机译:三角形太阳能空气加热器管道采用多个间隙和湍流启动子的三角太阳能空气加热器管道的预测为人工粗糙度:CFD分析
Department of Mechanical Engineering Engineering College Ajmer India;
Department of Mechanical Engineering Engineering College Ajmer India;
Department of Mechanical Engineering MNIT Jaipur India School of RAC Skills Bhartiya Skill Development University Jaipur India;
Department of Mechanical Engineering Engineering College Ajmer India;
Department of Mechanical Engineering Engineering College Ajmer India;
Department of Mechanical Engineering VIT Vellore India;
Department of Civil Engineering Delhi Technological University Delhi India;
Triangular duct; Nusselt number enhancement ratio; Eddy viscosity; Heat transfer enhancement; Helicity;
机译:多间隙V型向下肋加交错肋加粗的太阳能热水器风道性能分析
机译:基于CFD的人工粗化太阳能空气加热器的热工液压性能分析,该加热器在吸收板上具有等边三角形截面的肋条粗糙度
机译:带有多V形且带有间隙肋作为人工粗糙度的粗糙风管的太阳能空气加热器的努塞尔数和摩擦系数的相关性开发
机译:使用CFD方法在吸收板上用倒角肋和凹槽粗糙度粗糙的太阳能空气加热器的传热分析
机译:流经吸收器板上具有方形截面横肋粗糙度的太阳能空气加热器的湍流建模与仿真
机译:肋骨粗糙度对太阳能空气加热器的热和热液压性能的影响,该弧形粗肋具有间隙的电弧肋
机译:飞机加热器调查。 37.沿含湍流促进剂的平板流动的空气的热和流体动力学行为的实验测定