1)micro-combustion微尺度燃烧
1.Due to lack of theory and test model, there are few breakthroughs in the field of micro-combustion.国内外已经相继开展了对它的研究,但是开展的研究大都着重于技术和工艺为题,在制约系统成败的关键为题,特别是如何实现微尺度燃烧等问题上的研究由于理论和试验模型的缺乏,仍然没有突破性的进展。
英文短句/例句
1.Microscale Combustion Performance and Development of Micro Energy System;微尺度燃烧特性及微能源系统的研制
2.Numerical Simulation of Hydrogen Microscale Catalytic Combustion Process氢气微尺度催化燃烧过程的数值模拟
3.Numerical simulation on catalytic combustion process of hydrogen/air mixture inside micro-tubes氢气预混合微尺度催化燃烧的数值模拟
4.Research on Application of Electrical Capacitance Tomography Technique to Micro-scale Combustion in Porous Media;微尺度多孔介质中燃烧的电容层析成像应用研究
5.Effect of Surface Catalytic Reaction on Gas Phase Combustion Inside Miniscale Combustor表面催化反应对小尺度空间内气相燃烧的影响
6.Microwave-Assisted Extraction-Ultraviolet Spectrophotometric Analysis of the Burning Residue at Fire Scene;微波萃取-火场燃烧残留物紫外分光光度分析
7.Influence of inlet-air temperature on emissions from a microturbine combustor进气温度对微型燃机燃烧室污染物排放性能的影响
8.combustion furnace for elementary analyzer微量元素分析用燃烧炉
9.testing method for flammability of clothes burning rate method织物燃烧试验法:燃烧速度测试法
10.Numerical Simulation on Premixed Catalytic Combustion of Methane in Micro-combustor;微型燃烧器内甲烷预混催化燃烧的数值模拟
11.Numerical Simulation of Catalytic Combustion of Methane in Micro-channels;甲烷在微燃烧器内催化燃烧的数值模拟
12.Bifurcation analysis of catalytic combustion in micro-channel微元管催化燃烧过程中燃烧特性分岔分析
13.EXPERIMENTAL STUDY ON STRUCTURE PARAMETER OPTIMIZING OF MICRO-COMBUSTOR WITH PENETRATION COMBUSTION壁面渗透燃烧微燃烧器结构参数优化实验研究
14.Numerical investigation of premixed catalytic combustion of methane in micro-combustor微型燃烧器内甲烷预混催化燃烧的数值研究
15.Study on Combustion Velocity and Temperature of Non-electric Welding Material无电焊接材料的燃烧速度和燃烧温度研究
16.Influence of Oxygen Concentration on the Flammability Characteristics of Fire-Retardant Cellulose;氧浓度对阻燃纤维素燃烧特性的影响
17.kolmogoroff microscale柯尔莫戈罗夫微尺度
18.Microscale Effects on Creep Properties of Microcastings at Room Temperature微尺度铸件室温蠕变性能的微尺度效应
相关短句/例句
small-scale combustion小尺度燃烧
3)subgrid-scale combustion model亚网格尺度燃烧模型
1.Two different subgrid-scale combustion models were used for the Large-Eddy Simulation (LES) of turbulent chemical reaction flows in a model combustor with V-gutter flame holder.采用了两种不同的亚网格尺度燃烧模型对带 V型稳定器的模型燃烧室紊流化学反应流动进行了大涡模拟 ,用 k-ε方程亚网格尺度模型确定亚网格紊流粘性 ,为了考虑热辐射对燃烧室壁温和气流温度的影响 ,运用热流法辐射模型估算热辐射通量 ,用 SIMPLE算法和混合差分求解大涡模拟各守恒方程 ,通过对两种不同亚网格尺度燃烧模型数值模拟结果与实验值的比较表明 ,两种燃烧模型都与实验值较吻合 ,但 G方程小火焰模型要比亚网格 EBU燃烧模型符合得更好
4)micro-burner微燃烧器
1.By making use of software CHD FLUENT and chemical reaction dynamics software DETCHEM a numerical simulation was conducted of the catalytic combustion of a mixture of CH_4 and air in a micro-burner featuring counter-flow heat exchange.联合使用CFD软件、FLUENT和化学反应动力学软件DETCHEM对甲烷 -空气混合物在有逆流换热的微燃烧器内的催化燃烧进行了数值模拟。
2.In this paper was preformed numerical simulation of catalytic combustion of CH4 for micro-burner with counterflow heat exchanger using both FLUENT and surface chemistry subroutine DETCHEM.本文联合使用CFD软件FLUENT和化学反应动力学软件DETCHEM对甲烷-空气混合物在有逆流换热的微燃烧器内的催化燃烧进行了数值模拟。
5)micro combustion微燃烧
6)micro combustor微燃烧室
1.Micro combustor is one of the most important components in a micro-thermo-photovoltaic(MTP)system.微燃烧室是微热光电(MTPV)系统的重要组成部分。
2.Increasing the combustion efficiency of the micro combustor to the greatest extent is very important to the micro thermophotovoltaic systems.最大化提高微燃烧室的燃烧效率对于微热光电系统是非常关键的。
3.Micro combustor is one of the most important components of micro thermophotovoltaic (MTPV) system.微燃烧室是微热光电(MTPV)系统的一个重要组成部分。
延伸阅读
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。
