Division of Environmental Physics - User: student
Faculty of Mathematics, Physics and Informatics, Comenius University Bratislava

Polarity effect on the electrohydrodynamic (EHD) spray of water

Kim H.H., Teramoto Y., Negishi N., Ogata A., Kim J.H., Pongrác B., Machala Z., Gañán-Calvo Alfonso M.
J. Aerosol. Sci. 76, 98-114 (2014)

request a copy 

Abstract:

This paper presents the effects of polarity on the electrohydrodynamic (EHD) spray of water (deionized and tap water) in air and pure CO2 environments. Its influence in the interaction of the EHD spray and corona discharges was experimentally measured and analyzed. In contrast to the various spray patterns observed under positive polarity, negative polarity induced only two modes (dripping and spindle) under the typical conditions used in this study. Mapping of electrospray modes is presented in conjunction with current-voltage characteristics, discharge and spray images obtained with ICCD and high-speed camera. We also first report the intermittent multi-jet mode in water in pure CO2. The essential differences in the spindle mode were the shape and elongation direction of the water filaments according to the negative or positive polarity. The different spray patterns in the spindle mode seemed to be associated with the movement of ion species in water. From the combined analysis of the corona discharges, one may conclude that the different properties of the coronas were associated with the spray patterns both in air and pure CO2. Typical onset streamers in air under positive polarity had minimal influence on the spray mode because they were found to be separated in time and space from the water meniscus. In contrast to the stable glow under positive polarity, many current pulses (Trichel pulse) were observed in the negative EHD spray.

Citations:

