燃烧反应

  • 网络Combustion;combustion reaction
燃烧反应燃烧反应
  1. 用共沉淀法制备不同摩尔配比的ZrO2和Al2O3混合载体,负载贵金属Pd后,对该催化剂系列进行甲烷燃烧反应的活性表征。

    A series of mixed oxide supports ( ZrO2-Al2O3 ) were prepared by coprecipitation method , and the supported palladium catalysts were investigated for the low-temperature catalytic combustion of methane .

  2. H2在F2内燃烧反应机理探讨

    Mechanism of H_2 Combustion Reaction in F_2

  3. 双自由基CH燃烧反应机理的研究

    A theoretical study of the reaction mechanism of combustion of the bi-radical CH

  4. 基于RBF神经网络的流向变换催化燃烧反应器的温度预测

    Temperature prediction based on RBF neural networks for reverse flow reactor with catalytic combustion of contaminants

  5. 多重射流燃烧反应制备的TiO2/SiO2纳米复合颗粒的形态和结构

    Morphology and Structure of TiO_2 / SiO_2 Nanocomposites Prepared by Muti-jet Flame Reactor

  6. 多重射流燃烧反应器制备纳米TiO2颗粒的过程研究

    Preparation of TiO_2 Nanoparticles by Gas Phase Hydrolysis in a Multi-jet Flame Reactor

  7. 热重法研究K2CO3与Fe2O3对煤粉燃烧反应性的影响

    Effect of K_2CO_3 and Fe_2O_3 on combustion reactivity of pulverized coal by thermogravimetry analysis

  8. B2O3-TiO2-Mg-C体系燃烧反应热力学与产物结构变化过程研究

    Study on thermodynamics and structure change process in combustion reaction of b_2o_3-tio_2-mg-c system

  9. 利用热天平和管式炉对RDF(RefuseDerivedFuel)等温快速热解和燃烧反应特性进行了研究。

    Fast pyrolysis and combustion properties of RDF ( Refuse derived fuel ) in thermobalance and tubular furnace at isothermal condition were investigated .

  10. 加热速率和Al粉粒度对燃烧反应过程的影响与预燃烧相的形成有关。

    The effects of the heating rate and the particle size of Al powder on the synthesis of TiAl are related to the formation of pre-combustion phase .

  11. 为了研究失重环境对液相烧结AlN复合材料的影响,在抛物线飞行飞机上,以碳钛燃烧反应形成的高温作为实验热源,进行了失重实验和AlN复合材料、TiC材料制备中重力行为研究。

    The gravity behaviors in the combustion synthesis of Ti and carbon on the parabolic flight aircraft were investigated .

  12. SiO2气凝胶在350℃之前发生甲基燃烧反应,由憎水变成亲水。

    The methyl on the skeletal surface were burned off before 350 ℃, and the SiO2 aerogels became hydrophobic from hydrophilic .

  13. 燃烧反应合成Al-Cu基吸声材料

    Al-Cu-based sound-absorbing materials by self-propagating high-temperature synthesis

  14. 考察了神木煤镜质组和丝质组在热解和气化过程中存在的差别,包括不同压力下热解和气化的挥发分收率,生成半焦的C含量,半焦的表面形态和燃烧反应性。

    The differences between pyrolysis and gasification property of vitrinite and fusinite , including volatile yields , carbon content , SEM characteristic and combustion reactivity of residual chars under different pressure , were systematically investigated using TGA .

  15. 当温度为600℃、煅烧时间2h炭的燃烧反应基本平衡,可以获得满意脱色效果。

    When the temperature for 600 ℃, calcining time 2h carbon combustion reaction basic balance , can acquire satisfactory decoloring effect .

  16. 当加热速率快时,压坯密度高较有利于燃烧反应的进行及TiAl金属间化合物的合成。

    The high compact density is helpful to the reaction processing and the synthesis of TiAl intermetallics when the heating rate is high .

  17. 以柠檬酸铁或硝酸铁、硝酸锌、硝酸镍和柠檬酸为原料,利用溶胶直接自蔓延燃烧反应成功制备了尖晶石结构的NiZn铁氧体粉末。

    Ni-Zn ferrites were prepared with the citrate precursor by self-combustion technique , using ferric citrate or ferric nitrate , nickel nitrate , zinc nitrate , citric acid as the starting materials .

