Übersicht der UV-Lampen und ihre Einsatzgebiete

Übersicht der UV-Lampen und ihre Einsatzgebiete

Übersicht der UV-Lampen
und ihre Einsatzgebiete
Darmstadt, 15. Oktober 2009
Alex Voronov
UV-Strahlertechnologie
GOAL
to give an overview for existing UV-lamps
and their application areas
Dr Voronov
page 2
UV-Strahlertechnologie
OUTLINE
UV-Light
UV-Light Sources based on Mercury Vapor Discharge
Mercury free UV-Light Sources
Application Areas
Dr Voronov
page 3
UV-Strahlertechnologie
UV-Light
Dr Voronov
UV-A
UV-B
UV-C
V-UV
315 – 380 nm
280 – 315 nm
200 – 280 nm
100 – 200 nm
3.3 – 4.0 eV
4.0 – 4.4 eV
4.4 – 6.2 eV
6.2 – 12.4 eV
page 4
UV-Strahlertechnologie
Photolysis of Organic Matter
N–C λ < 397 nm
C–S λ < 446 nm
C11H26NO2PS
P–S λ < 320 nm
Decomposition Threshold
Dr Voronov
page 5
UV-Strahlertechnologie
Dissociation of Organic
Bonds by UV-Light
Dr Voronov
page 6
UV-Strahlertechnologie
Application Fields of UV-Light
UV-Light
Water/Air
Treatment,
Disinfection
Dr Voronov
Surface
Treatment,
Modification
Ink Curing
in Printing
Industry
Tanning,
Medicine
page 7
UV-Strahlertechnologie
UV-Light Sources
Low Pressure Mercury Lamps
Medium Pressure Mercury Lamps
UV-Light
Excimer Lamps
Flash Lamps
LED
Dr Voronov
page 8
Medium Pressure Lamps
UV-Strahlertechnologie
Medium Pressure Lamp
Spectral Irradiance, W/m2 nm
mHg~ 100 mg
Pel ~10 kW
2.00
200-300 nm, η=15%
1.00
0.00
200
220
240
260
280
300
λ , nm
Dr Voronov
page 10
UV-Strahlertechnologie
Spectrum of MP Lamp and DNA Absorption
2
Spectral Irradiance, W/m nm
2.0
DNA absorption
1.0
0.0
200
Medium Pressure Mercury Lamp
225
250
275
300
λ, nm
Dr Voronov
page 11
UV-Strahlertechnologie
MP Lamps for Water Disinfection
Dr Voronov
page 12
UV-Strahlertechnologie
MP Lamps – Spectra in UV-A and UV-B Regions
Spectral Irradiance, W/m2 nm
4.00
UV-C
UV-B
UV-A
300
350
3.00
2.00
1.00
0.00
200
Dr Voronov
250
λ , nm
400
450
500
page 13
UV-Strahlertechnologie
Absorption Spectra of Photoinitiators
Medium Pressure Mercury
Excimer 308 nm
Dr Voronov
page 14
UV-Strahlertechnologie
Printing Industry
Ink Curing
in Printing
Industry
Medium Pressure: 280-400 nm
Dr Voronov
page 15
Low Pressure Lamps
UV-Strahlertechnologie
Low Pressure Lamp
mHg ~ 10 µg
Pel ~ 300 W
Intensity, a.u.
1.00
254 nm, efficiency=35%
0.75
0.50
185 nm, efficiency=10%
0.25
0.00
150
175
200
225
250
275
300
λ, nm
Dr Voronov
page 17
UV-Strahlertechnologie
Spectrum of Hg-Lamps and DNA Absorption
Intensity, a.u.
