vaporise

简明释义

英[ˈveɪpəˌraɪz]美[ˈveɪpəˌraɪz]

v. 汽化；蒸发

英英释义

单词用法

同义词

反义词

例句

1.Because of the action of an outer cover and a sealing gasket in the inside, the change cycle can be extended largely by the water in the tray of the jar body, and the water is not easy to vaporise.

由于外盖及其内侧的密封垫的作用，罐体托盘中的水可大大延长更换周期，水不易蒸发。

2.As absorbed water vaporise in reflow, internal cracks and failures may be created.

由于水蒸发吸收的回流，可能会产生内部裂纹和失败。

3.In a crude sense it did: many saw a big part of their wealth vaporise.

大致上的确如此：不少人的财富蒸发了一多半。

4.Ion cannon shots vaporise the object struck magnifying the energy discharge. armour is of no value against them. they function as lances in all respects.

离子炮射击能使目标蒸发从而增大能量放射。装甲对它们完全无效，在各方面，它们表现的都和骑枪一样。

5.They vaporise the mercury using a blowtorch, leaving gold behind.

他们用喷灯蒸发水银，留下金子。

6.The plants take salty or brackish water, and either warm it, vaporise it and separate off the salts and impurities, or pass it through filters.

这些淡化设备抽取含盐分的水，通过加热气化或者过滤的方式滤掉盐分和杂质。

7.The scientist used a special device to vaporise 蒸发 the sample for analysis.

科学家使用一种特殊设备来vaporise 蒸发样本以进行分析。

8.When heated to a high temperature, the liquid will vaporise 蒸发 and turn into gas.

当加热到高温时，液体会vaporise 蒸发并转变为气体。

9.Some substances can vaporise 蒸发 at room temperature, releasing fumes.

某些物质可以在室温下vaporise 蒸发，释放烟雾。

10.In the process of cooking, water can quickly vaporise 蒸发 if the heat is too high.

在烹饪过程中，如果热量过高，水可以迅速vaporise 蒸发。

11.The engineer explained how to vaporise 蒸发 the coolant in the system safely.

工程师解释了如何安全地vaporise 蒸发系统中的冷却剂。

作文

In the world of science and technology, the process of changing a substance from a liquid or solid state into vapor is known as vaporise. This phenomenon occurs when a substance is heated to its boiling point, causing its molecules to gain enough energy to break free from the liquid state and enter the gas phase. The concept of vaporise is not only fundamental in physics and chemistry but also plays a crucial role in various industries, including food processing, pharmaceuticals, and environmental management.For instance, in the culinary world, chefs often utilize techniques that involve the vaporise method to enhance flavors and textures in their dishes. Sous-vide cooking is a prime example where food is vacuum-sealed and then heated in a water bath at precise temperatures. As the food cooks, moisture is preserved, and the natural flavors are intensified. The steam generated during this process can be thought of as a controlled vaporise action, ensuring that the dish remains succulent and flavorful.In the pharmaceutical industry, the ability to vaporise substances is critical for drug delivery systems. Inhalable medications, such as those used for asthma treatment, often rely on the vaporise technique. These medications are formulated to be aerosolized, allowing patients to inhale them directly into their lungs. This method ensures rapid absorption into the bloodstream, providing quick relief from symptoms. Understanding how to effectively vaporise these compounds is essential for developing effective therapeutic solutions.Environmental management also benefits from the principles of vaporise. For example, in waste treatment processes, certain hazardous materials can be safely vaporised to reduce their volume and toxicity. By converting solid or liquid waste into vapor, facilities can minimize the impact on landfills and the surrounding ecosystem. This approach not only helps in managing waste efficiently but also contributes to sustainability efforts by reducing harmful emissions.Moreover, the concept of vaporise extends beyond scientific applications and enters our daily lives through various technologies. Steam-powered engines, for instance, operate on the principle of vaporised water. When water is heated, it vaporises into steam, which expands and drives pistons to produce mechanical work. This invention revolutionized transportation and industry during the Industrial Revolution, showcasing the transformative power of vaporise in engineering.In conclusion, the term vaporise encompasses a wide range of applications across different fields. From cooking to pharmaceuticals and environmental management, the ability to vaporise substances allows us to harness their properties for various purposes. As we continue to explore and innovate, understanding the principles behind vaporise will remain vital in advancing technology and improving our quality of life. Whether it is in a laboratory, kitchen, or industrial setting, the process of vaporise serves as a reminder of the intricate connections between science and everyday experiences.

在科学和技术的世界中，将物质从液态或固态转变为蒸汽的过程被称为vaporise。当物质被加热到其沸点时，这种现象就会发生，导致其分子获得足够的能量以摆脱液态并进入气相。vaporise的概念不仅在物理和化学中是基础性的，而且在食品加工、制药和环境管理等各个行业中也发挥着至关重要的作用。例如，在烹饪界，厨师们常常利用涉及vaporise方法的技术来增强菜肴的风味和质地。真空低温烹饪就是一个典型的例子，其中食物被真空密封，然后在精确温度的水浴中加热。当食物烹饪时，水分被保留，自然风味被增强。在这个过程中产生的蒸汽可以被视为一种受控的vaporise行为，确保菜肴保持多汁和美味。在制药行业，物质的vaporise能力对于药物输送系统至关重要。可吸入药物，例如用于哮喘治疗的药物，通常依赖于vaporise技术。这些药物被制成气雾剂，允许患者直接将其吸入肺部。这种方法确保了快速吸收进入血液，从而快速缓解症状。有效地理解如何vaporise这些化合物对于开发有效的治疗方案至关重要。环境管理也从vaporise的原理中受益。例如，在废物处理过程中，某些危险材料可以安全地vaporise以减少其体积和毒性。通过将固体或液体废物转化为蒸汽，设施可以最小化对填埋场和周围生态系统的影响。这种方法不仅有助于高效管理废物，也通过减少有害排放促进可持续发展。此外，vaporise的概念超越了科学应用，进入我们的日常生活，通过各种技术展现出来。例如，蒸汽动力发动机就是基于vaporise水的原理运作的。当水被加热时，它会vaporise成蒸汽，蒸汽膨胀并推动活塞产生机械工作。这一发明在工业革命期间彻底改变了交通和工业，展示了vaporise在工程学中的变革力量。总之，vaporise这一术语涵盖了各个领域的广泛应用。从烹饪到制药，再到环境管理，vaporise物质的能力使我们能够利用其特性用于各种目的。随着我们继续探索和创新，理解vaporise背后的原理将在推进技术和改善我们的生活质量方面保持重要性。无论是在实验室、厨房还是工业环境中，vaporise的过程都提醒我们科学与日常体验之间的复杂联系。