@inproceedings{SisLab2721,
       booktitle = {2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS)},
           month = {June},
           title = {Ionic JET flow in a circulatory miniaturized system},
          author = {Lam Bao Dang and Thien Xuan Dinh and Thanh Tung Bui and Duc Trinh Chu and Hoa Thanh Phan and Van Thanh Dau},
            year = {2017},
           pages = {2099--2102},
        keywords = {Current measurement, Electrodes, Discharges (electric), Voltage measurement, jets, circulatory miniaturized system, Ions, Pins, bipolar discharge configuration, Circulatory jet flow, Corona, discharges (electric), flow simulation, ionic jet flow, ionic wind, neutralized discharge, polypropylene},
             url = {https://eprints.uet.vnu.edu.vn/eprints/id/eprint/2721/},
        abstract = {This paper reports a novel device for generating circulatory jet flow using bipolar discharge configuration. This arrangement, in which two electrodes serve as mutual emitters and reference defining the electric field, allows to generate simultaneously ionic wind with opposite charge, thus the ion flow is self-neutralized while keeping the momentum in desired direction. In order to prevent system from sparking over, between the two parallel electrodes is installed one millimetre thick polypropylene wall. Experiment and simulation has shown that the air flow is successfully circulated in the confined device with peak velocity of 2 m/s while consuming only 33 mW.}
}