condensate

简明释义

英[kənˈdenseɪt]美[ˈkɑːndənˌseɪt;kənˈdenˌseɪt]

n. 冷凝物；浓缩物

adj. 浓缩的

英英释义

单词用法

同义词

反义词

例句

1.The first pure Bose-Einstein condensate was created in Colorado in 1995 using a cloud of rubidium atoms cooled to less than 170 nanokelvin.

第一个纯粹的玻色-爱因斯坦凝聚态是在1995年使用一大群铷原子在科罗拉多(美国西部的州)所建立起来的，它的温度低于170毫微开尔文。

2.For this, we need to use a sticky oil, gas and its to boycott the condensate dilution and flush influence.

为此，需要用较粘的油，以抵制气体和其冷凝液的稀释和冲洗的影响。

3.Their data showed that the speed of part of the condensate exceeded the speed of sound, and they had therefore made an acoustic event horizon.

之后他们压缩减压能产生声波的这种气体。数据表示部分冷凝物的速度超过声速，因此他们制出了声音的黑洞边界。

4.High-pressure heater is composed by the condensate sections.

高压加热器由凝结段组成。

5.Their data showed that the speed of part of the condensate exceeded the speed of sound, and they had therefore made an acoustic event horizon.

之后他们压缩减压能产生声波的这种气体。数据表示部分冷凝物的速度超过声速，因此他们制出了声音的黑洞边界。

6.This condensate is analogous to the familiar Bose-Einstein condensate.

这种凝聚态类似于我们所熟悉的玻色-爱因斯坦凝聚态。

7.Installation and compensation of steam pipeline, vent and condensate drain-off of steam system, recovery of condensate are discussed.

探讨了蒸汽管道的敷设和补偿，蒸汽系统的排气和疏水，凝结水的回收。

8.In oil and gas production, condensate 凝析油 is a valuable byproduct.

在石油和天然气生产中，condensate 凝析油是一种有价值的副产品。

9.During the distillation process, the condensate 冷凝液 is separated from the vapor.

在蒸馏过程中，condensate 冷凝液与蒸汽分离。

10.The engineer explained how the condensate 冷凝物 is collected in the cooling tower.

工程师解释了如何在冷却塔中收集condensate 冷凝物。

11.The laboratory tested the condensate 冷凝液 for impurities.

实验室对condensate 冷凝液进行了杂质测试。

12.The condensate 冷凝水 produced in the air conditioning unit needs to be drained regularly.

空调设备产生的condensate 冷凝水需要定期排放。

作文

In the field of science and engineering, the term condensate refers to a substance that has been condensed from a gas to a liquid state. This process is commonly observed in various applications, including natural gas processing, refrigeration, and even in everyday phenomena like dew formation on grass in the morning. Understanding the concept of condensate is crucial for professionals working in these industries, as it plays a significant role in efficiency and effectiveness.When natural gas is extracted from the earth, it often contains a mixture of gases, including methane, ethane, propane, and heavier hydrocarbons. During the extraction and processing phases, these gases can be cooled and compressed, leading to the formation of condensate. This condensate is a valuable byproduct, as it can be separated and refined into various fuels and chemicals. For instance, the condensate can be processed to create gasoline or jet fuel, contributing to the energy supply chain.In refrigeration systems, the principle of condensate is also essential. Refrigerants are substances that absorb heat from their surroundings and evaporate into a gas. When these gases are compressed, they release heat and condense back into a liquid state. The condensate formed during this process is typically collected and drained away, preventing any buildup that could hinder the system's performance. Without proper management of condensate, refrigeration systems would become inefficient, leading to increased energy consumption and operational costs.Moreover, the concept of condensate extends beyond industrial applications; it is also a common occurrence in nature. For example, in meteorology, when warm, moist air rises and cools, water vapor condenses into tiny droplets, forming clouds. Eventually, these droplets combine and fall as precipitation, which is vital for replenishing our water supply. The condensate formed in this process is essential for maintaining ecosystems and supporting agriculture.The study of condensate is not limited to its physical properties; it also encompasses the chemical reactions and interactions that occur during condensation. For instance, in the oil and gas industry, understanding the composition of condensate can help determine the economic viability of extracting certain resources. By analyzing the molecular structure of condensate, scientists can predict how it will behave under different conditions, allowing for better planning and resource management.In conclusion, the term condensate signifies more than just a physical state change; it represents a critical component in various scientific and industrial processes. From natural gas processing to refrigeration and weather patterns, the implications of condensate are vast and multifaceted. As we continue to explore and understand the importance of condensate, we can harness its potential to improve efficiency, sustainability, and overall quality of life. Whether in a laboratory, an industrial setting, or the natural world, the concept of condensate remains an integral part of our understanding of physical processes and their applications in real life.

在科学和工程领域，术语condensate指的是从气体凝结成液态的物质。这一过程通常可以在各种应用中观察到，包括天然气处理、制冷，甚至在日常现象中，比如早晨草地上的露水形成。理解condensate的概念对于在这些行业工作的专业人士至关重要，因为它在效率和有效性中扮演着重要角色。当天然气从地球中提取时，它通常包含多种气体的混合物，包括甲烷、乙烷、丙烷和更重的烃类。在提取和处理阶段，这些气体可以被冷却和压缩，从而形成condensate。这种condensate是一个有价值的副产品，因为它可以被分离并精炼成各种燃料和化学品。例如，condensate可以被处理成汽油或喷气燃料，为能源供应链做出贡献。在制冷系统中，condensate的原理同样至关重要。制冷剂是吸收周围热量并蒸发成气体的物质。当这些气体被压缩时，它们释放热量并重新凝结成液态。形成的condensate通常会被收集并排出，以防止任何积聚，这可能会妨碍系统的性能。如果没有对condensate的适当管理，制冷系统将变得低效，导致能耗增加和运营成本上升。此外，condensate的概念不仅限于工业应用；它也是自然界中常见的现象。例如，在气象学中，当温暖潮湿的空气上升并冷却时，水蒸气会凝结成微小的水滴，形成云。这些水滴最终结合并降落为降水，这对补充我们的水源至关重要。在这个过程中形成的condensate对于维持生态系统和支持农业是必不可少的。对condensate的研究不仅限于其物理特性；它还包括在凝结过程中发生的化学反应和相互作用。例如，在石油和天然气行业，理解condensate的组成可以帮助确定提取某些资源的经济可行性。通过分析condensate的分子结构，科学家可以预测它在不同条件下的行为，从而允许更好的规划和资源管理。总之，术语condensate不仅仅意味着物理状态的变化；它代表了各种科学和工业过程中的关键组成部分。从天然气处理到制冷和天气模式，condensate的影响是广泛而多面的。随着我们继续探索和理解condensate的重要性，我们可以利用其潜力来提高效率、可持续性和整体生活质量。无论是在实验室、工业环境还是自然界，condensate的概念仍然是我们理解物理过程及其在现实生活中的应用的不可或缺的一部分。