in packaging materials.

新技术旨在最小化包装材料中的蒸汽传输 蒸汽传输。

2.Understanding vapour transmission 蒸汽传输 is crucial for designing energy-efficient buildings.

理解蒸汽传输 蒸汽传输对于设计节能建筑至关重要。

3.In the manufacturing process, vapour transmission 蒸汽传输 can affect the quality of the final product.

在制造过程中，蒸汽传输 蒸汽传输可能会影响最终产品的质量。

4.The study focused on vapour transmission 蒸汽传输 through different materials to determine their insulation properties.

这项研究集中在不同材料的蒸汽传输 蒸汽传输上，以确定它们的绝缘性能。

5.The report analyzed the effects of vapour transmission 蒸汽传输 on indoor air quality.

该报告分析了蒸汽传输 蒸汽传输对室内空气质量的影响。

作文

In the study of environmental science, one often encounters the term vapour transmission, which refers to the process by which water vapour moves through materials. This phenomenon is crucial in various fields, including building construction, agriculture, and even meteorology. Understanding vapour transmission is essential for ensuring that structures are built to withstand moisture-related issues, such as mould growth and structural damage. When constructing a building, architects and engineers must consider how vapour transmission will affect the interior environment. For instance, if a building is poorly insulated, moisture can easily pass through walls, leading to condensation on surfaces. This not only creates an uncomfortable living space but can also cause significant long-term damage to the building's structure. Therefore, materials with low vapour transmission rates are often used in areas prone to high humidity. In agriculture, the concept of vapour transmission plays a vital role in the management of soil moisture levels. Farmers need to understand how water vapour moves through the soil to optimize irrigation practices. If the vapour transmission rate is too high, it may lead to excessive water loss, adversely affecting crop yields. Conversely, if the rate is too low, it can result in waterlogged conditions that hinder plant growth. Thus, monitoring vapour transmission is essential for sustainable farming practices. Meteorologists also study vapour transmission to predict weather patterns. The movement of water vapour in the atmosphere can lead to cloud formation and precipitation. By understanding how vapour transmission works, meteorologists can better forecast rain, snow, and other weather phenomena. This knowledge is particularly important for preparing for extreme weather events, which can have devastating effects on communities. In conclusion, vapour transmission is a fundamental concept that impacts various aspects of our lives, from the buildings we inhabit to the food we grow and the weather we experience. By gaining a deeper understanding of vapour transmission, we can make informed decisions that enhance our living conditions, improve agricultural productivity, and better prepare for the challenges posed by climate change. Ultimately, the study of vapour transmission highlights the interconnectedness of natural processes and human activities, reminding us of the importance of sustainable practices in all areas of life.

在环境科学的研究中，人们经常会遇到“蒸汽传输”这个术语，它指的是水蒸气通过材料移动的过程。这一现象在建筑施工、农业甚至气象学等多个领域都至关重要。理解蒸汽传输对于确保建筑能够抵御与潮湿相关的问题（如霉菌生长和结构损坏）是必不可少的。在建造建筑物时，建筑师和工程师必须考虑蒸汽传输将如何影响室内环境。例如，如果建筑物的绝缘性能差，水分就容易通过墙壁传播，导致表面凝结。这不仅会造成居住空间的不适，还可能对建筑结构造成重大长期损害。因此，通常在潮湿地区使用具有低蒸汽传输率的材料。在农业中，蒸汽传输的概念在土壤水分管理中发挥着重要作用。农民需要了解水蒸气如何在土壤中移动，以优化灌溉实践。如果蒸汽传输率过高，可能导致水分过度流失，严重影响作物产量。反之，如果蒸汽传输率过低，则可能导致土壤积水，从而妨碍植物生长。因此，监测蒸汽传输对于可持续农业实践至关重要。气象学家也研究蒸汽传输以预测天气模式。大气中水蒸气的运动可以导致云的形成和降水。通过理解蒸汽传输的工作原理，气象学家可以更好地预测降雨、降雪和其他天气现象。这一知识对于准备应对极端天气事件尤为重要，因为这些事件可能对社区造成毁灭性的影响。总之，蒸汽传输是一个基本概念，影响着我们生活的各个方面，从我们居住的建筑到我们种植的食物，以及我们经历的天气。通过深入理解蒸汽传输，我们可以做出明智的决策，改善我们的生活条件，提高农业生产力，更好地为气候变化带来的挑战做好准备。最终，蒸汽传输的研究突显了自然过程与人类活动之间的相互联系，提醒我们在生活的各个领域都要重视可持续实践的重要性。