BREAK-UP MECHANISM OF METAL DROPLETS GENERATED BY AN ELECTROHYDRODYNAMIC TECHNIQUE

Nanometer powders can be produced by an electrohydrodynamic technique. The breakup mechanism of the metal droplets generated by the electrohydrodynamic technique was analysed. It showed that the applied voltage, the electric field Btrength, the properties of the molten metal and the volumetric flow rate of the molten metal directly effect the breat-up extent of the metal droplets.

Homotopy Coiflets wavelet solution of electrohydrodynamic flows in a circular cylindrical conduit

In previous studies, the nonlinear problem of electrohydrodynamic(EHD)ion drag flows in a circular cylindrical conduit has been studied by several authors. However, those studies seldom involve the computation for large physical parameters such as the electrical Hartmann number and the magnitude parameter for the strength of the nonlinearity due to the existence of strong nonlinearity in these extreme cases. To overcome this faultiness, the newly-developed homotopy Coiflets wavelet method is extended to solve this EHD flow problem with strong nonlinearity. The validity and reliability of the proposed technique are verified. Particularly, the highly accurate homotopy-wavelet solution is obtained for extreme large parameters, which seems to be overlooked before.Discussion about the effects of related physical parameters on the axial velocity field is presented.

Solution of Electrohydrodynamic Flow Equation Using an Orthogonal Collocation Method Based on Mixed Interpolation

In this Paper, we have proposed a new weighted residual method known as orthogonal collocation-based on mixed interpolation (OCMI). Mixed interpolation uses the classical polynomial approximation with two correction terms given in the form of sine and cosine function. By these correction terms, we can control the error in the solution. We have applied this approach to a non-linear boundary value problem (BVP) in ODE which governs the electrohydrodynamic flow in a cylindrical conduit. The solution profiles shown in the figures are in good agreement with the work of Paullet (1999) and Ghasemi et al. (2014). Our solution is monotonic decreasing and satisfies , where, α governs the strength of non-linearity and for large values of α solutions are . The residual errors are given in Table 1 and Table 2 which are significantly small. Comparison of residual errors between our proposed method, Least square method and Homotopy analysis method is also given and shown via the Table 3 where as the profiles of the residual error are depicted in Figures 4-8. Table and graphs show that efficiency of the proposed method. The error bound and its L2-norm with relevant theorems for mixed interpolation are also given.

EHD强化沸腾换热的模型分析

在分析沸腾及EHD强化换热理论的基础上,结合R11工质在垂直管内受直流高电压作用下的沸腾换热试验数据,提出EHD强化沸腾换热的数学模型;模型计算与试验结果的相对误差小于±30%.

EHD气液混合两相体电晕特性的研究

试验研究了氮气和氧气分别与水组成的气液混合两相体在EHD放电中的电晕特性,研究了气体、液体流量对放电电流、发射光谱及电晕形状的影响。由于氮气参与的放电能够产生更多的紫外线和自由基,氧气参与的放电可以产生臭氧,因而氮气和氧气混合气体参与的放电可能比单纯含氧更有利于处理有机废水。

EHD强化凝结换热研究的进展与现状

综述了国内外ＥＨＤ强化凝结换热的理论和试验研究成果，概括了以往研究的特点，指出了今后在该领域的研究方向。

EHD强化沸腾换热研究的进展与现状(I)──机理和理论研究

综述了国内外EHD强化沸腾换热的机理和理论研究成果,概括了以往研究的特点,对今后在该领域的研究方向及重点提出了建议.

EHD强化换热能耗的热力学第二定律分析

Based on the second law of thermodynamics,a method of energy consumption evaluation of electrohydrodynamics(EHD) enhancement of heat transfer was presented, the profit factor of available energy was newly defined.The experimental data were analyzed. The results showed that the profit factor of available energy increased with increasing heat flux under the same voltage given in experiments, while decreased with increasing voltage under the same heat flux given in experiments.It was found for the first time that the application of EHD enhancement of heat transfer was not economical when the voltage was higher than a critical value at a low heat flux. This method provided a theoretical basis for the economy of EHD heat transfer enhancement.

