1) self-sustaining combustion
自维持稳定燃烧
1.
Experimental investigation on self-sustaining combustion of powdered metal fuel ramjet
粉末燃料冲压发动机自维持稳定燃烧试验研究
2) Self-sustained combustion
自持燃烧
3) steady combustion
稳定燃烧
1.
The result is shown that, it can be concluded that the air gradation combustion technology is useful to ensure the lignite steady combustion under lower load, control the emission of NO x and reduce the slagging phenomenon in a six corners tangentially boiler.
通过对某电厂一台六角切圆燃烧锅炉采用空气分级燃烧技术改造后的空气动力场分布情况以及该炉改造前后热态运行情况的介绍,说明燃用褐煤的六角切圆燃烧锅炉采用空气分级燃烧技术可以有效抑制炉内结渣,减少NO的生成,实现低负荷稳定燃烧。
4) Stable combustion
稳定燃烧
1.
Lowering coal quality will influence the stability of combustion seriously,and unstable combustion causes the significant changes of wall temperature in furnace and water level fluctuation in drum.
煤质变差严重影响锅炉的稳定燃烧,燃烧不稳导致炉膛壁温变化大和汽包水位波动大,不但会在锅炉高负荷运行中突然灭火,而且在锅炉正常的停炉过程中也会灭火,造成无法按正常程序停炉。
2.
Focusing on current obvious problems on safe,economical and stable combustion for coal-fired boilers in China,some main reasons affecting safe,stable and economical boiler combustion are analyzed,and some important methods and outlines for the reform of boilers used at present are introduced.
针对国内火电厂燃煤锅炉在安全经济稳定燃烧方面存在的明显不足,分析了影响锅炉安全经济稳定燃烧的主要原因,介绍了当前锅炉改造的某些重要方法和要点。
3.
Long-time stable combustion is a big technical problem for W-flame boilers, which fire lambskin from Shaoguan District.
对燃用韶关地区劣质难燃无烟煤的W火焰锅炉来说,长时间稳定燃烧是个较大的技术难题。
6) combustion stability
燃烧稳定性
1.
Effect of spark ignition on homogeneous charge compression ignition combustion stability of ethanol;
火花点燃对乙醇HCCI燃烧稳定性的影响
2.
Judging boiler combustion stability based on flame image and fuzzy neural network;
基于火焰图像和模糊神经网络的锅炉燃烧稳定性判别
3.
Research on judging of combustion stability for utility boiler based on Support Vector Machines;
基于支持向量机的电站锅炉燃烧稳定性判别
补充资料:不稳定燃烧
分子式:
CAS号:
性质:指燃烧室压强和推进剂燃速等参数随时间作周期性或近似周期性变化的燃烧过程。根据产生的机理不同,不稳定燃烧分两大类:声不稳定燃烧和非声不稳定燃烧。不稳定燃烧又可分为高频(1000Hz以上)、中频(100~1000Hz)和低频不稳定燃烧。
CAS号:
性质:指燃烧室压强和推进剂燃速等参数随时间作周期性或近似周期性变化的燃烧过程。根据产生的机理不同,不稳定燃烧分两大类:声不稳定燃烧和非声不稳定燃烧。不稳定燃烧又可分为高频(1000Hz以上)、中频(100~1000Hz)和低频不稳定燃烧。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条