燃烧温度

燃烧温度对燃烧合成Ti3AlC2和Ti2AlC的影响

Effect of combustion temperature on combustion synthesis of Ti_3AlC_2 and Ti_2AlC

CO排放与缸内燃烧温度有较大的相关性，EGR率升高，CO排放升高。

CO emission has strong correlation with combustion temperature in cylinder .

宽带USEDCARS技术用于超音速燃烧温度测量

Temperature measurement in supersonic combustion by broad-band used cars

FTIR遥测固体推进剂燃烧温度

Combustion Temperature Measurement of Solid Propellant by Remote Sensing FTIR

流化床燃烧温度下N2O与石油焦焦炭多相反应动力学的热重研究

Thermogravimetric studies on the heterogeneous reaction kinetics of petroleum coke char with nitrous oxide under temperature range of fluidized bed

用扫描电镜观察了淬熄试样中的显微组织演变，测定了其燃烧温度，并用X射线衍射检测了燃烧合成产物的相组成。

The combustion temperature was measured , and the phase constituent of the synthesized product was inspected by X-ray diffraction ( XRD ) .

结果表明：随着Ti含量的增加，绝热温度（T（ad））、燃烧温度（Tc）和燃烧速度（v）均呈下降趋势；

With Ti content increasing , adiabatic temperatures ( Tad ) , combustion temperatures ( Tc ) and combustion velocities ( v ) decrease .

燃烧温度随Fe2O3－Al＋MgO添加量的增加而升高。

Combustion temperature also increases with the increasing of Fe 2O 3 Al + MgO .

本文描述了各种碱性氧化物固硫效果选择实验结果，论述了煤种，燃烧温度、钙/硫比、Fe2O3对固硫效果的影响。

The influence on effectiveness of sulfur-fixing from coal . temperature . Fe_2O_3 , andCalcium / Sulfur ( Ca / S ) are discussed .

NH4F及燃烧温度对燃烧合成长柱状Ybα-Sialon粉体的影响

Effect of NH_4F and Temperature on Combustion Synthesis of Rod-Like Yb α - Sialon Powder

通过分析燃烧温度场、速度场及组分浓度场，研究了煤层气扩散燃烧特性及NOX生成特性。

The combustion and NO generation characteristics were studied by analyzing the temperature field , velocity field and species concentration field .

COREX熔化气化炉区域模型及其理论燃烧温度

A Zoned Static Model and Theoretical Flame Temperature for COREX Melter Gasifier

唯一相关的因素，因此，对（NOx）的氮氧化物排放量在上述所有生成的燃烧温度特别高。

The only relevant factor , therefore , is the emission of nitric oxides ( NOX ) generated above all at particularly high combustion temperatures .

研究结果表明，富碳有机物的C／H、燃烧温度和压力对炭黑的生成率、粒径区间、表观形貌等有着较大的影响。

The study indicate that the C / H , burning temperature and burning pressure of the organics rich in carbon influence the productivity , the particle diameter distribution and the appearance of the carbon black remarkably .

在缺氧情况下不仅污泥燃烧温度滞后，而且SO2和NOX的析出浓度下降明显。

In the atmosphere short of oxygen , not only the combustion temperature was delayed but also the SO2 and NOX emission content was dropped .

高EGR率抑制了燃烧温度，有利于抑制碳烟生成，这是典型低温燃烧降低碳烟排放的机理。

High EGR rate inhibits the combustion temperature and the soot formation , which is the mechanism to decrease the soot emission in typical LTC .

燃气火焰中热力型NOx以NO为主，燃烧温度对NO生成起决定作用，空气系数也主要通过改变燃烧温度影响NOx生成。

In gas-fired flame mainly was NO. The burning temperature was the main reason of the production of NO. The air coefficient effected the production of NOx by changing burning temperature .

本文还为进一步发展部分混合反应器PaSR模型对NOx生成和燃烧温度的模拟奠定了基础。

The present work provides a basis for further developing PaSR model to simulate the NOx formation and flame temperature .

