竖屏播放的传播逻辑与美学范式

近年来,竖屏播放被反复论及。一方面,业界的标准不断变化;另一方面,学界的观点并未统一。竖屏播放既关涉作品的媒介属性,更涉及其艺术属性。以竖屏为主、坚持侧重横屏播放和横竖屏播放同时发展的不同策略体现了播放平台的三种传播逻辑;聚焦与赋权、体现速度感与亲密感分别体现了竖屏艺术创作中的视听美学范式和移动美学范式。竖屏播放的未来发展取决于平台选择的传播逻辑,而这又与创作主体能否构建起与竖屏播放相匹配的美学范式息息相关。从技术长远发展的角度审视,竖屏播放和横屏播放也许都只是阶段性存在的产物。

一种测量液滴接触角的方法

采用垂直拍摄-测量直径法代替传统的侧面拍摄-提取轮廓-函数拟合求导法测量液滴接触角,省去了函数拟合过程,提高了测量效率。推导出液滴接触角的理论计算公式,利用计算机结合图像处理技术提取出液滴投影图像的边缘轮廓,测量得到边缘的直径,将其代入所推导出的理论公式求解出液滴接触角。实验获得了与理论计算一致的导电液滴接触角随电压变化的关系曲线,验证了该方法的可行性。

一种测量微液滴电湿效应的新方法

基于特定的"导电基片/绝缘膜层"电湿效应模型,提出了一种新颖的接触角测量方法。用平板电极代替传统针状电极并改传统侧面拍摄为垂直拍摄,搭建了基于新方法的实验装置。本文装置包括显微拍摄系统、微液滴测试盒、反射光源和透射光源。提取了不同电压下的一系列圆环轮廓图,测量了圆环的内外径,结合内外径差与接触角的关系,得到了接触角随电压变化的关系曲线,获得了与理论值一致的微液滴电湿效应变化规律。与传统方法相比,本文方法操作简便,精度高。

Visualization on Flow Patterns during Condensation of R410A in a Vertical Rectangular Channel

The visualization experiments on HFC R410A condensation in a vertical rectangular channel （14.34mm hydraulic diameter, 160mm length） were investigated. The flow patterns and heat transfer coefficients of condensation in the inlet region were presented in this paper. Better heat transfer performance can be obtained in the inlet region, and flow regime transition in other regions of the channel was also observed. Condensation experiments were carried out at different mass fluxes （ from 1.6 kg/h to 5.2 kg/h） and at saturation temperature 28~ C. It was found that the flow patterns were mainly dominated by gravity at low mass fluxes. The effects of interfacial shear stress on condensate fluctuation are significant for the film condensation at higher mass flux in vertical flow, and con- sequently, the condensation heat transfer coefficient increases with the mass flux in the experimental conditions, The drop formation and growth process of condensation were also observed at considerably low refrigerant vapor flow rate.