steam bleeding

简明释义

抽汽

英英释义

例句

1.The process of steam bleeding 蒸汽排放 helps improve the efficiency of the heating system.

进行 steam bleeding 蒸汽排放 的过程有助于提高供暖系统的效率。

2.Before starting the boiler, make sure to perform steam bleeding 蒸汽排放 to ensure safety.

在启动锅炉之前，请确保进行 steam bleeding 蒸汽排放 以确保安全。

3.After replacing the pump, we need to do steam bleeding 蒸汽排放 to eliminate any trapped air.

更换泵后，我们需要进行 steam bleeding 蒸汽排放 以消除任何被困的空气。

4.The technician explained that steam bleeding 蒸汽排放 is essential for removing air from the system.

技术员解释说，steam bleeding 蒸汽排放 对于从系统中去除空气至关重要。

5.To troubleshoot the heating issue, the engineer suggested performing steam bleeding 蒸汽排放 first.

为了排查供暖问题，工程师建议首先进行 steam bleeding 蒸汽排放。

作文

In the world of engineering, particularly in the field of mechanical systems, the term steam bleeding refers to a process that involves the extraction of steam from a system to improve its efficiency and performance. This technique is commonly used in power plants, where steam is generated to drive turbines for electricity production. However, steam bleeding is not just limited to power generation; it can also be applied in various industrial processes where steam plays a crucial role. By understanding the mechanics behind steam bleeding, engineers can optimize the operation of their systems. The primary purpose of steam bleeding is to manage the steam flow within a system effectively. When steam is bled off from the main line, it can be redirected to other applications, such as heating or drying processes. This not only enhances the overall efficiency of the system but also conserves energy by utilizing the heat contained in the steam. For instance, in a power plant, instead of allowing excess steam to escape and waste energy, operators can use steam bleeding to supply heat to nearby facilities, thereby maximizing the utility of the generated steam.Moreover, steam bleeding plays a vital role in maintaining the optimal operating conditions within a system. Excessive pressure buildup can lead to equipment failure or safety hazards. By bleeding off steam, operators can regulate pressure levels, ensuring that the system operates smoothly and safely. This aspect of steam bleeding is particularly important in high-pressure environments, where the consequences of pressure fluctuations can be severe.Another significant benefit of steam bleeding is its contribution to environmental sustainability. By improving the efficiency of steam systems, industries can reduce their carbon footprint. Efficient steam usage means less fuel consumption, which translates to lower greenhouse gas emissions. In today's context, where climate change is a pressing concern, adopting strategies like steam bleeding can help industries align with environmental regulations and contribute to a more sustainable future.However, implementing steam bleeding requires careful planning and consideration. Engineers must evaluate the specific needs of their systems and determine the optimal points for steam extraction. This involves analyzing the thermodynamic properties of steam and understanding how bleeding will impact the overall efficiency of the system. Additionally, operators must monitor the effects of steam bleeding on system performance continuously, making adjustments as necessary to ensure optimal operation.In conclusion, steam bleeding is a crucial process in the management of steam systems across various industries. It enhances efficiency, maintains safety, and contributes to environmental sustainability. As technology continues to evolve, the methods and applications of steam bleeding are likely to expand, offering even greater benefits to engineers and industries alike. Understanding this concept is essential for professionals working in mechanical engineering, power generation, and related fields, as it represents a key strategy for optimizing system performance and promoting sustainable practices.

在工程领域，尤其是机械系统领域，术语steam bleeding指的是一种从系统中提取蒸汽以提高其效率和性能的过程。这种技术通常用于发电厂，在那里生成蒸汽以驱动涡轮发电。然而，steam bleeding不仅限于发电；它还可以应用于各种工业过程中，蒸汽在其中起着至关重要的作用。通过理解steam bleeding背后的机制，工程师可以优化其系统的操作。steam bleeding的主要目的是有效管理系统内的蒸汽流。当蒸汽从主管道中排出时，可以将其重新定向到其他应用中，例如加热或干燥过程。这不仅增强了系统的整体效率，还通过利用蒸汽中所含的热量来节约能源。例如，在发电厂中，操作员可以使用steam bleeding将多余的蒸汽输送到附近的设施，而不是让其逃逸浪费能源，从而最大化所产生蒸汽的效用。此外，steam bleeding在维持系统的最佳运行条件方面发挥着至关重要的作用。过度的压力积聚可能导致设备故障或安全隐患。通过排放蒸汽，操作员可以调节压力水平，确保系统平稳安全地运行。在高压环境中，这一steam bleeding的方面尤为重要，因为压力波动的后果可能是严重的。steam bleeding的另一个显著好处是其对环境可持续性的贡献。通过提高蒸汽系统的效率，工业可以减少其碳足迹。高效的蒸汽使用意味着更少的燃料消耗，这转化为更低的温室气体排放。在当今气候变化成为紧迫问题的背景下，采用像steam bleeding这样的策略可以帮助工业与环境法规保持一致，并为更可持续的未来做出贡献。然而，实施steam bleeding需要仔细的规划和考虑。工程师必须评估其系统的具体需求，并确定蒸汽提取的最佳点。这涉及分析蒸汽的热力学特性，并理解排放将如何影响系统的整体效率。此外，操作员必须不断监测steam bleeding对系统性能的影响，并根据需要进行调整，以确保最佳运行。总之，steam bleeding是管理各行业蒸汽系统的重要过程。它提高了效率，维护了安全，并促进了环境可持续性。随着技术的不断发展，steam bleeding的方法和应用可能会扩大，为工程师和各行各业提供更大的好处。理解这一概念对于从事机械工程、发电及相关领域的专业人士至关重要，因为它代表了优化系统性能和促进可持续实践的关键策略。