6533b826fe1ef96bd128460f
RESEARCH PRODUCT
Characterization of a Modified Expansion Condensation Particle Counter for Detection of Nanometer-Sized Particles
Sarah-lena Von Der WeidenStephan BorrmannJoachim CurtiusAndreas KürtenHossein SaghafifarSmaeyl Hassanzadehsubject
Pressure dropParticle numberChemistryAnalytical chemistryMineralogyPollutionPressure sensorCondensation particle counterAerosolCalibrationEnvironmental ChemistryGeneral Materials ScienceNanometreAdiabatic processdescription
A newly developed condensation particle counter provides measurements of aerosol particle number densities for size diameters as low as 3 nm. This Expansion Condensation Particle Counter (ECPC) operates based on fast adiabatic expansion with specialized detection and evaluation of the temporal development of light scattered by the ensemble of growing droplets. In its new configuration the ECPC has been modified such that a previously needed calibration factor became obsolete. In this article the new design is described which now includes a fast pressure sensor for monitoring the pressure drop inside the measurement chamber. Extensive laboratory experiments for characterizing the ECPC are described where sulfuric acid droplets with diameters between ∼2.5 nm and 23 nm have been utilized. Water as well as butanol are demonstrated to be suitable working fluids. One experiment using tungsten oxide (WOx) particles shows that a 50% cut-off size diameter as low as 2.5 nm can be reached for this ECPC with a detect...
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2009-07-06 | Aerosol Science and Technology |