superheater

简明释义

英[ˈsjuːpəˌhiːtə]美[ˌsʊpərˈhitər]

n. [动力] 过热器，过热设备

英英释义

单词用法

同义词

反义词

例句

1.Pipe Explosion in Superheater of the boiler would damage the boiler and salt operating.

锅炉过热器爆管，对锅炉寿命和制盐工艺都是一种摧残和破坏。

2.Analyzes reasons for tube blasting of steam superheater and recommends a kind of tube material which can better satisfy production requirements.

通过对蒸汽过热炉爆管原因进行分析，提出一种更能满足生产需要的炉管材料。

3.This paper analyze the major contributions to burst for over-temperature of boiler's superheater.

本文对引起过热器超温爆管的主要原因进行了分析。

4.The uncleaned superheater, reheater should have oxygenated blowwash.

未经清洗的过热器、再热器应进行蒸汽加氧吹洗。

5.Also analysed was the effect of electrical load and the commissioning of pulverizer exhauster on gas parameter excursion in the high temperature superheater zone.

同时还分析了电负荷及排粉机投运对高温过热器区域烟气参数偏置的影响。

6.Retractable blowers shall be provided for the convection evaporative surface (third pass) and inlet to the superheater.

应为对流蒸发面(第三通道)和至过热器的出口进口提供伸缩式吹灰器。

7.The implement of this plan is introduced and the every procedure for superheater such as throwing over, barbed process and hoisting are elaborated.

介绍了该方案的实施过程，对过热器的扳倒、倒钩，吊装的每道工序均进行了阐述。

8.On the basic of existing model the pulverizing process and the characteristic of superheater differential pressure were analyzed.

在现有模型基础上，重点对制粉过程和过热器差压特性进行分析。

9.For manufacture wall panel, economizer, reheater, superheater and steam pipeline of boilers.

用于锅炉水冷壁、省煤器、再热器、过热器和蒸气管道的制造。

10.The design of the superheater can affect the overall thermal efficiency of the boiler.

过热器的设计可以影响锅炉的整体热效率。

11.The steam engine's efficiency is significantly improved by the use of a superheater.

蒸汽机的效率通过使用过热器显著提高。

12.A malfunctioning superheater can lead to reduced performance in steam systems.

过热器故障可能导致蒸汽系统性能下降。

13.In modern power plants, a superheater is essential for maximizing energy output.

在现代发电厂中，过热器对于最大化能量输出至关重要。

14.During maintenance, engineers inspected the superheater for any signs of wear and tear.

在维护期间，工程师检查了过热器是否有磨损迹象。

作文

In the world of engineering and thermodynamics, the term superheater refers to a crucial component found in various types of boilers and steam-generating systems. A superheater is designed to increase the temperature of steam beyond its saturation point, thereby enhancing the efficiency of power generation and improving the performance of steam turbines. This process is essential in many industrial applications, including electricity generation in power plants, where maximizing energy output is a primary goal.The function of a superheater is relatively straightforward yet vital. When water is heated in a boiler, it transforms into steam. However, steam at its saturation point contains a significant amount of moisture, which can lead to inefficiencies and potential damage to turbine blades. To mitigate these issues, the superheater raises the temperature of this steam, ensuring that it is dry and superheated before it enters the turbine. This superheated steam not only improves the efficiency of the turbine but also allows for higher operational pressures, which can further enhance energy production.There are several designs and configurations of superheaters, each tailored to specific applications and operational requirements. For instance, some superheaters are designed to operate in conjunction with economizers, which preheat feedwater using the exhaust gases from the boiler. This integration helps to optimize thermal efficiency and reduce fuel consumption. Additionally, the materials used in constructing a superheater must withstand high temperatures and pressures, making material selection a critical aspect of its design.The importance of superheaters extends beyond just efficiency; they also play a significant role in reducing emissions in modern power generation. By ensuring that steam is superheated, the combustion process can be optimized, leading to more complete fuel combustion and lower levels of pollutants being released into the atmosphere. This is particularly important in today’s environmental landscape, where regulations on emissions are becoming increasingly stringent.Moreover, the operation of a superheater is closely monitored to ensure safety and efficiency. Engineers use various sensors and control systems to track the temperature and pressure of the steam, making adjustments as necessary to maintain optimal operating conditions. Any malfunction or failure in a superheater can lead to significant operational challenges, including reduced efficiency and increased risks of equipment damage.In conclusion, the superheater is an indispensable component in many industrial processes, particularly in steam generation and power production. Its ability to increase steam temperature beyond the saturation point not only enhances efficiency but also contributes to safer and cleaner energy generation. As industries continue to evolve and seek more sustainable practices, the role of superheaters will undoubtedly remain critical in achieving these goals. Understanding the function and significance of a superheater is essential for anyone involved in engineering, energy production, or environmental management, highlighting its importance in both technical and ecological contexts.

在工程和热力学的世界中，术语超热器指的是一种关键组件，通常出现在各种类型的锅炉和蒸汽产生系统中。超热器的设计目的是将蒸汽的温度提高到其饱和点以上，从而提高发电效率并改善蒸汽涡轮机的性能。这一过程在许多工业应用中至关重要，包括电厂的电力生成，在这些应用中，最大化能量输出是主要目标。超热器的功能相对简单但至关重要。当水在锅炉中加热时，它会转变为蒸汽。然而，处于饱和状态的蒸汽含有大量水分，这可能导致效率低下并可能损坏涡轮叶片。为了减轻这些问题，超热器提高了蒸汽的温度，确保在进入涡轮机之前蒸汽是干燥和超热的。这种超热蒸汽不仅提高了涡轮机的效率，还允许更高的操作压力，从而进一步增强能源生产。超热器有多种设计和配置，每种设计都针对特定的应用和操作要求。例如，一些超热器被设计为与经济器一起使用，经济器利用锅炉的废气预热给水。这种集成有助于优化热效率并减少燃料消耗。此外，构建超热器所使用的材料必须能够承受高温和高压，因此材料选择是其设计中的一个关键方面。超热器的重要性不仅体现在效率上；它们在现代发电中也扮演着减少排放的重要角色。通过确保蒸汽被超热，可以优化燃烧过程，从而实现更完全的燃料燃烧，降低释放到大气中的污染物水平。这在当今的环境背景下尤为重要，因为对排放的监管越来越严格。此外，超热器的操作受到密切监控，以确保安全和效率。工程师使用各种传感器和控制系统来跟踪蒸汽的温度和压力，并根据需要进行调整，以保持最佳操作条件。超热器的任何故障或失效都可能导致重大操作挑战，包括效率降低和设备损坏风险增加。总之，超热器是许多工业过程中的不可或缺的组件，特别是在蒸汽生成和电力生产中。它能够将蒸汽温度提高到饱和点以上，不仅提高了效率，还为更安全、更清洁的能源生成做出了贡献。随着工业的不断发展和寻求更可持续的实践，超热器的作用无疑将在实现这些目标中保持关键地位。理解超热器的功能和重要性对于任何参与工程、能源生产或环境管理的人来说都是必不可少的，突显了它在技术和生态背景下的重要性。