>
Fa   |   Ar   |   En
   experimental study of charging efficiencies and losses of submicron aerosol particles in a cylindrical tri-axial charger  
   
نویسنده intra p. ,wanusbodeepaisarn p. ,siri-achawawath t.
منبع iranian journal of electrical and electronic engineering - 2019 - دوره : 15 - شماره : 3 - صفحه:401 -410
چکیده    The object of the present work was to design, construct and evaluate a cylindrical tri-axial charger for charging of submicron aerosol particles by unipolar ions. the corona discharge characteristics, the intrinsic and extrinsic particle charging efficiencies, and the losses of aerosol particles were experimentally evaluated for particle diameters in the range between 50 nm and 500 nm under different operating conditions. the conditions included the corona voltages of about 7.0 to 8.0 kv, the mesh screen voltages of about 100 to 300 v and the aerosol flow rate was set at 1.5 l/min. it was found that the ion current increased from 2.90×10^-10 to 3.66×10^-8 a and 2.40×10^-10 to 1.36×10^-7 a and the number concentration of ions increased from 7.50×10^9 to 5.92×10^11 ions/m^3 and 6.21×10^9 to 2.19×10^12 ions/m^3 when the corona voltage increased from 5.5 to 8.0 kv at the mesh screen voltage between 100 and 300 v, respectively. the intrinsic charging efficiency of particles introduced a constant value of about 99% for particle diameter in the range between 50 nm and 200 nm and decreased with particle diameter in the range between about 300 nm and 500 nm at a given corona voltage. the best extrinsic charging efficiency of the studied charger occurred between 1.32% and 38% for particle diameter in the range from 50 nm to 500 nm at corona and ion trap voltages of about 7.0 kv and 300 v respectively. the highest electrostatic loss of particles was observed at 50 nm particles and it was about 89.08, 90.73 and 91.91% at a mesh screen voltage of about 300 v for corona voltages of about 7.0, 7.5 and 8.0 kv, respectively. finally, the highest diffusion losses were at about 28.88, 23.03 and 11.15% for singly charged, neutralized and non-charged particles of 500, 500 and 50 nm, respectively.
کلیدواژه aerosol ,corona discharge ,unipolar charging ,particle charging
آدرس rajamangala university of technology lanna, college of integrated science and technology, research unit of applied electric field in engineering (ruee), thailand, pico innovation co., ltd., thailand, innovative instrument co., ltd., thailand
پست الکترونیکی thanesvorn@innovative-instrument.com
 
     
   
Authors
  
 
 

Copyright 2023
Islamic World Science Citation Center
All Rights Reserved