isothermal operation

简明释义

等温操作

英英释义

例句

1.The isothermal operation 等温操作 is critical in thermodynamic cycles to ensure work output is maximized.

在热力学循环中，isothermal operation 等温操作是关键，以确保功输出最大化。

2.In a heat exchanger, maintaining an isothermal operation 等温操作 ensures maximum efficiency during the thermal exchange process.

在热交换器中，保持isothermal operation 等温操作可以确保热交换过程的最大效率。

3.The isothermal operation 等温操作 of the gas compressor minimizes energy loss and improves performance.

气体压缩机的isothermal operation 等温操作最小化了能量损失并提高了性能。

4.To achieve isothermal operation 等温操作, the process must be conducted under controlled pressure conditions.

为了实现isothermal operation 等温操作，该过程必须在受控的压力条件下进行。

5.During the isothermal operation 等温操作 of a refrigeration cycle, the temperature remains constant while heat is removed from the system.

在制冷循环的isothermal operation 等温操作中，温度保持不变，同时从系统中移除热量。

作文

In the study of thermodynamics, the concept of isothermal operation is crucial for understanding various processes that occur in different systems. An isothermal operation refers to a process that occurs at a constant temperature. This means that during the entire operation, the temperature of the system does not change, despite the transfer of heat and work. This principle is particularly important in the context of ideal gases and is often used to simplify calculations and understand the behavior of gases under different conditions.One of the most common examples of isothermal operation can be observed in the ideal gas law, where the relationship between pressure, volume, and temperature is defined. In an isothermal operation, if the volume of a gas increases, its pressure decreases, and vice versa, as long as the temperature remains constant. This relationship can be mathematically expressed using Boyle’s Law, which states that the product of pressure and volume is a constant for a given amount of gas at a constant temperature.The significance of isothermal operation extends beyond theoretical studies; it has practical implications in various engineering applications. For instance, in refrigeration cycles, the compression and expansion processes are often designed to be isothermal operations. By maintaining a constant temperature during these processes, engineers can maximize efficiency and minimize energy loss. This is particularly important in systems where maintaining a specific temperature is vital, such as in food preservation and chemical manufacturing.Moreover, understanding isothermal operation is essential for designing heat exchangers, where the goal is to transfer heat between two fluids without changing their temperatures significantly. In these systems, engineers aim to achieve isothermal operation to ensure that the heat transfer is efficient and effective, thus optimizing the overall performance of the system.In conclusion, the concept of isothermal operation plays a fundamental role in both theoretical and practical aspects of thermodynamics. It allows scientists and engineers to analyze and design systems that require precise temperature control. Whether it is in the context of ideal gases, refrigeration cycles, or heat exchangers, the principles governing isothermal operation provide invaluable insights into how energy is transferred and transformed in various processes. As technology continues to advance, the importance of understanding isothermal operation will only grow, leading to more efficient and sustainable systems in the future.

在热力学的研究中，等温操作的概念对于理解不同系统中发生的各种过程至关重要。等温操作指的是在恒定温度下进行的过程。这意味着在整个操作过程中，尽管有热量和功的转移，系统的温度保持不变。这个原理在理想气体的背景下尤为重要，通常用于简化计算并理解气体在不同条件下的行为。一个常见的等温操作的例子可以在理想气体法则中观察到，其中压力、体积和温度之间的关系被定义。在等温操作中，如果气体的体积增加，其压力会降低，反之亦然，只要温度保持不变。这个关系可以使用玻意耳定律用数学表达，玻意耳定律指出，在恒定温度下，对于一定量的气体，压力和体积的乘积是一个常数。等温操作的重要性不仅限于理论研究；它在各种工程应用中也具有实际意义。例如，在制冷循环中，压缩和膨胀过程通常被设计为等温操作。通过在这些过程中保持恒定温度，工程师可以最大限度地提高效率，最小化能量损失。这在需要维持特定温度的系统中尤其重要，例如在食品保存和化学制造中。此外，理解等温操作对于设计热交换器至关重要，在这些系统中，目标是使两种流体之间的热量转移而不显著改变其温度。在这些系统中，工程师旨在实现等温操作，以确保热量转移高效且有效，从而优化系统的整体性能。总之，等温操作的概念在热力学的理论和实践方面都起着基础性作用。它使科学家和工程师能够分析和设计需要精确温度控制的系统。无论是在理想气体、制冷循环还是热交换器的背景下，支配等温操作的原理为我们提供了关于能量如何在各种过程中转移和转化的宝贵见解。随着技术的不断进步，理解等温操作的重要性只会增加，从而在未来导致更高效和可持续的系统。