complete admissiion of steam

简明释义

全进汽

英英释义

例句

1.A complete admission of steam 蒸汽的完全进入 is crucial for maintaining pressure levels in the boiler.

保持锅炉压力水平的关键是< span>蒸汽的完全进入。

2.For optimal performance, the system requires a complete admission of steam 蒸汽的完全进入 during operation.

为了获得最佳性能，系统在运行期间需要< span>蒸汽的完全进入。

3.The process was halted until a complete admission of steam 蒸汽的完全进入 could be confirmed.

在确认< span>蒸汽的完全进入之前，过程被暂停。

4.The technician adjusted the valves to allow for a complete admission of steam 蒸汽的完全进入 into the chamber.

技术员调整阀门以允许< span>蒸汽的完全进入进入腔室。

5.The engineer ensured a complete admission of steam 蒸汽的完全进入 before starting the turbine.

工程师在启动涡轮之前确保了< span>蒸汽的完全进入。

作文

In the world of engineering and thermodynamics, the phrase complete admission of steam refers to a process where steam is allowed to enter a system without any restrictions or limitations. This concept is particularly important in the design and operation of steam engines, turbines, and various industrial applications where steam plays a crucial role in energy conversion. The efficiency of these systems often hinges on how effectively they can utilize steam, and achieving complete admission of steam is vital for optimal performance.When we talk about complete admission of steam, we are essentially discussing the unrestricted flow of steam into a designated area, such as a turbine or a cylinder. This unrestricted flow allows for maximum energy transfer from the steam to the mechanical components of the system. In practical terms, this means that when steam enters a turbine, it can expand and do work effectively, leading to higher efficiency and output.One of the primary advantages of ensuring complete admission of steam is the reduction of energy losses. When steam is admitted into a system in a controlled manner, there can be pressure drops or turbulence that lead to inefficiencies. By allowing steam to enter freely, engineers can minimize these losses, resulting in more effective energy conversion and better overall performance of the machinery. Moreover, this principle is not limited to just one type of machine; it applies across various systems that utilize steam, including power plants and heating systems.In addition to efficiency, complete admission of steam also has implications for the longevity and maintenance of equipment. When steam is allowed to enter a system without obstruction, it reduces the likelihood of wear and tear on components caused by pressure fluctuations or improper steam flow. This can lead to longer service intervals and reduced maintenance costs, which are significant factors in industrial settings where downtime can be costly.Furthermore, achieving complete admission of steam requires careful consideration during the design phase of machinery. Engineers must take into account the size and shape of pipes, valves, and other components to ensure that steam can flow freely. This often involves extensive calculations and simulations to predict how steam will behave under different conditions. The goal is to create a system that not only allows for complete admission of steam but also maintains safety and reliability throughout its operation.In conclusion, the concept of complete admission of steam is a fundamental aspect of steam engineering and thermodynamics. It highlights the importance of allowing steam to flow freely into systems to maximize efficiency, reduce energy losses, and enhance the durability of equipment. As industries continue to innovate and seek more efficient ways to harness energy, understanding and implementing this principle will remain critical. The ongoing advancements in technology will likely lead to even better methods of achieving complete admission of steam, further enhancing the effectiveness of steam-powered systems in various applications.

在工程和热力学的世界中，短语完全蒸汽入境指的是一种过程，其中蒸汽被允许无任何限制或限制地进入一个系统。这个概念在蒸汽机、涡轮机以及各种工业应用的设计和操作中尤其重要，因为蒸汽在能量转换中发挥着关键作用。这些系统的效率往往取决于它们能够多有效地利用蒸汽，而实现完全蒸汽入境对于最佳性能至关重要。当我们谈论完全蒸汽入境时，我们实际上是在讨论蒸汽自由流入指定区域（如涡轮或气缸）。这种不受限制的流动使蒸汽能够最大限度地传递能量到系统的机械组件。在实际操作中，这意味着当蒸汽进入涡轮时，它可以有效地膨胀并做功，从而导致更高的效率和输出。确保完全蒸汽入境的主要优点之一是减少能量损失。当蒸汽以受控方式进入系统时，可能会出现压力下降或湍流，从而导致效率降低。通过允许蒸汽自由进入，工程师可以最小化这些损失，从而实现更有效的能量转换和更好的机器整体性能。此外，这一原则并不仅限于某一种类型的机器；它适用于各种利用蒸汽的系统，包括发电厂和供热系统。除了效率之外，完全蒸汽入境还对设备的使用寿命和维护产生影响。当蒸汽被允许无障碍地进入系统时，可以减少因压力波动或蒸汽流动不当造成的组件磨损。这可以导致更长的服务间隔和降低的维护成本，这在工业环境中是一个重要因素，因为停机时间可能会造成巨大的经济损失。此外，实现完全蒸汽入境需要在机器设计阶段进行仔细考虑。工程师必须考虑管道、阀门和其他组件的大小和形状，以确保蒸汽可以自由流动。这通常涉及大量计算和模拟，以预测蒸汽在不同条件下的行为。目标是创建一个不仅允许完全蒸汽入境的系统，还能在操作过程中保持安全和可靠。总之，完全蒸汽入境的概念是蒸汽工程和热力学的基本方面。它强调了允许蒸汽自由流入系统以最大化效率、减少能量损失和增强设备耐用性的重要性。随着各行业不断创新并寻求更高效的能源利用方式，理解和实施这一原则将继续至关重要。技术的持续进步可能会导致实现完全蒸汽入境的更好方法，进一步增强蒸汽动力系统在各种应用中的有效性。