feed-water level regulation

简明释义

锅炉给水水位调节

英英释义

例句

1.Operators must regularly check the feed-water level regulation to prevent system failures.

操作员必须定期检查给水水位调节以防止系统故障。

2.In industrial applications, feed-water level regulation is crucial for maintaining optimal operation.

在工业应用中，给水水位调节对于维持最佳操作至关重要。

3.The automation system includes advanced feed-water level regulation features to enhance safety.

自动化系统包含先进的给水水位调节功能，以增强安全性。

4.The boiler's efficiency can be significantly improved through proper feed-water level regulation.

通过适当的给水水位调节，锅炉的效率可以显著提高。

5.Proper feed-water level regulation helps in reducing energy consumption in power plants.

适当的给水水位调节有助于减少发电厂的能耗。

作文

In the realm of engineering and industrial processes, the concept of feed-water level regulation plays a crucial role in ensuring the efficient operation of systems that rely on steam generation. The term refers to the management and control of water levels in boilers or other steam-generating equipment. Maintaining the proper water level is vital for the safe and efficient function of these systems, as it directly impacts the production of steam and the overall thermal efficiency of the process.A boiler operates by heating water to create steam, which can then be used for various applications such as power generation, heating, or driving machinery. If the water level is too low, the boiler may run dry, leading to overheating and potential damage to the system. Conversely, if the water level is too high, it can cause water to carry over into the steam lines, resulting in reduced efficiency and possible damage to downstream equipment. This is where feed-water level regulation becomes essential.Effective feed-water level regulation involves using various instruments and control mechanisms to monitor and adjust the water level within the boiler. Common methods include float switches, pressure sensors, and automated control systems that can respond to changes in water level in real-time. By continuously monitoring the water level, operators can ensure that it remains within the optimal range, thereby maximizing efficiency and minimizing the risk of operational issues.Moreover, feed-water level regulation is not only about maintaining the correct water level but also involves understanding the dynamics of the system. Factors such as steam demand, heat input, and water quality can all influence the water level in a boiler. For instance, during periods of high steam demand, more water will be converted to steam, necessitating a corresponding increase in feed water to maintain the desired level. Therefore, operators must be vigilant and responsive to changes in these variables to effectively manage the feed-water level regulation process.Furthermore, advancements in technology have significantly improved the methods used for feed-water level regulation. Modern boilers often incorporate sophisticated control systems that utilize algorithms to predict water level changes based on historical data and real-time conditions. These systems can automatically adjust the feed water flow rate, enhancing both safety and efficiency. Additionally, the integration of remote monitoring technologies allows operators to oversee multiple systems from a centralized location, streamlining operations and improving response times.In conclusion, feed-water level regulation is a fundamental aspect of boiler operation that ensures safety, efficiency, and reliability in steam generation processes. By employing advanced monitoring and control techniques, industries can optimize their operations, reduce energy consumption, and minimize the risk of costly downtimes. As technology continues to evolve, the methods of feed-water level regulation will undoubtedly become even more refined, paving the way for more sustainable and efficient industrial practices.

在工程和工业过程的领域中，给水水位调节的概念在确保依赖蒸汽生成的系统高效运行方面发挥着至关重要的作用。这个术语指的是对锅炉或其他蒸汽生成设备中水位的管理和控制。保持适当的水位对于这些系统的安全和高效运行至关重要，因为它直接影响蒸汽的生产和整个过程的热效率。锅炉的工作原理是加热水以产生蒸汽，蒸汽可以用于发电、供暖或驱动机械等各种应用。如果水位过低，锅炉可能会干烧，导致过热并可能损坏系统。相反，如果水位过高，则可能导致水带入蒸汽管线，从而降低效率并可能损坏下游设备。这就是为什么给水水位调节变得至关重要。有效的给水水位调节涉及使用各种仪器和控制机制来监测和调整锅炉内的水位。常见的方法包括浮球开关、压力传感器和自动控制系统，这些系统可以实时响应水位变化。通过持续监测水位，操作员可以确保水位保持在最佳范围内，从而最大化效率并最小化操作问题的风险。此外，给水水位调节不仅仅是保持正确的水位，还涉及理解系统的动态。蒸汽需求、热输入和水质等因素都可以影响锅炉中的水位。例如，在蒸汽需求高峰期间，更多的水将被转化为蒸汽，因此需要相应增加给水以维持所需的水位。因此，操作员必须警惕并及时响应这些变量的变化，以有效管理给水水位调节过程。此外，技术的进步显著改善了用于给水水位调节的方法。现代锅炉通常采用复杂的控制系统，利用算法根据历史数据和实时条件预测水位变化。这些系统可以自动调整给水流量，提高安全性和效率。此外，远程监控技术的集成使操作员能够从集中位置监督多个系统，简化操作并提高响应速度。总之，给水水位调节是锅炉运行的基本方面，确保蒸汽生成过程的安全性、效率和可靠性。通过采用先进的监测和控制技术，工业可以优化其操作，减少能源消耗，并最小化昂贵停机的风险。随着技术的不断发展，给水水位调节的方法无疑会变得更加精细，为更可持续和高效的工业实践铺平道路。