机译:加氢水中过度水分脱落在罗布茨上加速淬火速率和增强池沸腾热传递的实验研究
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;
Institute of Thermal Science and Power Systems School of Energy Engineering Zhejiang University;
Critical heat flux; Leidenfrost point; Quenching; Rodlet; Subcooling; Superhydrophilic surface;
机译:加氢水中过度水分脱落在罗布茨上加速淬火速率和增强池沸腾热传递的实验研究
机译:纳米级粗糙度增强的超亲水性表面上的池沸腾传热,用于水中的加速淬火
机译:在超亲水性多孔表面上水淬火期间增强的池沸腾传热:表面芯吸性的影响
机译:瞬态池沸腾热传递对水中垂直罗克淬火的实验研究
机译:孔尺寸和涂层厚度均受控的纳米孔表面增强形核池沸腾传热的实验研究
机译:飞秒激光加工不锈钢表面上增强的池沸腾传热和临界热通量
机译:水沸腾池沸水沸腾特性曲线的研究:第2次报告,表面污染对沸腾热传递和塌陷蒸汽块的影响