desuperheated steam make-up

简明释义

减热蒸汽补给

英英释义

例句

1.The desuperheated steam make-up system is crucial for the operation of the heat exchangers.

再减温蒸汽补充系统对热交换器的运行至关重要。

2.During the testing phase, engineers monitored the desuperheated steam make-up for efficiency improvements.

在测试阶段，工程师监测了再减温蒸汽补充以提高效率。

3.To prevent overheating, the reactor requires a constant supply of desuperheated steam make-up.

为了防止过热，反应堆需要持续供应再减温蒸汽补充。

4.In chemical processing, desuperheated steam make-up helps to control the temperature of reactions.

在化学加工中，再减温蒸汽补充有助于控制反应温度。

5.The power plant uses desuperheated steam make-up to maintain optimal pressure levels in the turbines.

发电厂使用再减温蒸汽补充来保持涡轮机的最佳压力水平。

作文

In industrial processes, steam plays a crucial role in various applications, particularly in power generation and heating systems. One important concept associated with steam systems is the term desuperheated steam make-up, which refers to the process of adding steam that has been cooled down from a superheated state to a desired temperature before it enters the system. This practice is essential for maintaining the efficiency and safety of steam operations.Superheated steam is steam that has been heated beyond its boiling point at a given pressure. While this type of steam can carry more energy and is often used in turbines for electricity generation, it can also pose challenges when it comes to its interaction with other components in the system. For instance, superheated steam can lead to equipment damage or inefficiencies if not managed properly. Therefore, the need for desuperheated steam make-up arises.The process of desuperheated steam make-up involves cooling down superheated steam to a specific temperature before it is reintroduced into the system. This is typically achieved through a desuperheater, which is a device designed to reduce the temperature of the steam by mixing it with water or through heat exchange. The goal is to ensure that the steam entering the system is at an optimal temperature for the intended application, thus enhancing the overall efficiency of the process.One of the primary benefits of implementing desuperheated steam make-up is the improvement in thermal efficiency. By controlling the temperature of the steam, industries can optimize their operations, leading to reduced fuel consumption and lower operational costs. Additionally, maintaining the correct steam temperature helps to prevent issues such as turbine blade erosion or overheating of piping systems, which can result in costly repairs and downtime.Furthermore, desuperheated steam make-up contributes to safety in steam systems. High-temperature steam can be hazardous, increasing the risk of accidents and equipment failures. By ensuring that steam is at the appropriate temperature, operators can mitigate these risks and create a safer working environment.In conclusion, the concept of desuperheated steam make-up is vital in the management of steam systems within various industries. It not only enhances efficiency and reduces costs but also promotes safety by controlling the temperature of steam before it enters critical components of the system. As industries continue to seek ways to optimize their processes and reduce their environmental impact, understanding and implementing desuperheated steam make-up will become increasingly important. This practice exemplifies how careful management of resources can lead to better performance and sustainability in industrial operations.

在工业过程中，蒸汽在各种应用中发挥着至关重要的作用，特别是在发电和供热系统中。与蒸汽系统相关的一个重要概念是术语减温蒸汽补充，它指的是将已经从超热状态降温至所需温度的蒸汽添加到系统中的过程。这一做法对于维持蒸汽操作的效率和安全性至关重要。超热蒸汽是指在给定压力下被加热到其沸点以上的蒸汽。虽然这种类型的蒸汽可以携带更多的能量，并且通常用于涡轮机发电，但如果管理不当，它也可能对系统中的其他组件造成挑战。例如，超热蒸汽可能导致设备损坏或效率降低。因此，出现了对减温蒸汽补充的需求。减温蒸汽补充的过程涉及将超热蒸汽冷却到特定温度，然后再将其重新引入系统。这通常通过减温器实现，减温器是一种旨在通过与水混合或通过热交换来降低蒸汽温度的设备。其目标是确保进入系统的蒸汽处于适合预期应用的最佳温度，从而提高整个过程的效率。实施减温蒸汽补充的主要好处之一是热效率的提高。通过控制蒸汽的温度，工业可以优化其操作，从而减少燃料消耗和降低运营成本。此外，保持正确的蒸汽温度有助于防止涡轮叶片侵蚀或管道系统过热等问题，这可能导致昂贵的维修和停机。此外，减温蒸汽补充还有助于蒸汽系统的安全性。高温蒸汽可能是危险的，增加了事故和设备故障的风险。通过确保蒸汽处于适当的温度，操作员可以降低这些风险，创造一个更安全的工作环境。总之，减温蒸汽补充的概念在各行各业的蒸汽系统管理中至关重要。它不仅提高了效率，降低了成本，还通过控制蒸汽在进入系统关键组件之前的温度来促进安全。随着行业不断寻求优化其流程和减少环境影响，理解和实施减温蒸汽补充将变得越来越重要。这一做法体现了如何通过资源的精细管理来实现更好的性能和可持续性。