Experimental investigation of the reverse water-gas shift reaction … · 2017. 10. 25. · DLR.de...
Transcript of Experimental investigation of the reverse water-gas shift reaction … · 2017. 10. 25. · DLR.de...
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Experimental investigation of the reverse
water-gas shift reaction at high temperature
and elevated pressure
Sandra Adelung, Torsten Ascher, Fabian Klein, Ralph-Uwe Dietrich
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Motivation: IATA Technology Roadmap
4. Edition, June 2013
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 2
3
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Motivation: IATA Technology Roadmap
4. Edition, June 2013
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 3
Main goals:
Improvement of fuel
efficiency about 1.5 %
p.a. until 2020
Carbon-neutral
growth from 2020
50 % reduction of
CO2 emissions by
2050
1
2
3
1 2
3
Closing the gap: ICAO vision (2017) → “Power-to-Liquids:
Sustainable alternative fuels produced from renewable electricity”
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Power-to-Liquid Process
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 4
CO2
3 H2
Electrolysis
Quelle: DLR
Production
of Syngas
CO
+
2 H2
Fischer-
Tropsch-
Synthesis
Liquid
Fuels
Carbon source:
• Power/ Industrial Plant
• Air
CO2 capture
• high volumetric
energy density
• easy to handle
• existing
infrastructure
𝑅𝑊𝐺𝑆: 𝐶𝑂2 + 𝑯𝟐 ⇌ 𝐶𝑂 + 𝑯𝟐𝑶 △ 𝑅𝐻0
298 = 𝟒𝟏 𝒌𝑱/𝒎𝒐𝒍
CO2, H2, light hydrocarbons, CO, H2O
Renewable electricity:
• Solar
• Wind
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Increasing temperature…
→ Temperature range: 700-900 °C
Decreasing pressure…
→ Pressure range: 1-25 bar (FTS at 25 bar)
Power-to-Liquid Process – RWGS operating conditions
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 5
0
0,05
0,1
0,15
0,2
0,25
300 500 700 900 1100
Mo
lar
frac
tio
n /
(m
ol/
mo
l)
Temperature / °C
CO_Equilibrium
1 bar 25 bar
• Reaction kinetics • Equilibrium composition
• Less coke, CH4 • More CO
• Material • Catalyst sintering • High costs for reactor
• Thermal energy demand?
• Equilibrium composition • Less coke, CH4 • More CO
• Higher work-input for compression of recycle stream
Feed: H2/CO2 = 3
Most investigations at elevated pressure use high
temperature steel or stainless steel reactors
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• Bustamente et al. (2004) found high CO2 conversion in an Inconel reactor
RWGS in Inconel 600 reactor
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 7
• Conversion was found to be 2
orders of magnitude higher than
in quartz glass reactor
• Inconel 600: approx. 72 % Ni-
content, Nickel catalyzes
reaction
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RWGS in stainless steel reactor
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 8
• H2/CO2 = 1.7
• Residence time τ ≈ 5 s
• Pressure p = 1.5 bar
Stainless steel (1.4571) with 10.5-13.5 % Nickel content
• Equilibrium composition (Gibbs in Aspen Plus with CO, CH4 and C as
possible products) reached for T > 600 °C
• To investigate performance of catalyst: High temperature zones must
be inert (e.g. by using quartz glass)
1E-03
1E-02
1E-01
1E+00
200 400 600 800
CO
2 co
nve
rsio
n /
-
Temperature / °C
Equilibrium
Experiment
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Novel reactor concept
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 10
Challenges:
• High temperature zone: inert
• Thermal expansion (Glass vs. Metal)
• High stress for reactor wall due to high temperature and elevated pressure
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Novel reactor concept
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 11
Challenges:
• High temperature zone: inert
• Thermal expansion (Glass vs. Metal)
• High stress for reactor wall due to high temperature and elevated pressure
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Novel reactor concept
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 12
Challenges:
• High temperature zone: inert
• Thermal expansion (Glass vs. Metal)
• High stress for reactor wall due to high temperature and elevated pressure
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Novel reactor concept
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 13
Challenges:
• High temperature zone: inert
• Thermal expansion (Glass vs. Metal)
• High stress for reactor wall due to high temperature and elevated pressure
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Novel reactor concept
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 14
Challenges:
• High temperature zone: inert
• Thermal expansion (Glass vs. Metal)
• High stress for reactor wall due to high temperature and elevated pressure
T >>
∆p <<
T <<
∆p >>
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Reactor setup
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 15
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Process scheme
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 16
H₂O reservoir
filter 1
vaporiser
condensatereservoir
aerosolfilter
TH2O
TMIX
coolingtrap
F
gas analysis
exhaust air
MFC CO2
LFM H₂O
MFM product gas
TOUT
MFC CO
MFC H2
MFC CH4
PI-2
PI-1
MFC N2
MFC syn. Air
gas bag for GC
analysis
PI-2
PI-4
PI-2
PI-3
TGAS
TVOR
TWENDEL
TK1 TK2
reactor
quartz glass
isolation
pump
TIN
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Experimental results in new reactor
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 17
• H2/CO2 = 2
• Residence time τ ≈ 2 s
• Pressure p = 25 bar
1E-03
1E-02
1E-01
1E+00
650 750 850 950
CO
2 c
on
vers
ion
/ -
Temperature / °C
Equilibrium
Experiment
• Before: equilibrium composition reached above 600 °C
• With new setup:
• CO2 conversion in empty tube can be decreased significantly (below 2 %)
• Catalyst’s performance can be investigated with new reactor
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First results with noble catalyst (0.1 g catalyst)
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 18
0
0,1
0,2
0,3
0,4
0,5
0,6
0,7
0,8
0,9
600 650 700 750 800 850 900 950 1000
CO
2 c
on
vers
ion
/ -
Temperature / °C
Feed 2 Equil 2 Feed 1 Equil 1 Feed 3 Equil 3
Feed p Vtot H2 CO2
bar LN/min LN/min LN/min
1 25 10 4 2
2 25 10 2 1
3 25 20 4 2
CO2 conversion reaches 50-60 %
of equilibrium conversion
Concentration doubled: slight
increase in CO2 conversion
Residence time halved: significant
decrease in CO2 conversion
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Summary
• Investigation of RWGS at elevated pressure relevant in PTL concept
• RWGS significantly catalyzed by stainless steel
• New reactor concept allows investigation of catalyst‘s performance
at up to 900 °C and up to 25 bar
Outlook
• Kinetic performance of monolithic catalysts?
• Coke formation?
Summary and Outlook
> Experimental investigation of the reverse water-gas shift reaction at high temperature and elevated pressure > Sandra Adelung • WCCE10 DLR.de • Chart 19
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Thank you for your attention
Sandra Adelung
Institute of Engineering Thermodynamics
German Aerospace Center