1.00 absorption
DNA
0.75
Low Pressure Mercury Lamp
0.50
0.25
0.00
200
225
250
275
300
λ, nm
Dr Voronov
page 19
UV-Strahlertechnologie
DNA Destruction
Dr Voronov
page 20
UV-Strahlertechnologie
Water Disinfection
Low Pressure Lamp: 254 nm
Dr Voronov
page 21
UV-Strahlertechnologie
Air Treatment - Kitchen Hoods
Dr Voronov
page 22
UV-Strahlertechnologie
Air Treatment - Kitchen Hoods
185 nm
Dr Voronov
page 23
UV-Strahlertechnologie
Molecular Structure of Fat
Decomposition Threshold
C–H λ < 293 nm
C–O λ < 339 nm
C=O λ < 162 nm
Dr Voronov
page 24
UV-Strahlertechnologie
Bond Strength vs. Photon Energy
9
C=O
7
C=C
6
O-O
5
O-H
C-H
3
2
1
0
150
Dr Voronov
C-C
C-O
254 nm
4
185 nm
bond strength, eV
8
200
250
300
λ, nm
350
400
page 25
UV-Strahlertechnologie
Xe2* Excimer Lamp (172 nm)
Dr Voronov
page 26
UV-Strahlertechnologie
Excimer Molecule
Xe
Xe*
Excited Dimer
Life Time ~ ns
Dr Voronov
Seite 27
UV-Strahlertechnologie
Excimer Molecule Xe2*
E
attraction
3
Xe
Xe*
*
2
Xe
repulsion
1
r
Σ u+
Σ +g
Xe+ Xe
internuclear distance, r
Dr Voronov
Seite 28
UV-Strahlertechnologie
Emission at 172 nm
*
excimer Xe2 spectrum
E
400
+
u
Σ
172 nm
300
int, a.u.
3
200
∆λ1/2 =
20 nm
100
1
r
Dr Voronov
Σ
+
g
0
150
250
350
450
550
650
750
850
λ, nm
Seite 29
UV-Strahlertechnologie
LCD Cross Section
Dr Voronov
page 30
UV-Strahlertechnologie
VUV-Light, λ=172 nm
Removal of Cleaning Agents
Surface Conditioning
Polymer Removal
Dr Voronov
page 31
UV-Strahlertechnologie
Quartz Destruction by Photons
Dr Voronov
Seite 32
UV-Strahlertechnologie
Excimer Lamps:
Mercury Free UV-Light Sources
Dr Voronov
page 33
UV-Strahlertechnologie
Excimer Molecule Rare Gas + Halogen
High Emission Efficiency Condition:
Light Halogen + Heavy Rare Gas Atom
Dr Voronov
Seite 34
UV-Strahlertechnologie
Excimer Molecule Rare Gas + Halogen
Dr Voronov
Seite 35
UV-Strahlertechnologie
Excimer Spectra: Rare Gas + Halogen
207nm
222nm
248nm
XeBr*
KrCl*
253nm
282nm
KrF*
XeI*
XeCl*
XeF*
308nm
351nm
Dr Voronov
Seite 36
UV-Strahlertechnologie
XeCl* (308 nm) for Treatment of Psoriasis
Dr Voronov
page 37
UV-Strahlertechnologie
KrCl* (222 nm) for Surface Disinfection
UV-absorption of H2O2
6
cross section, cm2 x10^
x10^-19
5
H2O2 + hν (222 nm) → 2 •OH
4
3
2
1
0
200
210
220
230
240
250
260
270
280
λ , nm
Dr Voronov
page 38
UV-Strahlertechnologie
Barrier discharge lamp
Cquartz
Rdischarge
Cquartz
Dr Voronov
Seite 39
UV-Strahlertechnologie
Dielectric Barrier Discharge
Dr Voronov
page 40
UV-Strahlertechnologie
Barrier Discharge: Operation
Cquartz
Uo
Rdischarge
Cquartz
Dr Voronov
page 41
UV-Strahlertechnologie
Mesh Electrode of DBD Lamp
Dr Voronov
page 42
UV-Strahlertechnologie
Spiral Electrodes of a DBD Lamp
Dr Voronov
page 43
UV-Strahlertechnologie
Conclusions
Dr Voronov
page 44
UV-Strahlertechnologie
Application Areas of UV-Lamp
UV-Light
Water/Air
Treatment,
Disinfection
Dr Voronov
Surface
Treatment,
Modification
Ink Curing
in Printing
Industry
Tanning,
Medicine
page 45
UV-Strahlertechnologie
Thank You for Your Attention!
Dr Voronov
page 46