Relative humidity non-uniformities in Hygroscopic Tandem Differential Mobility Analyzer measurements

Journal article (2016)

Authors

Spyros Bezantakos NCSR Demokritos
Linbin Huang Student
K. Barmpounis ChemE/Materials for Energy Conversion and Storage - AS
S. T. Martin Harvard University
G. Biskos Atmospheric Remote Sensing - CEG , ChemE/Materials for Energy Conversion and Storage - AS , The Cyprus Institute
Research Group
ChemE/Materials for Energy Conversion and Storage (AS) (TU Delft)
HTDMA Aerosol Particle Hygroscopicity Particle Τracking Μodel
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Published Date

01-11-2016

Language

English

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Faculty

Applied Sciences

Department

ChemE/Chemical Engineering

Research Group

ChemE/Materials for Energy Conversion and Storage

Abstract

Hygroscopic Tandem Differential Mobility Analyzers (HTDMAs) are widely used to measure the water uptake characteristics of aerosol particles. As has been shown experimentally in the past, potential differences in the relative humidity (RH) between the aerosol and the sheath flow of the second Differential Mobility Analyzer (DMA) can lead to erroneous estimates of the apparent hygroscopic behavior of the sampled particles. A prompt phase transition, for example, may become smeared and be erroneously interpreted as non-prompt. Using a particle-tracking model, here we simulate the trajectories and the state of the particles classified in a DMA with non-uniform RH and temperature profiles. Our simulations corroborate earlier observations proving that such an experimental artifact can induce particle growth within the second DMA. Given the importance of maintaining uniform RH and temperature inside the second DMA of HTDMA systems and the limitations of existing RH and temperature sensors, we further provide suggestions for their operation.