用AlCuO作为助燃剂，提高自蔓延燃烧温度和燃烧速度，并减少陶瓷中FeAl2O4的含量。

Al CuO acting as combustion supporting agent can increase combustion rate and combustion temperature , and decrease the FeAl 2O 4 content of ceramics .

NO2的生成量与燃烧温度及其前驱物NO的浓度密切相关，温度升高时，NO2大量分解；当NO浓度增加时，NO2的浓度相应增大。

Amount of NO2 formation were found to be strongly dependent on combustion temperature and precursor NO concentration . Large quantities of NO2 decomposed when temperature increased .

XRD分析和燃烧温度曲线表明：50μmZr粉和Mg过量15%（摩尔分数）的反应体系是最理想的反应体系。

The combustion temperature curve indicates that the ideal reactants of ZrB_2O_3Mg system are Zr powder of 50 μ m and excessive 15 % ( in mole ) Mg powder .

内部EGR是利用进排气门配气相位的变化，使发动机气缸内的残余废气量增加，达到降低最高燃烧温度和减小NOX排放的目的。

Internal EGR is the use of intake and exhaust valves with gas phase changes so that the residual gas inside the engine cylinder increased , lowering the maximum combustion temperature and reducing NO_X emissions purposes .

另外吸附Ni（Ⅱ）使AECTS在空气条件下的燃烧温度由原来的450℃左右提高到500℃，同时大大提高了燃烧放热量。

Furthermore , the adsorption of Ni (ⅱ ) onto AECTS increased its combustion temperature from 450 ℃ to 500 ℃ under air condition and heat release .

采用溶胶一凝胶法制备的纳米TiO2作为添加剂，实验研究了纳米TiO2添加量、Ca/S摩尔比、燃烧温度对煤燃烧和脱硫脱硝效果的影响。

The nanometer TiO2 prepared by sol-gel method as additive for combustion was studied . The effects of combustion , desulfurization and denitrification by nanometer TiO2 addition , Ca / S molar ratio , and combustion temperature were experimental investigated .

本文计算了CH3OH的理论燃烧温度，喷火圈燃烧器的最大可用能、热效率和热负荷。

Theoretical burning temperature of methanol , maximum available energy , heat effeciency and heat load of flame rings burner are calculated .

低速大负荷时，生物制气&柴油双燃料发动机充气效率变大，可燃气体在高温下停留时间增加，因此转速降低时虽然最高燃烧温度降低，但此时NOx排放浓度增加。

At low speed and high load the biogas & diesel dual fuel engine has a higher volumetric efficiency , the time of the mixture staying at high temperature level is longer , so even if the maximum combustion temperature is relatively lower , the NO_x emission is still high .

在反应原料中加入适量的稀释剂MgO（0-5mol），可调节燃烧温度，改善产物粉末的形貌和粒度，随稀释剂MgO含量的增加，产物粉末平均粒度降低。

In order to adjust the combustion temperature and change the morphology and particle size of product , appropriate amount of diluents MgO ( 0-5mol ) can be added into the raw material .

研究结果表明：制坯压力在40MPa时，燃烧温度与燃烧波速率出现最大值；

It is shown that the temperature and velocity of the combustion wave come to the max value when the material-pressure is about 40MPa ;

计算得到TiB240%Fe（以摩尔计）的SHS过程激活能为399kJ／mol，接近Ti＋2B在低燃烧温度区域的反应过程激活能，预示着一种扩散控制机理。

The calculated activation energy for SHS of TiB 240 % Fe ( in mole ) is 399kJ / mol , close to the activation energy of Ti + 2B reaction in low temperature range , which indicates a diffusion controlled mechanism .

分析了济钢350m3高炉高富氧对产量、理论燃烧温度、炉况顺行状况、焦比和生产效益的影响。

The influences of high oxygen enrichment on the output , the raceway adiabatic flame temperature , the smooth operation of furnace condition , coke ratio and productive benefit of Jigang 's 350 m3 BF are analyzed .