机译:单个微通道内流沸腾过程中的压降,沸腾传热和流型
D_h: hydraulic diameter, m; G: mass flux, kg/m~2s; H: thickness, m; h: heat transfer coefficient, kW/m~2K; I: electric current, A; i_(fg): latent heat of vaporization, J/kg; k: thermal conductivity, W/mK; L: length, m; m: mass flow rate, kg/s; n: unit section of microheater and microchannel; P: pressure, kPa; q: heat flow rate, W; q": heat flux, kW/m~2; T: temperature, ℃; u: experimental uncertainty; V: electric voltage, V; W: width, m; x: vapor quality; ρ: density, kg/m~3; ΔP: pressure drop, kPa; acc: acceleration; bw: bottom wall of heater substrate; ch: channel; eff: effective (subtracting loss from total); exp: experiment; f: fluid; fric: friction; h: heater; in: inlet; loss: heat loss; n: unit section of microheater and microchannel; out: outlet; sat: saturated; SP: single-phase; sub:;
机译:垂直窄微通道中异质润湿表面流动沸腾的传热,压降和流动模式
机译:在微通道中超疏水多孔铜表面上沸腾的沸腾,传热和流动模式的发作
机译:微通道单环流态下的沸腾现象(Ⅰ):沸腾传热的表征
机译:交联微通道热沉沸腾过程中流动模式,压降和流动不稳定性的实验研究
机译:二氧化碳和R410A在低温下在水平管中流动沸腾传热,压降和流动方式。
机译:水平微通道流动沸腾过程中压降的实验研究与预测
机译:用微通道中的天然制冷剂(丙烷)热传递和压力下降两相流沸腾的流动模式
机译:水和乙二醇/水混合物的两相流沸腾的压降,传热,临界热流和流动稳定性 - 项目“核子沸腾发动机中的高效冷却”的最终报告。