电极直径对EHD强化垂直管内凝结换热的影响

基于EHD强化管内凝结换热的理论分析,对5根直径不同的电极进行了垂直管内EHD强化凝结换热实验研究.结果表明,相同工况条件下,电极直径越大液膜相对减薄率越大,液膜减薄的起始电压越小.液膜相对减薄率随着电压的增加而增加.同时发现,液膜相对减薄率大并不意味着强化系数大.

直流电压对无颗粒纳米银墨水EHD微喷行为的影响

研究了直流电压对无颗粒纳米银导电墨水在电流体动力(EHD)近场微喷印中喷射行为的影响。结果表明供墨压力和电极间距一定时,随着直流电压增大,喷嘴尖端弯液面拉长,轮廓由曲面先后演变为脉动泰勒锥和稳定泰勒锥状。直流电压过大导致泰勒锥失稳倾斜。在不同弯液面形状下,墨滴喷射方式依次为:脉动微滴落、脉动锥射流、稳定锥射流、多股锥射流。在1 500~3 500 V内锥射流较稳定,且该范围内随着直流电压升高,泰勒锥高度减小,锥尖角度增大。基板移动速度一定时,随着直流电压增大,基板上沉积的线条连续性增强,线条宽度增加。供墨压力增大使上述喷射模式的诱导直流电压降低,但射流更易失稳,导致喷印质量下降。

EHD强化传热研究中的重要问题——电场特性的影响规律

在文献综述的基础上，分析了EHD强化传热中，电场特性的重要性和研究现状，指出了当前研究中的不足之处及存在的矛盾，为在EHD强化传热研究中，进一步进行电场特性影响规律的试验和理论探索提出了建议。

等离子体EHD蠕动加速作用影响因素实验研究

利用粒子成像测速(Particle Image Velocimetry,PIV)系统,在静止空气中定量测量了对称布局激励器在蠕动加速作用下的诱导速度场。分析了激励参数等因素对等离子体EHD激励蠕动加速作用的影响。通过实验发现:在激励频率固定的情况下,蠕动加速作用下的诱导气流速度随激励电压的升高而增大,上表面电极间距和相邻通道相位差也能显著影响蠕动加速作用。

EHD强化沸腾换热研究的进展与现状(II)——实验研究

综述了国内外EHD强化沸腾换热的试验研究成果,概括了以往研究的特点,指出了该领域的研究方向和研究重点.

基于EHD的聚苯乙烯打印工艺研究

采用电流体动力学(EHD)打印方式,以聚苯乙烯(PS)作为打印材料,对打印工艺参数进行了深入的研究。探究了打印溶液的质量分数、喷嘴处施加的工作电压以及基板移动速度对打印线条的形貌及直径的影响。研究结果表明:当PS溶液质量分数为18%时,可以打印得到光滑的线条;在一定范围内,线条的直径随电压增大而增大,随基板移动速度增大而减小。相较于传统静电纺丝技术,使用优化后的参数进行EHD打印的微尺度线条有着更好的沉积精度与控制效果,通过调节工艺参数,成功打印出直径小于5μm的螺旋状与网格状的聚合物图案。

Design of a Prototype EHD Air Pump for Electronic Chip Cooling Applications

This paper presents the design,optimization and fabrication of an EHD air pump intended for high-power electronic chip cooling applications.Suitable high-voltage electrode configurations were selected and studied,in terms of the characteristics of the generated electric field,which play an important role in ionic wind flow.For this purpose,dedicated software is used to implement finite element analysis.Critical design parameters,such as the electric field intensity,wind velocity,current flow and power consumption are investigated.Two different laboratory prototypes are fabricated and their performances experimentally assessed.This procedure leads to the fabrication of a final prototype,which is then tested as a replacement of a typical fan for cooling a high power density electronic chip.To assist towards that end,an experimental thermal testing setup is designed and constructed to simulate the size of a personal computer’s CPU core of variable power.The parametric study leads to the fabrication of experimental single-stage EHD pumps,the optimal design of which is capable of delivering an air flow of 51 CFM with an operating voltage of 10.5 kV.Finally,the theoretical and experimental results are evaluated and potential applications are proposed.