1.)	Panahi A.; Pishevar A.R.; Tavakoli M. R.: Experimental investigation of electrohydrodynamic modes in electrospraying of viscoelastic polymeric solutions, PHYSICS OF FLUIDS 32 (1) 012116 (2020), WoS (2020) -------------
2.)	Kramek-Romanowska K.; Grzeczkowicz M.; Korycka P., Lewinska D.: A Factorial Design for Assessment of the Effect of Selected Process Variables on the Impulse Electrostatic Droplet Formation, CURRENT TRENDS IN BIOMEDICAL ENGINEERING AND BIOIMAGES ANALYSIS, Book Series: Advances in Intelligent Systems and Computing 1033, (2020), WoS (2020) -------------
3.)	Kim S.; Jung M.; Choi S.; Lee J.; Lim J.; Kim M.: Discharge current of water electrospray with electrical conductivity under high-voltage and high-flow-rate conditions. Experimental Thermal and Fluid Science 118 (2020) 110151; WoS; SCOPUS (2020) -------------
4.)	Naderi P.; Shams M.; Ghassemi H.: Investigation on the onset voltage and stability island of electrospray in the cone-jet mode using curved counter electrode, J. ELECTROSTATICS 98, 1-10 (2019), WoS (2019) -------------
5.)	Grigorev A. I; Shiryaeva S. O.; Mikheev G.E.: On Regularities in the Realization of Electrostatic Instability of an Electroconducting Charged Jet Moving Relative to a Material Medium, SURFACE ENG. APPL. ELECTROCHEMISTRY 55 (3) 268-273 (2019), WoS (2019) -------------
6.)	Guo Y.; Li S.; Wu Z.; Zhu KW; Han YN; Wang NF: Interaction between electrospray using ionic liquid and simultaneous corona discharge under positive and negative polarity, PHYSICS PLASMAS, 26 (7) 073511 (2019), WoS (2019) -------------
7.)	Wang Z., Li R., Tian L., Xia L., Zhan S., Wang J., Tu J.: Visualization of periodic emission of drops with micro-dripping mode in electrohydrodynamic (EHD) atomization; Experimental Thermal and Fluid Science 105, 307-315 (2019); WOS, SCOPUS (2019) -------------
8.)	Wang Z.; Tian L.; Xia L; Dong JL; Wang JF; Tu JY: Experimental Study on Repetition Frequency of Drop/Jet Movement in Electro-Spraying of Deionized Water, AEROSOL AND AIR QUALITY RESEARCH 18(2) 301-313, WoS (2018) -------------
9.)	Wang Z.; Tian L.; Xia L; Wang JF; Zhan SQ; Huo YP; Tu JY: Natural periodicity of electrohydrodynamic spraying in ethanol, J. AEROSOL SCIENCE 117, 127-138, WoS (2018) -------------
10.)	Gaysin Al. F.; Gil'mutdinov A. Kh.; Mirkhanov D. N.: Electrolytic-Plasma Treatment of the Surface of a Part Produced with the Use of Additive Technology, METAL SCI. HEAT TREATMENT 60 (1-2) 128-132, WoS (2018) -------------
11.)	Gaisin Al.F.; Kashapov N.F.; Kuputdinova A.I.; Mukhametov RA: Discharge between Liquid Jet and Metallic Electrodes, TECHNICAL PHYSICS 63 (5) 695-699, WoS (2018) -------------
12.)	Gaisin Al.F.; Kashapov N.F.; Investigation of Physical Processes in the Gas Discharge Region Between Liquid Electrodes, J. APPL. MECHANICS TECHNICAL PHYS. 59 (4) 591-593, WoS (2018) -------------
13.)	Borra, J-P: Review on water electro-sprays and applications of charged drops with focus on the corona-assisted cone-jet mode for High Efficiency Air Filtration by wet electro-scrubbing of aerosols, J. AEROSOL SCI. 125, 208-236, WoS (2018) -------------
14.)	Ganan-Calvo A.M.; Lopez-Herrera J.M.; Herrada M.A., Ramos A; Montanero JM: Review on the physics of electrospray: From electrokinetics to the operating conditions of single and coaxial Taylor cone-jets, and AC electrospray, J. AEROSOL SCI. 125, 32-56 (2018), WoS (2018) -------------
15.)	P. Ranieri, G. McGovern, H. Tse, A. Fulmer, M. Kovalenko, G. Nirenberg, V. Miller, A. Fridman, A. Rabinovich, and G. Fridman: Microsecond-Pulsed Dielectric Barrier Discharge Plasma-Treated Mist for Inactivation of Escherichia coli In Vitro. IEEE Transactions on Plasma Science 47 (1) 395-402 (2018), WoS (2018) -------------
16.)	Wang Z., Zhu, Z., Xia, L., Zhang, Y., Li R.: Experiment on electro-spraying modes with double-capillaries; J. Jiangsu University (Natural Science Edition) 39 (3), 284-289 (2018); SCOPUS (2018) -------------
17.)	Gaisin Al. F.; Son E. E.; Petryakov S. Yu.: Radio-frequency capacitive discharge with flowing liquid electrodes at reduced gas pressures, PLASMA PHYSICS REPORTS 43(7) 741-748 (2017), WoS (2017) -------------
18.)	Gaisin Al F.: 2D numerical simulation of volume discharge with liquid anode, HIGH TEMPERATURE 55(1) 145-146 (2017), WoS (2017) -------------
19.)	Wang ZT; Xia L; Zhan SQ: Experimental study on electrohydrodynamics (EHD) spraying of ethanol with double-capillary, APPLIED THERMAL ENGINEERING 120, 474-483 (2017), WoS (2017) -------------
20.)	Mirkhanov D.N.; Gaisin Al.F.; Kuputdinova A.I.; Mukhametov R A: Electrophysical and heat properties of the discharge with liquid anode, INTERNATIONAL CONFERENCE - THE PHYSICS OF LOW TEMPERATURE PLASMA (PLTP-2017) Book Series: J. Physics Conf. Series, 927, UNSP 012017 (2017) -------------
21.)	Gaisin A. F., Son E. E., Kashapov N. F.: Discharge between the jet and dropping liquid cathode and metal anode; International Conference - Physics of Low Temperature Plasma (PLTP-2017): J. Phys. Conference Series 927, UNSP 012018 - CPCI-S (2017); SCOPUS (2017) -------------
22.)	Gaisin A. F., Son E. E., Efimov A., Gilmutdinov A., Kashapov N. F.: Spectral diagnostics of plasma discharge between a metal cathode and liquid anode; High Temperature, 55 (3) 457-460 (2017); WoS, SCOPUS (2017) -------------