TY  - CONF
ID  - SisLab2722
UR  - http://ieeexplore.ieee.org/document/7994110/
A1  - Bui, Thanh Tung
A1  - Dinh, Thien Xuan
A1  - Tran, Canh Dung
A1  - Chu, Duc Trinh
A1  - Dau, Van Thanh
Y1  - 2017/06//
N2  - In this paper, an efficient electrostatic particle sampling system is developed based on the neutralized ion wind. Compare with the conventional schemes where unipolar ion is used to charge the airborne sample and the sampling stage is fixed as a part of high voltage circuit, the new approach allows sampling stage to be electrically floated and adds insignificant charge to the bioaerosol, thus reduces damages to the microorganisms while provides design flexibility and good collecting efficiency. The approach is suitable for the combination with a microfluidic interface to develop complex aerosol-to-hydrosol bio-samplers.
KW  - Electrodes
KW  -  microfluidics
KW  -  Particle measurements
KW  -  Discharges (electric)
KW  -  OpenFOAM
KW  -  Ions
KW  -  Corona
KW  -  ionic wind
KW  -  Aerosol sampling
KW  -  aerosol-to hydrosol biosampler
KW  -  aerosols
KW  -  Aerosols
KW  -  airborne sampling
KW  -  Atmospheric measurements
KW  -  bioaerosol
KW  -  biomedical application
KW  -  biomedical engineering
KW  -  corona discharge
KW  -  electrostatic particle sampling system
KW  -  electrostatics
KW  -  high voltage circuit
KW  -  microfluidic interface
KW  -  microorganisms
KW  -  neutralized ion wind scheme
KW  -  particle charging
KW  -  particle simulation
KW  -  unipolar ion wind scheme
TI  - Computational and experimental study on ion wind scheme based aerosol sampling for biomedical applications
SP  - 560
AV  - none
EP  - 563
T2  - 2017 19th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS)
ER  -