  18. 利用Si、C、Ti体系的放热反应得到SiC/TiC复相陶瓷,其中Ti+C含量要大于25%,否则燃烧反应无法完全进行。

    SiC / TiC composite was gained by combustion reaction of Si , C and Ti system where the content of Ti + C should be larger than 25 % to achieve complete combustion reaction .

  19. 2)固硫剂Ca(OH)2的加入使Arrhenius曲线斜率增大,明显提高了燃烧反应的活化能;

    2 ) The slope of Arrhenius curve was increased by adding Ca ( OH ) _2 sulfur-fixing agent , the activation energy of the combustion reaction was obviously promoted .

  20. 结果,燃烧反应随之完全,有利于合成单相(Ti,W)C粉末,且产物粉末粒度增加。

    As a result , the combustion reaction becomes complete , single phase ( Ti , W ) C is synthesized advantageously and the powder size increases with the decrease of W content and the increase of preheat temperature .

  21. 根据火焰温度,提出了H2在N2O内燃烧反应的机理,该机理为:(1)2N2O→N2+2NO;

    According to the flame temperature , the mechanism of H_2 combustion reaction in N_2O was deduced as follows : ( 1 ) 2N_2O → N_2 + 2NO ;

  22. 通过淬熄Al+Ti+C系燃烧反应,对自蔓延高温合成Al-Ti-C中间合金的结构形成机理进行了初步地探讨。

    The mechanism of structure formation of Al-Ti-C master alloys via SHS was studied preliminarily by means of quenching Al-Ti-C samples .

  23. 结果表明,添加Al2O3或Cr2O3稀释剂,可有效控制燃烧反应的剧烈程度,并形成Cr相和陶瓷基体的共晶组织。

    The results showed that Al_2O_3 or Cr_2O_3 addition can effectively control severe combustion reaction , and form the eutectic structure of Cr phase and ceramic matrix .

  24. 在使用较粗Ti和Fe粉条件下,Ti与C的燃烧反应分别发生在Ti和Fe粉粒中,且前者先于后者。

    Under a condition of using the coarser Ti and Fe powders , the combustion reaction between Ti and C occurred , respectively , in the Ti and Fe particles , and the former occurred earlier than the latter .

  25. 对Al-Al2O3-N2体系的进行了反应热力学分析,研究了温度对反应自由能的影响,计算了添加剂Al2O3不同含量对燃烧反应绝热温度的影响规律。

    The thermodynamics of Al-Al_2O_3-N_2 system were analyzed . Studied how temperature affects the free energy of reaction and did calculation of how Al_2O_3 content affects the insulation temperature .

  26. 在详细反应动力学研究基础上,通过对二甲基醚(DME)均质压燃燃烧反应途径和敏感性分析,建立了均质压燃二甲基醚的简化动力学模型。

    A reduced model of dimethyl ether ( DME ) was developed based on the detailed kinetics model by analyzing in reaction paths of combustion of DME and sensitivity .

  27. 产物形貌实际上是由燃烧反应的绝热温度Tad和瞬时液相量所决定的。

    The product morphology was dependent on the adiabatic temperatures T_ ( ad ) and the instantaneous liquid amount of synthesis products in the reaction .

  28. 在使用较细Ti粉和较粗Fe粉情况下,虽然Fe粉粒中的燃烧反应未受影响,但较细Ti粉粒中的反应变为溶解-析出机制。

    In the case of using the finer Ti and the coarser Fe powders , although the combustion reaction mechanism in the Fe particle was not affected , the reaction in the finer Ti particle was changed to a dissolution-precipitation mechanism .

  29. 用RBF神经网络建立了用于清除低浓度挥发性有机物的流向变换催化燃烧反应器拟定态温度分布模型。

    The quasi-steady state model of temperature profile for the reverse flow reactor with catalytic combustion of air contaminated with volatile organic compounds ( VOCs ), is developed by RBF ( radial basis function ) neural networks .

  30. 讨论了CHNS元素分析仪燃烧反应管温度的设置问题。

    The problems about the temperature setting for combustion tube of CHNS elemental analyzer are investigated .