Experimental Study on the Velocity and Efficiency Characteristics of a Serial Staged Needle Array-Mesh Type EHD Gas Pump

The ionic wind has good application prospects in the fields of air flow control and heat transfer enhancement. The key for successful applications is how to improve the velocity and how to increase the active area of the ionic wind. This paper designed a needle array-mesh type electrohydrodynamic （EHD） gas pump. The use of needle array electrode where corona discharge started simultaneously could enlarge the active area. The velocity of the ionic wind could increase by placing several single-stage ionic wind generators in series appropriately, called as serial staged generator. The maximum average flow velocity of 16.1 m/s and volumetric flow of 303.5 L/min were achieved at the outlet of a 25-stage gas pump and the conversion efficiency was approximately 2.2%.

Dynamic Behavior and Its Consideration of EHD Liquid Extraction Phenomenon Causing under DC or Low-Frequency AC Voltage

This paper describes an experimental and theoretical study on an extraction phenomenon of liquids occurring at an air gap between the liquid surface and the electrode by applying a direct current (DC) or low-frequency alternating current (AC) voltage. Three liquids with a different physical property;2,3-dihydrodecafluoropenten, palm fatty acid ester oil and crude rapeseed oil are used as working liquids. The electrode configuration is the sphere or plane (high voltage electrode) to grounded plane electrode. The grounded plane electrode is fixed to the bottom of the test vessel with working liquid and the high voltage electrode is installed in an air above the liquid surface against the grounded plane electrode. The liquid surface swells towards the high voltage electrode by the increase of voltage and the liquid is extracted in a short time, thereafter the air gap between the liquid surface and the high voltage electrode is bridged at a thick liquid column. Such the liquid behavior displays unique features with voltage polarity effect for each working liquid. The relationship between the applied voltage, current variation, height of swollen liquid, force pulling liquid and dynamic feature of liquid is examined experimentally. The liquid behavior is considered theoretically based on experimental observations.

基于电流体动力学喷印法的胶体量子点MEMS气体传感器性能

针对传统的成膜工艺无法实现在百微米级并且结构悬空的微电子机械系统(MEMS)基板上实现气敏薄膜制备的问题,利用电流体动力学(EHD)喷印技术结合氧化钨(WO_(3))胶体量子点进行气敏薄膜的无掩模沉积。考虑MEMS基板对沉积精度和工艺条件要求较高,因此首先基于EHD理论建立EHD喷印的数值模型,模拟锥射流形成过程以及电压、油墨属性等因素对锥射流稳定性的影响,并采用实验进行对比分析,验证仿真的有效性并制备出符合喷印的墨水,后采用EHD喷印制备MEMS气体传感器。实验结果表明,利用EHD喷印方法制备的WO_(3)气体传感器的薄膜致密均匀,在150℃下功耗仅20 mW,对体积分数5×10^(-6)NO_(2)的响应值约为10,能实现体积分数5×10^(-7)~1×10^(-5)的NO_(2)检测,检测下限低至1.6×10^(-7),具有优异的气敏性能。

电液动力微泵微电极的不同制作工艺的比较(英文)

基于MEMS加工技术的电液动力微泵在微流体冷却系统和解决高热流器件的冷却问题中占有重要地位。电液动力微泵的核心部分是通过MEMS加工工艺制作的由成对的发射极和集电极组成的微电极。在电极对间的强电场作用下,电介质流体中的离子、极子以及微粒同电场相互作用来驱动流体流动。本文系统地讨论了微电极在设计和制作中需要关注的问题:电极材料的选择方针,多种形状的电极设计和两种电极加工工艺—电镀法和剥离法的对比。实验结果表明:贵金属有更好的抗电化腐蚀能力;同普通平行电极结构相比,带有尖锐结构的电极更能提高微泵的性能;相比电镀法,剥离法能更好地提高电极的制作质量。

电场对注入气泡和沸腾气泡影响的实验研究

本文主要研究了直流电场对冷态注入氮气气泡和R113沸腾气泡行为的影响。利用高速摄像机拍摄了冷态注入气泡和热态沸腾气泡在不同场强作用下的实验图像,并对气泡的脱离进行了定量分析。实验结果表明:注入氮气气泡和沸腾气泡沿电场方向显著伸长,其脱离长径比随着场强升高而增大,并且电场对沸腾气泡伸长行为的影响更显著。此外,注入气泡和沸腾气泡的脱离体积随着场强增大都具有减小的趋势,而且注入气泡体积随场强减小的行为更明显。