vaporisation
简明释义
英[ˌveɪpəraɪˈzeɪʃ(ə)n]美[ˌveɪpəraɪˈzeɪʃn]
n. 汽化(等于 vaporization)
英英释义
The process of turning a substance from a liquid or solid state into vapor. | 将物质从液体或固体状态转变为蒸气的过程。 |
The conversion of a substance into gas, typically through heating. | 通常通过加热将物质转化为气体的过程。 |
单词用法
蒸发过程 | |
蒸发温度 | |
完全蒸发 | |
快速蒸发 | |
水的蒸发 | |
蒸发点 | |
蒸发速率 | |
蒸发能量 |
同义词
反义词
| 凝结 | 水蒸气在表面凝结成水滴。 | ||
| 液化 | The process of liquefaction occurs when gas is cooled and pressurized. | 当气体被冷却和加压时,发生液化过程。 |
例句
1.The forehearths are designed with covered glass surface in order to avoid vaporisation and to achieve optimum glass quality.
供料道设计有盖子,以避免喷雾和达到高的玻璃质量。
2.To avoid shortening seal life, consideration shall be given to evolution of gas and vaporisation in seal flushing streams.
为了避免短缩密封生活,考虑将对密封脸发红的气体和汽化的进化有流。
3.The method relies upon taking advantage of the latent heat of vaporisation of a cooling liquid.
该方法利用的是冷却液体蒸发时的潜藏热量。
4.The forehearths are designed with covered glass surface in order to avoid vaporisation and to achieve optimum glass quality.
供料道设计有盖子,以避免喷雾和达到高的玻璃质量。
5.The vaporisation of the liquid fuel in a car engine is crucial for combustion.
汽车发动机中液体燃料的蒸发对燃烧至关重要。
6.In the laboratory, scientists study the vaporisation of various substances.
在实验室中,科学家研究各种物质的蒸发。
7.In cooking, the vaporisation of water helps to steam vegetables.
在烹饪中,水的蒸发有助于蒸煮蔬菜。
8.The process of vaporisation is essential in the water cycle, where liquid water turns into vapor.
水循环中,蒸发的过程至关重要,液态水转变为水蒸气。
9.During a hot day, the vaporisation of sweat from our skin cools us down.
在炎热的日子里,皮肤上汗水的蒸发使我们降温。
作文
Vaporisation is a fundamental process that occurs in nature and is crucial in various scientific and industrial applications. It refers to the transition of a substance from a liquid or solid state into a gas. This process can be observed in everyday life, such as when water boils and turns into steam. Understanding vaporisation (蒸发) is essential for grasping many concepts in physics and chemistry, as it plays a significant role in weather patterns, cooking, and even in the functioning of engines.In meteorology, vaporisation (蒸发) is vital for the formation of clouds and precipitation. When water from oceans, lakes, and rivers heats up due to sunlight, it undergoes vaporisation (蒸发), rising into the atmosphere as water vapor. This vapor cools down at higher altitudes, condensing to form clouds. Eventually, when the clouds become heavy enough, they release the moisture as rain or snow, completing the water cycle. This natural process highlights how vaporisation (蒸发) contributes to maintaining ecological balance and supporting life on Earth.In the culinary world, vaporisation (蒸发) is often a desired effect. For instance, when cooking pasta, adding salt to boiling water enhances the flavor while also affecting the boiling point. As the water reaches its boiling point, it begins the process of vaporisation (蒸发), producing steam that cooks the pasta evenly. Chefs utilize this principle to create various dishes, understanding that controlling temperature and pressure can influence the rate of vaporisation (蒸发) and, consequently, the texture and taste of food.Moreover, vaporisation (蒸发) is critical in industrial processes. For example, in power plants, water is heated to produce steam, which drives turbines to generate electricity. The efficiency of this process largely depends on the rate of vaporisation (蒸发). Engineers and scientists work diligently to optimize these systems to improve energy output while minimizing environmental impact. Understanding the mechanics of vaporisation (蒸发) allows for advancements in technology and energy production.Additionally, vaporisation (蒸发) has applications in the field of medicine. In inhalation therapies, medications are often delivered in a vaporized form, allowing for quick absorption into the bloodstream through the lungs. This method is particularly effective for patients with respiratory conditions, showcasing the importance of vaporisation (蒸发) in enhancing therapeutic outcomes.In summary, vaporisation (蒸发) is a process that permeates various aspects of our lives, from the weather we experience to the food we eat and the technologies we rely on. Its significance cannot be overstated, as it is a key player in both natural phenomena and human innovation. By understanding vaporisation (蒸发), we can better appreciate the intricate workings of the world around us and harness its principles to improve our lives. Whether in nature, cooking, industry, or medicine, vaporisation (蒸发) remains an essential concept that bridges multiple disciplines and enhances our understanding of the universe.
