1) Heterogeneous combustion
多相燃烧
1.
Based on thermogravimetric combustion curves,the whole combustion process of oil shale is divided into three steps: low-temperature stage with homogeneous combustion,high-temperature stage with heterogeneous combustion,and transitional combustion stage preparing for the heterogeneous combustion.
基于热重燃烧曲线,可将油页岩的燃烧过程分为低温阶段、过渡阶段和高温阶段3部分:低温阶段为均相燃烧,高温阶段为多相燃烧,而过渡阶段则为高温阶段的多相燃烧准备条件。
3) multiphase turbulent combustion
多相湍流燃烧
4) gaseous combustion
气相燃烧
1.
Three-dimensional numerical simulation of gaseous combustion process in fire furnace;
火烧炉内气相燃烧过程的三维数值模拟
2.
The three-dimensional gaseous combustion process in melting furnace for magnesium of gas is simulated.
对燃气镁合金熔化炉内的三维湍流气相燃烧场特性进行了数值模拟,湍流模型采用了标准k-ε双方程模型,湍流燃烧采用有限速率/涡耗散模型,辐射换热P1模型,数值方法采用SIMPLE算法,实现了燃烧过程的数值再现,特别考察了烧嘴位置和入口流量速度因素对炉内温度场和流动场的影响,并为熔化炉的结构设计提供了一些合理化建议,为其实际运行提供了有益的参考价值。
5) gas phase combustion
气相燃烧
1.
SiO 2 nanoparticles were synthesised in a H 2 and O 2 gas phase combustion reaction.
用氢氧焰气相燃烧反应器合成纳米 Si O2 粒子 ,研究了该粒子的形成、生长过程及工艺条件的影响。
2.
Moreover,the combustion conditions of catalytic combustion and gas phase combustion in burner IV were analyzed respectively,and the thermal efficiency of .
在催化燃烧Ⅳ型炉中,分别对气相燃烧和催化燃烧的燃烧状况进行了分析并比较了2种燃烧方式热效率。
3.
At last the experiments of catalytic combustion compared with gas phase combustion were carried out;the thermal efficiency of the catalytic combustion boiler and the valuable data were obtained.
且在实验中明白了催化燃烧对气相点燃的抑制作用,并进行了催化燃烧和气相燃烧的对比实验研究及催化燃烧锅炉的热效率实验,得出了一些有价值的数据。
6) gas combustion
气相燃烧
1.
Study on vacuum gas combustion synthesis of bismuth oxide superfine powder;
真空气相燃烧合成超细氧化铋粉体的制备技术研究
2.
A number of preparing methods have been scaled up to industrial production, such as gas combustion and combustion flame-chemical vapor condensation (CF-CVC).
燃烧法是制备氧化物纳米材料的一种新方法,其中,气相燃烧法、燃烧火焰-化学气相凝聚法已经实现了工业化生产;而一些新的工艺方法,如低温燃烧合成法、喷雾燃烧法、电控火焰合成法在制备纳米材料上也各有优缺点,燃烧法与其他技术的结合也在研究开发阶段。
补充资料:沸腾床燃烧(见流化床燃烧)
沸腾床燃烧(见流化床燃烧)
boiling-bed combustion:see fluidized-bed combustion
沸腾床燃烧(boiling一bed eombustion)见流化床燃烧。
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