超超临界火电机组

超超临界火电机组材料研究及选材分析

Review of material research and material selection for ultra-supercritical power plants

超超临界火电机组锅炉用钢的分析

Materials for Boilers in Ultra-Supercritical Thermal Power Unit

超超临界火电机组用锅炉钢技术国产化问题

Localization of Boiler Steel Technology in China Used for Ultra Super Critical Power Plants

超超临界火电机组用钢性能数据库及管理系统

Information-Based Construction of Superhigh I Iron Overhanging External Scaffold Performance Database and Management System for Steel Used in USC Units

本文介绍了迄今我国在超超临界火电机组和百万千瓦核电机组用钢方面的研发进展和取得的成就，并与国外同类技术的研发水平进行了对比。

This paper briefly introduced the state-of-the-art and achievement of steel technology used for USC fossil fired power plants and advanced nuclear power plants in China so far .

钢铁材料技术是保证超超临界火电机组和百万千瓦核电机组建设顺利进行的最重要基础之一。

Further , steel technology is one of the most imperative fundamentals to ensure the development and construction of USC fossil fired power plants and advanced nuclear power plants .

超超临界火电机组具有显著的节能和改善环境的效果，未来火电建设将主要发展高效率、高参数的超临界和超超临界火电机组。

The ultra-supercritical units has the significant effect of energy-saving and environmental improvement , the future construction of thermal power unit will be the development of high efficiency , high parameters of supercritical and ultra supercritical .

本研究成果对普及新型耐热钢管材料，甚至新一代超超临界火电机组都具有极大的科研与经济价值。

From both the scientific and the economic points of view , results of this study would have significant values in popularizing not only such novel heat resistant steels but also the new-generation USC fossil power plants .

超（超）临界火电机组高中压转子技术的发展

Technical development of HP-IP rotors in supercritical ( Ultra - supercritical ) fossil plants

今后我国火电建设将主要是发展高效率高参数的超（超）临界火电机组。

Thermal power construction in China will mainly develop high-efficiency parameters of ultra-high ( Ultra ) critical thermal power units .

超（超）临界大型火电机组技术引进中的核心问题分析

The Key Issues in the Technology Imports of Ultra-supercritical Pressure Large Size Thermal Power Generating Units

本文针对超临界/超超临界火电机组工况下，分别用热网络法和有限元法对液力偶合器传动装置的前置增速齿轮传动部分进行稳态热分析，用热分析结果指导传动装置的结构设计。

In this paper , in the condition of supercritical / ultra-supercritical thermal power unit , heat balance is analyzed for the gear part of fluid coupling transmission , and the results are used to guide the design of transmission structural .