超超临界

  • 网络Ultra-supercritical;USC;A-USC
超超临界超超临界
  1. 日立-东方N1000-25/600/600型超超临界汽轮机新技术分析

    Analysis on New Technology of Hitachi-Dongfang N 1000-25 / 600 / 600 Model USC Turbine

  2. 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 .

  3. 超超临界锅炉SCR脱硝工艺及其调试

    Discussion on SCR denitrification process of ultra-supercritical units and its debugging

  4. 北仑电厂超超临界直流锅炉的EDTA化学清洗

    Chemical cleaning of ultra-supercritical unit of Beilun Power Plant with EDTA

  5. 600MW超超临界塔式褐煤锅炉设计方案

    Design Plan of 600 MW Ultra Supercritical Tower Type Lignite Boiler

  6. 东方1000MW超超临界等大型供热机组DEH控制及保护设计

    DEH Control and Protection Design of Ultra-supercritical Large Steam Turbine for Cogeneration

  7. 国产超超临界600MW机组小汽轮机的特点及调试

    Features and Commissioning on Home-made Supercritical 600 MW Units of Small-sized Steam Turbine

  8. 河源电厂600MW超超临界机组锅炉特点

    600 MW USC Boiler Specialties of Heyuan Power Plant

  9. 超超临界600MW汽轮发电机组振动分析与处理

    Analysis and disposal of vibration on ultra-supercritical turbo-generator set

  10. 研究结果表明,(Ti,Al)N/TiN涂层具有良好的综合性能,能够满足超超临界汽轮机叶片的实际工程防护需求。

    This study showed that the ( Ti , Al ) N / TiN coatings had excellent comprehensive performance , the coatings could meet the project requirement of the protection of the ultra supercritical steam turbine blade .

  11. 推广应用600MW超超临界机组的必要性和可行性研究

    The necessity and feasibility study on the promotion of 600 MW ultra-supercritical unit in China

  12. 探讨国内600MW机组升级为超超临界参数中的技术问题

    Inquisition into Some Technical Issues about Upgrading Domestic 600 MW Units to Ultra Supercritical Parameters

  13. T92/HR3C异种钢焊接接头在大容量超超临界机组(USC)条件下服役是完全安全可靠的。

    T92 / HR3C dissimilar steel welded joints is completely suitable under the conditions of high-capacity ultra-supercritical unit ( USC ) .

  14. 邹县电厂1000MW超超临界机组励磁变压器相量测量误差的分析超临界与亚临界机组RB控制策略比较

    Analysis of Current Measurement In Zouxian 's Exciting Transformer COMPARISION OF RUN BACK STRATEGY BETWEEN SUPERCRITICAL AND SUBCRITICAL UNITS

  15. 1000MW超超临界机组设计目标探讨及研究

    Discussion and research on design goals of 1000 MW ultra-supercritical unit

  16. 1000MW超超临界压力机组主要辅机的配置

    Main Auxiliaries for Matching 1 000 MW Ultra Supercritical Power Units

  17. 1000MW超超临界汽轮机热应力监测及自动控制

    Thermal stress monitoring & control in 1000 MW ultra-supercritical steam turbine

  18. 运用生命周期评价方法(LCA),对超超临界火电厂进行了环境影响分析,并与常规火电厂进行了比较。

    The environmental effects of ultra-supercritical coal-fired power plant were evaluated by using Life Cycle Assessment ( LCA ), and it was compared with common coal-fired power plant .

  19. 东方1000MW超超临界锅炉技术特点及性能

    Technological Features and Experimental Researches for Dongfang 's 1000 MW Ultra-supercritical Boiler

  20. 1000MW超超临界机组自启停控制系统总体方案设计与应用

    Design and application of 1 000 MW ultra supercritical unit APS system

  21. 1000MW超超临界汽轮机综合优化及成效

    Comprehensive Optimization of 1 000 MW USC Steam Turbine and Its Effects

  22. 超超临界1000MW锅炉选型的几个关键要点

    A Few Key-Problems Concerning Type-Choice of 1000 MW Ultra-Supercritical Boilers

  23. 1000MW超超临界机组锅炉顶板梁吊装

    Hoisting and Installation of Top Girder in 1000 MW Super-critical Unit Boiler

  24. 西门子1000MW超超临界汽轮机联轴器连接工艺

    Shaft coupling connection technique for Siemens 1 000 MW ultra-supercritical steam turbines

  25. 1000MW超超临界汽轮发电机转子线圈装配工艺

    Rotor Assembly Technology of 1000 MW Ultra-supercritical Steam Turbine Generator

  26. 东方1000MW超超临界汽轮机设计特点及运行业绩

    Design Feature and Operation Case of Dongfang Ultra-supercritical 1000 MW Steam Turbine

  27. 探讨了1000MW超超临界汽轮机组的参数及运行方式。

    Parameters and the operation mode of1000MW ultra-supercritical steam turbines is being discussed .

  28. 泰州电厂1000MW超超临界机组汽轮机安装探讨

    1000 MW USC Turbine Erection in Taizhou Power Plant

  29. 1000MW超超临界锅炉启动分离器制造工艺研究

    On Manufacturing Technology of the Start-up Separator of a 1000 MW Ultra-Supercritical Boiler

  30. 外高桥1000MW超超临界机组闭环控制系统设计

    Closed loop control system design for Waigaoqiao 1 000 MW ultra-supercritical power unit