2) combustion product
燃烧产物
1.
By using ASPEN PLUS software platform, a thermodynamic simulation calculation has been conducted of coal combustion products in O2/CO2 atmosphere.
利用ASEPN PLUS软件平台对O2/CO2气氛下煤的燃烧产物进行了热力学模拟计算,计算中对煤在O2/CO2气氛下和空气中的燃烧产物进行了对比,研究在O2/CO2气氛下燃烧温度、过量氧系数φ对煤燃烧产物的影响。
2.
A model of pyrotechnical combustion products was established based on the principle of minimum free-energy.
燃烧产物的预测对烟火药的设计非常重要。
3) burnt product
燃烧产物
1.
This paper reports the effects of kaolin addition on concentrations and distribution of 18 trace elements (Hg, As, Cd, Pb, Zn, Sb, Sn, Ba, Co, Be, Cr, Ni, Mo, Tl, V, U, Mn, Th) in the fatty coal and anthracite and their burnt products based on a coal combustion experiment in one-dimensional coal-fired furnace.
通过在一维煤粉燃烧炉上进行肥煤、无烟煤添加高岭土吸附剂的燃烧实验 ,研究了肥煤、无烟煤及其燃烧产物中 18种微量元素的含量和分布 ;计算了高岭土在分级燃烧工况条件下对每种微量元素的吸附率 。
2.
The content and distribution of 18 environmental hazardous trace elements in the anthracite and its burnt products were studied with coal combustion test of anthracite added Kaolinton absorbent in one-dismensional boiler.
通过在一维煤粉燃烧炉上进行无烟煤添加高岭土吸附剂的燃烧实验,研究了无烟煤及其燃烧产物中18种环境有害微量元素的含量和分布;计算了高岭土在不同燃烧工况条件下对每种环境有害微量元素的吸附率。
4) combustion products
燃烧产物
1.
Analysis of organic compounds in particulate phases of combustion products in domestic fuel gas;
民用燃气燃烧产物中粒相物上有机物的分析
2.
The calculated results show that there are relatively large numbers of H2(g), CO(g) and C(s) in the combustion products of GAP.
计算结果显示,GAP燃烧产物中有较多的固态C、气态H2、CO等可以再燃烧的物质存在。
3.
microprobe and molecule beam mass spectrometrometry,and many analytic methods used to analyze combustion products in a combustion process have been introduced.
介绍燃烧过程中气体取样时常用的两种方法:微探针取样法和分子束取样法,详细论述了燃烧产物中的气体组分、自由基以及离子的分析方法,并对各种分析方法的优缺点进行了比
5) coal and its combustion products
燃烧产物
1.
Mercury distribution in coal and its combustion products were therefor understood.
在对某 30 0MW燃煤电厂锅炉进行锅炉负荷分别为30 0MW、2 5 0MW和 2 0 0MW时的煤、渣、底灰、飞灰取样后 ,通过对锅炉负荷改变时煤和燃烧产物中汞的含量进行定量测量 ,进行了煤在不同锅炉负荷下燃烧时汞的分布特征和富集特性的研究和探讨。
6) fire effluent
燃烧产物
1.
Toxic fire effluent produced from electronic and electrical products fire hazards can cause asphyxia and sensory/upper respiratory irritation after being inhaled,which can reduce or lose the ability to escape of victims.
当电工电子产品陷入火灾后会产生含有毒性物质的燃烧产物,受害者吸入后会导致窒息或使感官或上呼吸道受到刺激,从而降低或失去逃生的能力,造成伤害或死亡。
2.
Corrosive fire effluent produced from electric and electronic products fire hazards can cause damages of various degrees to performance of circuits and components,and therefore cause disfunction of equipments.
电工电子产品陷入火灾后所产生的腐蚀性燃烧产物,可能会对电路和电工电子元器件的性能造成不同程度的损坏,使设备出现故障。
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