steam escape

简明释义

放汽

英英释义

例句

1.To ensure safety, always monitor the steam escape 蒸汽逸出 during the heating process.

为了确保安全，在加热过程中始终监测蒸汽逸出蒸汽逸出。

2.During the cooking process, make sure that any steam escape 蒸汽逸出 is properly vented to avoid pressure buildup.

在烹饪过程中，确保任何蒸汽逸出蒸汽逸出都得到适当的通风，以避免压力积聚。

3.In the event of a malfunction, the system will automatically release steam escape 蒸汽逸出 to prevent an explosion.

在发生故障时，系统将自动释放蒸汽逸出蒸汽逸出以防止爆炸。

4.When using a pressure cooker, always check for steam escape 蒸汽逸出 before opening the lid.

使用高压锅时，始终在打开锅盖前检查是否有蒸汽逸出蒸汽逸出。

5.The engineer designed a safety valve that allows for controlled steam escape 蒸汽逸出 in case of overheating.

工程师设计了一个安全阀，以便在过热的情况下允许控制的蒸汽逸出蒸汽逸出。

作文

In the world of engineering and thermodynamics, the concept of steam escape plays a crucial role in understanding how steam systems operate. Steam escape refers to the release of steam from a pressurized system, often occurring when there is a failure or a need to relieve pressure. This phenomenon can happen in various settings, such as power plants, industrial facilities, and even in household appliances like steam irons. Understanding the mechanics of steam escape is essential for ensuring safety and efficiency in these systems.When steam is generated in a closed system, it is usually kept under high pressure. This pressure allows the steam to carry energy effectively, which can be harnessed for various applications, including electricity generation and heating. However, if the pressure becomes too high, it poses a risk of explosion or damage to the equipment. To prevent such dangerous situations, engineers design systems with safety valves that allow for steam escape when necessary.The importance of controlled steam escape cannot be overstated. For instance, in a power plant, if the steam pressure exceeds safe limits, the safety valve opens to release excess steam, thus preventing potential disasters. This controlled release not only protects the equipment but also maintains the operational integrity of the entire system. Without effective management of steam escape, accidents could lead to catastrophic failures, endangering lives and causing significant economic losses.Moreover, steam escape is not just a matter of safety; it also has implications for efficiency. When steam escapes unnecessarily, it represents a loss of energy. Engineers strive to minimize such losses by designing systems that can recover and reuse escaping steam. This practice not only enhances the efficiency of the system but also contributes to environmental sustainability by reducing waste.In everyday life, we encounter steam escape in various forms. For example, when using a pressure cooker, the steam must escape to prevent excessive pressure build-up. The release of steam indicates that the cooking process is ongoing, and it helps regulate the temperature inside the cooker. Understanding this simple yet vital aspect of cooking can enhance our culinary skills and ensure safety in the kitchen.Furthermore, the phenomenon of steam escape can also be observed in steam engines. These engines rely on the controlled release of steam to drive pistons and generate motion. If the steam were to escape uncontrollably, it would disrupt the engine's operation, leading to inefficiencies and potential breakdowns. Thus, mastering the principles of steam escape is fundamental for anyone involved in mechanical engineering or related fields.In conclusion, steam escape is a critical concept in both industrial applications and everyday life. Its proper management ensures safety, efficiency, and sustainability in steam systems. As we continue to advance in technology and engineering, a deeper understanding of steam escape will be essential for developing innovative solutions that harness the power of steam while minimizing risks and waste. By recognizing the significance of steam escape, we can appreciate the intricate balance between utilizing steam energy and maintaining safe operational practices in various contexts.

在工程和热力学的世界中，蒸汽逸出这一概念在理解蒸汽系统的运作中扮演着至关重要的角色。蒸汽逸出是指从加压系统释放蒸汽的过程，通常发生在出现故障或需要减压时。这种现象可以在各种场合中出现，例如发电厂、工业设施，甚至家庭电器如蒸汽熨斗。理解蒸汽逸出的机制对于确保这些系统的安全性和效率至关重要。当蒸汽在封闭系统中生成时，通常会保持在高压力下。这种压力使蒸汽能够有效地传递能量，可以用于各种应用，包括发电和供热。然而，如果压力过高，就会对设备造成爆炸或损坏的风险。为了防止这种危险情况，工程师设计了具有安全阀的系统，当必要时允许蒸汽逸出。受控的蒸汽逸出的重要性不容小觑。例如，在发电厂中，如果蒸汽压力超过安全极限，安全阀会打开以释放多余的蒸汽，从而防止潜在的灾难。这种受控释放不仅保护了设备，还维护了整个系统的操作完整性。如果没有有效管理蒸汽逸出，事故可能导致灾难性的故障，危及生命并造成重大经济损失。此外，蒸汽逸出不仅是安全问题；它也影响效率。当蒸汽不必要地逸出时，这就代表着能量的损失。工程师努力通过设计能够回收和重用逸出蒸汽的系统来最小化这种损失。这种做法不仅提高了系统的效率，还通过减少浪费为环境可持续发展做出了贡献。在日常生活中，我们在各种形式中遇到蒸汽逸出。例如，在使用压力锅时，蒸汽必须逸出以防止过度压力的积累。蒸汽的释放表明烹饪过程正在进行，并有助于调节锅内的温度。理解这一简单但至关重要的烹饪方面可以提升我们的烹饪技巧，并确保厨房的安全。此外，蒸汽逸出的现象也可以在蒸汽机中观察到。这些发动机依赖于蒸汽的受控释放来驱动活塞并产生运动。如果蒸汽不受控制地逸出，将会干扰发动机的运行，导致效率低下和潜在的故障。因此，掌握蒸汽逸出的原理对于任何参与机械工程或相关领域的人来说都是基础。总之，蒸汽逸出是工业应用和日常生活中的一个关键概念。其适当管理确保了蒸汽系统的安全性、效率和可持续性。随着我们在技术和工程领域的不断进步，对蒸汽逸出的深入理解将对开发利用蒸汽能量的创新解决方案至关重要，同时最大限度地降低风险和浪费。通过认识到蒸汽逸出的重要性，我们可以欣赏在各种背景下利用蒸汽能量与维持安全操作实践之间的微妙平衡。