Topic 6
Introduction
Problem No. 6 “Electric honeycomb”
Set a vertically oriented steel needle over a horizontal metallic plate. Place some oil onto the plate. If you apply constant high voltage between the needle and the plate, a cell structure appears on the surface of the liquid. Explain and investigate this phenomenon.
Reference
- V. V. Mayer, E. I. Varaksina, and V. A. Saranin. Simple lecture demonstrations of instability and self-organization. Phys. Usp. 57, 1130–1135 (2014)simple_lecture_demonstrations_of_instability_and_self-organization.pdf
- C. S. Herrick. Electroconvection cells in dielectric liquids interfaced with conducting fluids. Proc. Royal Soc. A 336, 487–494 (1974)electroconvection_cells_in_dielectric_liquids_interfaced_with_conducting_fluids.pdf
- H. A. Pohl. Some Effects of Nonuniform Fields on Dielectrics. J. Appl. Phys. 29, 1182 (1958)some_effects_of_nonuniform_fields_on_dielectrics.pdf
- A. T. Pérez. Electrohydrodynamic instabilities in dielectric liquids induced by corona discharge. In: Conduction and Breakdown in Dielectric Liquids, 12th Int. Conf., 126–129 (1996) electrohydrodynamic_instabilities_in_dielectric_liquids_induced_by_corona_discharge.pdf
- F. Vega and A. T. Pérez. Corona-induced electrohydrodynamic instabilities in low conducting liquids. Exp. in Fluids 34, 726–735 (2003)corona-induced_electrohydrodynamic_instabilities_in_low_conducting_liquids.pdf
- R. Chicón and A. T. Pérez. The stability of a horizontal interface between air and an insulating liquid subjected to charge injection. Phys. Fluids 26, 034103 (2014)the_stability_of_a_horizontal_interface_between_air_and_an_insulating_liquid_subjected_to_charge_injection.pdf
- Wikipedia: Corona discharge, https://en.wikipedia.org/wiki/Corona_discharge
- Wikipedia: Dielectrophoresis, https://en.wikipedia.org/wiki/Dielectrophoresis
- Simple lecture demonstrations of instability and self-organization (youtube.com, from Ivan Sadovsky, Nov 28, 2014), https://youtu.be/KNnnqM0H5bs
- 阶跃电压下液体电介质击穿过程数值分析_王正伟,阶跃电压下液体电介质击穿过程数值分析_王正伟.pdf
- 液体介质击穿机理研究进展_黄文力,液体介质击穿机理研究进展_黄文力.pdf
- 第三讲高电压下固_液体介质的绝缘特性_严璋第三讲高电压下固_液体介质的绝缘特性_严璋.pdf
目前进度
2016年5月28日
经过两次预实验的观察以及两次对课题的讨论分析,现有几个关键的现象以及之后的探究计划: 关键现象:
- 突变电压的存在。当两电极间的电压达到某一水平之前,液面逐渐出现大凹陷(以针尖正下方为中心周围型分布,正中心位置没有);电压继续增大至某一值(只与油厚度、电极间距等有关)时,针尖正下方液面突然出现巨大形变、形成蜂巢状自组织结构。
- 电流对页面形状的及电压的敏感性。特定电压下,电流或出现较大、非涨落式的变化。
- 电极间距增加时(试验中使用了15cm),蜂巢中单元凸起能长时间稳定存在,并且大小形状及其相近,对油层厚度和电压的要求亦不太严格(3mm以内油层厚度,10kV左右电压即可),从而便于研究。
遇到问题:
进程及活动记录
| 时间 | 简述 | 描述 |
|---|---|---|
| 2016/6/25 | 小组期末报告 | |
| 2016/6/24 | 第五次实验 | |
| 2016/6/15 | 第四次实验补充 | |
| 2016/6/12 | 第四次实验 | |
| 2016/6/10 | 小组讨论 | |
| 2016/6/09 | 第三次实验补充 | |
| 2016/6/07 | 第三次实验 | 利用新装置进行实验 |
| 2016/5/28 | 装置搭建 | 设计并连接了电路 |
| 2016/5/27 | 第二次实验 | 确定仪器尺寸的预实验 |
| 2016/5/22 | 小组外讨论一 | 通过微信群和cupt老师、学长、课程成员讨论了的一些问题,包括实验过程中的观察记录问题、实验基本原理等,收获颇丰(详见展开记录) |
| 2016/5/20 | 第一次实验 |