A Novel System for Fine Particle Concentration Measurement

Ming Ru Guo; Wen Zhong Lou; Li Na Ren; Yu Fei Lu

doi:10.4028/www.scientific.net/AMR.901.29

Paper Titles

A Comparison Study of Fire Resistance of High Strength Structural Steels According to Boundary Condition
p.11

TMAH Etching of Silicon Wafer for Detector Fabrication
p.15

Phase-Shifted Bragg Gratings Based on Hybrid Plasmonics Structure
p.21

Surface Enhanced Raman Scattering Based on Dielectric-Loaded Surface Plasmon Polariton Waveguides
p.25

A Novel System for Fine Particle Concentration Measurement
p.29

Polymerization of Acrylamide Photo Initiated by Ferroferric Oxide Nanoparticles
p.35

The Drug Loading Thermodynamics Mechanism of Eight Cationic Drugs’ Adsorption onto Ion Exchange Fiber
p.41

Removal of Heavy Metal Ions with Hacac-Silica
p.45

Investigation of Room Temperature Photoluminescence of ZnO Films Induced by Different Laser Fluence Irradiation
p.53

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 901A Novel System for Fine Particle Concentration...

A Novel System for Fine Particle Concentration Measurement

Abstract:

It is important to monitoring the fine particles (PM2.5) in atmosphere as it threatens the public health all over the world. But the existing concentration measuring devices have shortcomings in speed and range. A novel fine particle concentration measuring system based on the ultrasonic attenuation was designed in this paper, which could help to solve the problem. Firstly the mechanism of ultrasonic attenuation in dust cloud was studied to verify the relationship between the concentration and the ultrasonic attenuation. Then the novel concentration measuring system was designed. The micro ultrasonic transducer array was introduced into the system, so the system can be sensitive as well as small. Finally, experiment was conducted to check the performance of this measuring system, and the results show that it could realize measurement quickly.