condenser

简明释义

英[kənˈdensə(r)]美[kənˈdensər]

n. 冷凝器；[电] 电容器；[光] 聚光器

复 数 c o n d e n s e r s

英英释义

单词用法

同义词

反义词

例句

1.In this paper, the seismic behavior of a typical joint in the air-cooled condenser structure system is researched.

本文针对空冷支架结构体系中典型的空间钢桁架节点进行了抗震性能试验研究。

2.The evaporator and the condenser are both copper coils, and there is some copper in the compressor, too.

蒸发器和冷凝器都是铜线圈，压缩机里也有一些铜。

3.Before starting the machine back check condenser is clean, to avoid bad heat.

开机前须检查机台背面冷凝器是否干净，以免散热不良。

4.The feed-water from the condenser coming down the vessel and out through to the core.

这个从压缩机的补水，从管子往下,流出，进入核心。

5.A pneumatically activated butterfly valve is located close to the condenser to isolate the vacuum system from the condenser.

在靠冷凝器的位置有一个气动蝶阀，将冷凝器与真空系统隔开。

6.Restricted refrigerant flow through the condenser.

冷却剂流经冷凝器不畅。

7.How to generate the binary code of compensation condenser and how to chose initial value are researched.

并对补偿电容器组分组投切的二进制编码和初值的选取进行了研究。

8.The refrigerant, refrigeration oil and an evaporator, condenser and piping in the drying process is very important.

对冷媒，冷冻油及蒸发器、冷凝器和配管的干燥处理是极为重要的。

9.During the experiment, we observed how the condenser affected the rate of condensation.

在实验中，我们观察了冷凝器如何影响冷凝速率。

10.The air conditioning system uses a condenser to release heat from the refrigerant.

空调系统使用一个冷凝器将制冷剂中的热量释放出去。

11.The condenser in the refrigerator helps maintain a cool temperature inside.

冰箱中的冷凝器有助于保持内部的低温。

12.In a steam engine, the condenser cools the steam back into water.

在蒸汽机中，冷凝器将蒸汽冷却回水。

13.A faulty condenser can cause overheating in your car's engine.

故障的冷凝器可能导致汽车发动机过热。

作文

In the world of science and engineering, the term condenser (冷凝器) holds significant importance, particularly in thermodynamics and electrical engineering. A condenser is a device that converts vapor into liquid by cooling it, which is essential in various systems, such as air conditioning, refrigeration, and power generation. Understanding how a condenser operates can provide insight into its critical role in these applications. To begin with, let’s explore the basic principle behind a condenser. When a gas is cooled, its molecules lose energy, causing them to come closer together and eventually transition into a liquid state. This process is known as condensation. In an air conditioning system, for example, the refrigerant absorbs heat from the indoor air and evaporates into a gas. This gas is then compressed and sent to the condenser, where it releases heat to the outside environment, allowing it to condense back into a liquid. This cycle is repeated continuously to maintain a comfortable indoor temperature. The design of a condenser can vary depending on its application. There are several types, including air-cooled, water-cooled, and shell-and-tube condensers. Each type has its unique advantages and is suited for different scenarios. For instance, air-cooled condensers use ambient air to cool the refrigerant, making them ideal for smaller systems or locations where water is scarce. On the other hand, water-cooled condensers are more efficient and commonly used in large commercial buildings where cooling loads are substantial. One of the most fascinating aspects of a condenser is its impact on energy efficiency. In power plants, condensers play a vital role in the steam cycle. After steam passes through the turbine and does work, it enters the condenser, where it is cooled and transformed back into water. This process not only recycles the water but also helps maintain the pressure differential necessary for the turbine to operate efficiently. Thus, a well-functioning condenser can significantly enhance the overall efficiency of a power generation system. Moreover, the maintenance of a condenser is crucial for its performance. Over time, dirt and scale can accumulate on the heat exchange surfaces, reducing its efficiency. Regular cleaning and inspections are necessary to ensure that the condenser operates optimally. Failure to maintain this component can lead to increased energy consumption and higher operational costs. In conclusion, the condenser (冷凝器) is a fundamental device in many industrial and residential applications. Its ability to transform vapor into liquid through the process of condensation plays a crucial role in systems like air conditioning, refrigeration, and power generation. By understanding how a condenser works and its importance in maintaining energy efficiency, we can appreciate the intricate systems that contribute to our modern comforts. As technology advances, the design and efficiency of condensers will continue to evolve, further enhancing their role in sustainable energy solutions.

在科学和工程的世界中，术语condenser（冷凝器）具有重要意义，尤其是在热力学和电气工程中。condenser是将蒸气通过冷却转化为液体的装置，这在空调、制冷和发电等各种系统中至关重要。理解condenser的工作原理可以让人们深入了解它在这些应用中的关键作用。首先，让我们探讨一下condenser的基本原理。当气体被冷却时，其分子失去能量，导致它们靠得更近，并最终转变为液态。这一过程称为冷凝。在空调系统中，例如，制冷剂从室内空气中吸收热量并蒸发成气体。然后，这种气体被压缩并送到condenser，在这里它将热量释放到外部环境，从而使其重新冷凝为液体。这个循环不断重复，以维持舒适的室内温度。condenser的设计可以根据其应用而有所不同。有几种类型，包括风冷式、水冷式和壳管式冷凝器。每种类型都有其独特的优点，并适用于不同的场景。例如，风冷式condensers使用环境空气来冷却制冷剂，使其非常适合较小的系统或水源稀缺的地方。另一方面，水冷式condensers效率更高，通常用于冷负荷巨大的大型商业建筑。condenser最迷人的方面之一是它对能源效率的影响。在发电厂中，冷凝器在蒸汽循环中发挥着至关重要的作用。在蒸汽通过涡轮机并做功后，它进入condenser，在这里它被冷却并转化回水。这一过程不仅回收了水，还帮助维持涡轮机高效运转所需的压力差。因此，功能良好的condenser可以显著提高发电系统的整体效率。此外，维护condenser对于其性能至关重要。随着时间的推移，污垢和水垢可能会在热交换表面上积累，降低其效率。定期清洁和检查是确保condenser最佳运行的必要条件。未能维护该组件可能导致能耗增加和运营成本上升。总之，condenser（冷凝器）是许多工业和住宅应用中的基本设备。它通过冷凝过程将蒸气转变为液体的能力在空调、制冷和发电等系统中发挥着至关重要的作用。通过理解condenser的工作原理及其在保持能源效率中的重要性，我们可以欣赏到为现代舒适生活作出贡献的复杂系统。随着技术的进步，condenser的设计和效率将继续发展，进一步增强其在可持续能源解决方案中的作用。