recycling von nanopartikeln - Ökopol · 9 enrichment magnetic separation of spions scale-up for...
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Recycling von Nanopartikeln
Aktuelle Entwicklungen
Prof. Dr.-Ing. Jorg Thöming
Zentrum für Umweltforschung und nachhaltige Technologien - UFT
Universität Bremen
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Chance
greenNano
Methods
Risk
Testsysteme zur Analyse der biologischen Wirkung von Nanomaterialien 1) Gehirnzellen: Astrozyten (grün) Mikroglia (rot) und Zellkerne (blau); 2) Vibrio fischeri (Leuchtbakterium);
3) Daphnia magna (Großer Wasserfloh, Nano-Eisenoxid im Verdauungstrakt sichtbar); 4) Folsomia candida (Springschwanz); 5) Algenzucht
50 nm50 nm
UFT research focus
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Nanoparticles in the environment
have existed ever since…
However, engineered nanoparticles have not
http://photocompetition.upclive.com http://www.photolib.noaa.gov
Ball lightning: Nature 403, 519-521 (2000)
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Produkt Product Production
Residues (Re-)Use
Recovery
Raw mat.
SPIONs
Use
Product example:
Recycling
Superparamagnetic
iron oxide
Waste
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NP recovery / %
Returns Revenues (NP value)
Capital & operational
expenditures
20 80 60 40
Cost
Benefit
Max
Recovery of NP – A Question of Return on Invest
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Recovery: Enrichment & Fractionation
Fractionation
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Platinum
Iron oxide
Recovery of nanoparticles – processes available?
• NPs in solid matrix Milling + fractionation
• (Superpara)Magnetic NPs Selective enrichment
SPIONs
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Scale-up for recycling
possible
SPIONs Liquid Magnet
Magnetic separation of SPIONs: selective enrichment
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Enrichment
Magnetic separation of SPIONs
Scale-up for recycling
possible
Kainz Q. M., Linhardt R., Maity P. K., Hanson P. R.,
Reiser O., 2013 Ring-Opening Metathesis
Polymerization-based Recyclable Magnetic
Acylation Reagents, ChemSusChem, 6:721
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Enrichment
Magnetic separation of SPIONs
Scale-up for recycling
possible
Linhardt R., Kainz Q., Grass R., Stark W., Reiser O.,
Palladium nanoparticles supported on ionic liquid
modified, magnetic nanobeads - recyclable, high-
capacity catalysts for alkene hydrogenation, RSC
Advances , 4:8541-8549
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Platinum
Iron oxide
• NPs in solid matrix Milling + fractionation
• (Superpara)Magnetic NPs Selective enrichment
• NPs dispersed in liquid Enrichment + fractionation
SPIONs
Ag-NP
Recovery of nanoparticles – processes available?
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Feed
Ag-NP Retentate
Permeate
Dispersion
Ag-NP for Reuse
Waste-
water
Enrichment of nanoparticles dispersed in a liquid
Obstacle: Membrane fouling
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Enrichment of nanoparticles dispersed in a liquid
Solvent extraction
Multi stage process: (too) expensive Here: cloud point extraction with non-ionic surfactant mixtures
R.C. Flagan, Annu. Rev. Chem. Biomol. Eng., 5, pp. 255-279, 2014
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Nanoparticles dispersed in a liquid
Enrichment using dielectrics
Switchable filter (UFT)
Pesch et al. (2014) Sep. Pur. Tech., 132, 728–735
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Platinum
Iron oxide
• NPs in solid matrix Milling + fractionation
• (Superpara)Magnetic NPs Selective enrichment
• NPs dispersed in liquid Enrichment + fractionation
SPIONs
Ag-NP
Recovery of nanoparticles – processes available?
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Particle analysis: Asymmetrical Flow Field-Flow Fractionation, AFFFF
itwm.fraunhofer.de
Scale-up for recycling
questionable
Nanoparticles dispersed in a liquid
Fractionation
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Nanoparticles dispersed in a liquid
Fractionation using dielectricity
DEP
Gh
~
DEP
Ghh
~
Drag
suspension
Fluid flow
v0
x
y
SIDEs
(electrodes)
SIDE-separator (UFT)
Scale-up for recycling
to be developed
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Platinum
Iron oxide
• NPs in solid matrix Milling + fractionation
• (Superpara)Magnetic NPs Selective enrichment
• NPs dispersed in liquid Enrichment + fractionation
• NPs dispersed in gas (aerosol) Enrichment + fractionation
SPIONs
Ag-NP
Recovery of nanoparticles – processes available?
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Enrichment of NP from aerosols
Differential Mobility Analyzer
S. Zhang, Y. Akutsu, L.M. Russell, R.C. Flagan, J.H. Seinfeld, Aerosol
Science and Technology, 23:3, pp.357-372, 1995
• Radial flow DMA (RDMA)
• Measurment range 1nm – 1 µm
• Opposite ring electrodes
Scale-up for recycling
questionable
+
-
+
-
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10 0
10 1
10 2
0.02
0.04
0.06
0.08
0.1
0.12
0.14
Particle diameter dp / [nm]
Sep
ara
tion
effic
ien
cy η
/ [
-]
+1 Charge +2 Charge
*) Y. Kousaka, K. Okuyama, M. Adachi, Aerosol Sci Tech,
Vol. 4, No. 2, pp. 209-255, 1985
Ideal* separation efficiency
np number of particles carrying p charges
calculated according to Kousaka et al.*
nt total number of particles
Limitations of DMA efficiency
𝜂 =2 𝑛𝑃
3 𝑛𝑡
Enrichment of NP from aerosols
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Folgerungen
• Element-Recycling Bsp.: Sortierung, Pyro-/Hydrometallurgie
• Recycling (superpara)magnetischer NPs
• Recycling dispergierter NP
• Wirtschaftliches Recycling erfordert neue Technologie
+
-
+
-