1) flat-flame combustion
平焰燃烧
1.
This experiment is conducted to study the temperature and the concentration of NOx in the process of the half mix flat-flame combustion.
采用半预混、强旋流平焰燃烧方法,以液化石油气为燃料,通过改变空气过剩系数和旋流数工况进行燃烧实验,用热电偶测量温度,烟气分析仪测量NOx浓度,研究分析了炉膛温度、过剩空气系数及旋流数对平焰燃烧NOx排放的影响。
2) spreading flame burner
扁平焰燃烧器
3) flameless combustion
无焰燃烧
1.
An approach to high temperature flameless combustion technology of biomass;
生物质高温无焰燃烧技术的研究与探讨
2.
By adopting an eddy dissipation concept(EDC) model based on a coupled skeleton chemical reaction mechanism,a three-dimensional numerical simulation and an experimental verification have been performed of the NOx generation process of a flameless combustion boiler featuring a normal-temperature air admission.
无焰燃烧具有降低氮氧化物(NOx)排放的优点。
4) flame combustion
火焰燃烧
1.
As a new way of combustion,catalytic combustion breaks the flammable limits of conventional flame combustion,and realizes the combustion of ultra-natural gas/air mixture under the flammable limits.
催化燃烧作为一种新的燃烧方式,打破了传统火焰燃烧的可燃界限,实现了贫甲烷/空气混合物在可燃界限以下的燃烧,燃烧效率高,提高了能源利用率。
5) combustion flame
燃烧火焰
1.
Fiber Sensor and Measuring System for Studying the Influence of Combustion Flame on the Thermal Boundary in Cylinders of Diesel Engine;
用于研究柴油机缸内燃烧火焰对壁面热边界层影响的光纤传感器及测量系统
2.
The extinguishment processes of combustion flames of PMMA by 2H-heptafluoropropane and CO_2 were investigated through using a laboratory-scale combustion chamber with two parallel glass windows,and the digital photographing technology.
采用二视窗小型燃烧室和数码摄像技术分别研究了2-氢七氟丙烷和二氧化碳对聚甲基丙烯酸甲酯(PMMA)燃烧火焰的熄灭过程;探讨了2-氢七氟丙烷对PMMA的点火延迟时间、火焰形貌和燃烧速率的影响;同时,运用傅立叶变换红外光谱(FTIR)对PMMA熄火表面的化学成份进行了分析。
3.
The measurement of the combustion flame temperature on the different positions by normal direction in cylinder of diesel engine was conducted.
在用贯穿式光纤传感器测量柴油机缸内壁面法向不同位置火焰温度的基础上,研究了缸内燃烧火焰对壁面热边界层的影响,同时研究了运转和结构参数对壁面热边界层的影响。
6) Cold flame
冷焰燃烧
补充资料:焰网
【焰网】
(术语)佛之光明,重重交彻而不尽,如帝释天之珠网也。药师经曰:“焰网庄严,过于日月。”药师经纂解上曰:“焰谓光焰,网谓珠网,言光明无尽义也。”
(术语)佛之光明,重重交彻而不尽,如帝释天之珠网也。药师经曰:“焰网庄严,过于日月。”药师经纂解上曰:“焰谓光焰,网谓珠网,言光明无尽义也。”
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