分析了北仑发电厂600M W锅炉再热器局部超温及旁路改造未能达到预期效果的原因;
The causes for local overtemperature of high temperature reheater of 600 MW boiler in Beilun Power Plant and that bypass retrofit could not realize the expected effect are analyzed;
大型循环流化床锅炉高温再热器中所采用的不锈钢膜式壁管屏的制造工艺要点和难点,以及解决的工艺措施。
The article describes the critical and hard parts and technology measures of stainless steel membrane panel's manufacture, which be used in high temperature Reheater of large capacity CFB boiler.
为解决锅炉水冷壁结焦所引发的二次再热器超温爆漏问题提供了依据。
It also provides the basis for solving the bursting leakage by ultra high temperature of the secondary reheater due to the slagging on boiler water wall.
对早期的300MW、600MW锅炉存在的过热器、再热器超温问题及原因进行了论述和分析,提出了改进、优化措施。
The superheater and reheater overheating occurred in early 300MW, 600MW boilers and their reasons are detailed and analyzed, and the improvement and optimization measure are put forward.
该文介绍引进型300MW机组锅炉、再热器系统经改进,减少再热蒸汽流量偏差和温度偏差的实炉试验结果。
The paper describes the test results of improvement effects on a licensed 300mw set's boiler and its reheater for the purpose of diminishing reheater's mass flow and temperature deviations.
该新方法更精确的反映了锅炉过热器、再热器壁温分布的内在本质,并使计算方向趋向简明。
This new method predicts the distribution of the super-heater and re-heater's tube temperature more precisely, and the concept of the calculation is more concise.
用于锅炉水冷壁、省煤器、再热器、过热器和蒸气管道的制造。
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。
For manufacture water wall panel, economizer, reheater, superheater and pipeline of boilers.
分析循环流化床锅炉运行中出现的高温再热器、二级过热器爆管和给煤系统旋转给料阀经常堵煤等问题。
The causes of SH and RH tube explosion and coal feed system jamming in the operating CFBB are analyzed.
锅炉集箱中的流体均匀分布是锅炉过热器,再热器安全设计的关键技术之一。
The uniform distribution of flow in a boiler header constitutes one of the key technological factors ensuring the safe design of boiler superheaters and reheaters.
利用减温水控制过热器和再热器出口温度以防止超过材料温限。实践证明,对超临界直流锅炉采用投粉稳压冲管过热器、再热器冲管系数可达1.0和1.6以上,效果良好。
The practical experience shows that in the light of steam purging for supercritical once-through boiler, the superheater and reheater disturbance coefficients can reach 1.0 and 1.6 respectively.
MW锅炉的偏差温度是引起再热器爆管的一个重要原因,在再热器系统表现为沿炉宽方向右1/4区域汽温较高。
The deviation is a important reason causing reheater tube failure of 300MW and 600MW boiler. It is experienced that steam temperature is higher at right 1/4 area of reheater system.
MW锅炉的偏差温度是引起再热器爆管的一个重要原因,在再热器系统表现为沿炉宽方向右1/4区域汽温较高。
The deviation is a important reason causing reheater tube failure of 300MW and 600MW boiler. It is experienced that steam temperature is higher at right 1/4 area of reheater system.
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