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Hardware Updates
• Light Scattering developments External trigger and software for ToF system
• Black carbon detection module SP2-AMS black carbon mass measurement.
• Lens Modeling and Testing
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Particle Lens Work
Leah William, Dagmar Trimborn, Sally Ng, Tim Onasch, Elena de la Rosa Blanco
ARI
Dahai Tang, Ken Smith MIT
Jennifer McInnisCornell University
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Aerodynamic Lens Systems Investigated Models and Measurements
• Standard lens• High Pressure lenses (PM2.5)• Nano-particle lenses (Wang/McMurray
design)• Inlet design, pin hole • Valve assembly design
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Model Studies Have Investigated:Standard lens• Effect of the lens pressure through a change of inlet pressure or a change
of the critical orifice sizeHigh Pressure lens• Effect of different valve assembly system• Effect of the lens aperture and nozzle diameterNano-particle lens (Wang et al 2005)• Effect of carrier gas molecular weight
For each of the 3 lens systems• Effect of laminar vs. turbulent model• Effect of different Brownian methods• FLUENT used for CFD calculations
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Particle Transmission versus Collection in Aerodynamic Lens
Aerodynamic Size
CE/
Tran
smis
sion
Target
TransmissionNo Collection
No Transmission or Collection
Large particle losses are controlled by the pin-hole
Small particle losses are controlled by geometry and Brownian diffusion
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Figure 10. Experimental results for DEHS (solid circles), NH4NO3 (triangles) and NaNO3 (squares) at an ambient pressure of 585 torr. The solid line is the Fluent modeling result for 585 torr and is re-plotted from Figure 7.
Liu, P.S.K., R. Deng, K.A. Smith, L.R. Williams, J.T. Jayne, M.R. Canagaratna, K. Moore, T.B. Onasch, D.R. Worsnop, and T. Deshler, Transmission Efficiency of an Aerodynamic Focusing Lens System: Comparison of Model Calculations and Laboratory Measurements for the Aerodyne Aerosol Mass Spectrometer, Aerosol Science and Technology, 41(8):721-733, 2006.
1.2
1.0
0.8
0.6
0.4
0.2
0.0
Lens
Tra
nsm
issi
on E
ffici
ency
EL
102 3 4 5 6 7 8 9
1002 3 4 5 6 7 8 9
10002
Dva (nm)
Mass Method: NH4NO3 DEHS NaNO3 Fluent
Results for Standard Lens
Liu et al. (2006)
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Figure 1a. Drawing of the lens system which is composed of the pinhole assembly, the valve body and the lens assembly.
450mm
3.8mm OD
7”, 178mm6.055”, 154mm
FEDCBA100 µm Orifice
15D
1.6mm ID
Figure 1b. Structure used in the Fluent simulations, including the lens system, particle flight chamber and vaporizer. The diameters of the apertures are given in Table 1.
Standard Lens System
Liu et al. (2006)
Must model the “System”
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-0.36 -0.30 -0.24 -0.18 -0.12 -0.06 0.00-0.015
-0.010
-0.005
0.000
0.005
0.010
0.015
Nozzle
Diameter of pinhole is 80/100/120 microns.Diameters of connection and lens tube are 4.4mm.Diameter of the nozzle is 1.0mm.
LensConnectionPinhole
Y (m
)
X (m)
Constant bore of 4.4 mm from orifice to lens entrance.“New Inlet”
HP Lens requires constant bore
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CFD Calculations and Experimental Measurements
Good agreement between calculated and measured transmission efficiency.
1.5
1.0
0.5
0.0
Tran
smis
sion
Effi
cien
cy
1012 3 4 5 6 7 8
1022 3 4 5 6 7 8
1032 3 4 5 6 7 8
104Dva [ nm ]
High Pressure Lens PSL from Atomizer Lens#0 PSL from Nebulizer Lens#0 PSL from Atomizer Lens#2 NH4NO3 Lens#2 NH4NO3 Lens#2 SN2
CFD calculations
HP Lens
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Effect of lens pressure for High Pressure lens
101 102 103 104
0.0
0.2
0.4
0.6
0.8
1.0
PLens[Torr] PInlet[Torr] Orifice [um] 18.6 760 120 13.3 760 100 7.1 760 70 9.3 504 100 7.2 385 100 5.3 261 100
Tran
smis
sion
Effi
cien
cy
dp [ nm ]
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Small Particle lens
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Nano-particle lens geometries
Four lenses
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Collection efficiencyC
E
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Effect of different Brownian models
McMurry “Nano” Lens Geometry
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Effect of carrier gas for nano-particle lens performance
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“Spot Measurements” for Visual Characterization of Lens Performance
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Keith and Frank….We have gotten really good at measuring
spots!
Isolation Valve and Removable Lucite rod
LensAMS Chamber
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Another way to look at focusing: BWP Data for HPLv2 SN5 and Standard Lens
2.0
1.5
1.0
0.5
0.0
Sig
nal (
arb.
uni
ts)
-2.0 -1.0 0.0 1.0 2.0BW P position (mm)
BW P Data for HPLv2 SN50.5 mm wireSize-selected NH4NO3
100 nm 300 nm 500 nm
40
30
20
10
0
Nor
mal
ized
sig
nal
-2.0 -1.0 0.0 1.0 2.0BWP Position (mm)
BW P Data for Standard Lens0.5 mm wireSize-selected NH4NO3
80 nm 150 nm 300 nm 450 nm
Red circle is projection of vaporizer on plexiglass surface.
Standard Lens
HP Lens
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Photographs of “Spots”Polydisperse NH4NO3 with different “Identical” HP lenses
SN #0 SN #1
SN #3SN #2
Machining tolerances are critical
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Lens #3, turned whole lens
270°
90°
0°
180°
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Lens SN#3, NH4NO3
100nm 250nm
500nm400nm300nm
200nm150nmpoly
450nm350nm
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HP V2 Lens, 3000nm
Trajectories for 3000 nm particles for HPLv2.
13 torr lens pressure
Impaction losses predicted on low pressure side of 100um pin hole
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Particle loss on the back plane of the critical orifice (NH4NO3,varied particle size, 5min)
300nm 400nm 500nm
800nm700nm600nm
Critical orifice - φ100um HP LensCollector
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Summary• Small particles focusing ultimately limited by Brownian diffusion.
• Large particle TE and CE limited by impaction. • Agreement between model and measurement is not perfect but agrees qualitatively. Need to refine calculations.
• HP lens cuts off too soon on small size end for ambient work.
• Overall goal is to “widen” the transmission window. Can we combine Standard and HP lens?
• Lens development is an ongoing effort.