Modeling water vapor permeation through hollow fiber composite membrane;
水蒸气在中空纤维复合膜中渗透的微分阻力模型
Study on the preparation of granular activated carbon from tobacco stems by microwave radiation and water vapor;
微波辐射-水蒸气法制备烟杆基颗粒活性炭
Regeneration of catalyst support activated carbon for vinyl acetate synthesis with water vapor activation;
水蒸气活化再生乙酸乙烯合成触媒载体活性炭
Experimental Study and Apparent Reaction Kinetics Analysis on the Char-steam Gasification;
煤焦与水蒸气的气化实验及表观反应动力学分析
Review of study on gasification characteristic of coal char with carbon dioxide and steam;
煤焦与CO_2及水蒸气气化特性研究进展
Characteristic of the Shenfu coal char gasification with steam and carbon dioxide;
神府煤焦与水蒸气、CO_2气化反应特性研究
Effects of water vapor on the ageing behaviour of ZTM_(15) (Y_2O_3) composites at low-temperature;
水蒸汽对ZTM_(15)(Y_2O_3)材料低温时效现象的影响
Atmospheric mean transmittance in wavelength interval 0.1 μm from infrared 1 to 14 μm, (Ⅱ) transmittance of water vapor;
红外1~14μm波长间隔0.1μm上大气平均透过率(Ⅱ).水蒸汽的透过率
The thermodynamic functions and the equilibrium pressures of adsorption reactions of water vapor have been calculated, and their relationships with temperature were ob- t.
15K温度下,水蒸汽分子在Pt表面吸附反应的热力学函数值和平衡压力,拟合得到?S,?H,?G,lnp与温度的函数关系。
The plasma arcs of water vapour in different medium are used for cutting experiments study.
采用不同介质的水蒸气等离子弧进行了切割试验研究 ,试验研究表明 ,不同介质的水蒸气等离子弧具有不同的切割特点 ,乙醇或丙酮的加入 ,使水蒸气等离子弧切割性能得到明显的改
The feasibility of preparation of particulate activated carbon from char of cocoa nut husk by water vapour microwave was studied.
研究了以椰壳炭化料为原料 ,采用水蒸气 微波法制备颗粒活性炭的可行性。
The effects of support type and H2O vapor content in benzene vapor on decomposition rate of benzene,carbon balance,selectivity to CO2,and amounts of undesirable NOx and O3 by-products were investigated.
考察了以不同吸附能力的玻璃球和γ-Al2O3为载体对苯降解率、碳平衡、CO2选择性、NOx及O3生成量的影响;研究了以γ-Al2O3为载体时,水蒸气含量对苯的降解率、碳平衡、CO2选择性、NOx及O3生成量的影响。
To obtain a better view on the effect of hydrogen and vapor on flame propagation, by using CHEMKIN-Ⅱ software, laminar flame speeds of methane/air mixtures with and without hydrogen and vapor were calculated and analyzed.
为了较为系统地认识氢气和水蒸气对火焰传播的影响,应用CHEMKIN Ⅱ程序计算了甲烷/空气层流预混火焰传播速度,并就水蒸气和氢气对火焰传播速度的影响做了定量计算与分析。
A new wide band k-distribution model was developed, in which the k-distribution absorption coefficients of carbon dioxide and vapor in ten main bands were expressed in polynomial functions.
建立了一种新的宽带k分布模型,用多项式拟合了水蒸气和二氧化碳气体10个重要谱带的k分布吸收系数。
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