the global climate and energy project - separation ......energy saving: 12% results process concept...
TRANSCRIPT
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Separation enhanced reactors for
de-carbonisation of fossil fuels
Peter Alderliesten & Daniel JansenEnergy research Centre of The Netherlands
Palo Alto , 26 April 2004
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Content
• Introduction - ECN- Relevant R&D programmes - De-carbonisation of fossil fuels
• Separation enhanced reactors- Why- Membrane reactors - Sorbent reactors
• Conclusions
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ECN
MissionWe develop high level knowledgeand technologies for a sustainable energy system
Priority areas:Energy efficiency & conservation• Solar PV• Wind• Biomass• Clean Fossil fuels & Fuel cell technology
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ECN (2)
ECN’s core competence and added value• Materials R&D • (electro)catalyst R&D• Process technology• System analyses
• Large and complex programmes and projects• Extended experimental facilities• Networks with universities and stakeholders
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Relevant ECN R&D programmes• Energy Efficiency in Industry
- Separation Technology• Inorganic membranes • Membrane reactors• Membrane processes
• Clean fossil fuels- H2 as energy carrier/fuel
• Production with CO2 capture• End-use for power production in gas turbines and fuel cells
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De-carbonisation of fossil fuels
• Natural gas to hydrogen- Steam reforming- Water gas shift- Hydrogen/CO2 separation
• Coal to hydrogen- Gasification- Water gas shift- Hydrogen/CO2 separation
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Separation enhanced reactors
Steam reforming: CH4 + H2O 3 H2 + CO (∆H = 206 kJ/mol)
Water-gas shift: CO + H2O H2 + CO2 (∆H = - 41 kJ/mol)
CH4 + 2 H2O 4 H2 + CO2
Steam reforming: CH4 + H2O 3 H2 + CO (∆H = 206 kJ/mol)
Water-gas shift: CO + H2O H2 + CO2 (∆H = - 41 kJ/mol)
CH4 + 2 H2O 4 H2 + CO2CH4 + 2 H2O 4 H2 + CO2
CH4 + H2O
H2 H2
CO2 + H2O
Pd-membranecatalyst
CH4 + H2OCH4 + H2O
H2 H2
CO2 + H2O
H2 H2
CO2 + H2O
Pd-membranecatalystcatalyst
14% CH4,86% H2O
SMR-cat.+
Adsorbent
14% CH4,86% H2O
SMR-cat.+
Adsorbent
•Membrane reactors •Sorption enhanced reactors
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SERWhy
• Advantages- integration of process steps thus
• lower temperatures• high product yield
- cheaper construction materials- compactness - energy savings
• Disadvantages- not yet proven technology- complex unit operation- less degree of freedom in design
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Membrane reactor R&D at ECN
Process concept
Selectivity
Preliminary membrane reactor requirements
Flux
Robustness
Reproducibility
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ResultsProcess concept hydrogen production for ammonia
Desulphurisation
Reformer1
Reformer2 HT Shift LT Shift
CO2 removalMethanation
Natural gas
Steam Air
Syngas(H2 + N2) CO2
Fuel gas
800 oC 980 oC480 oC 350 oC 200 oC
50 oC275 oC
H2OH2O
140 bar 30 bar
43 bar
Desulphurisation
Reformer1
Reformer2 HT Shift LT Shift
CO2 removalMethanation
Natural gas
Steam Air
Syngas(H2 + N2) CO2
Fuel gas
800 oC 980 oC480 oC 350 oC 200 oC
50 oC275 oC
H2OH2O
140 bar 30 bar
43 bar
Desulphurisation Membrane Reactor
Natural gas Steam
N2
Syngas(H2 + N2)
CO2 + H2OH2 H2 H2
Desulphurisation Membrane Reactor
Natural gas Steam
N2
Syngas(H2 + N2)
CO2 + H2OH2 H2 H2H2H2 H2H2 H2H2
Conventional
New scheme including membrane reactor
Energy saving: 12%
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ResultsProcess concept hydrogen for power generation
Air
FuelCO2+H2O
ReformerShift
membraanburner
H2+H2OH2 combustion
STEAM REFORMINGSHIFT-REACTiION
MembraneH2
H20
H20
Air
Recuperation waste heat
useg
Fuel
CO2 storageRefomer
ShiftMembrane
BurnerH2O
~Air
Recuperation waste heat
useg
Fuel
CO2 storageRefomer
ShiftMembrane
BurnerH2O
~
CO2 capture cost can be reduced with 50%
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ResultsPreliminary requirements
- High selective, high flux, membrane operating at 300- 500 C
- Hydrogen recovery >98%- Process membrane flux 50 ~100 kW(H2-eq.)- Membrane price ~ 1400 Euro/m2
- Membrane lifetime > 2 years
Approach- Development of asymmetric, thin layer Pd/alloy
membranes- Membrane/process testing- Basic unit design
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ResultsThin layer Pd alloy membranes
Production procedure:• Pd precursor variation
• Controlled nucleation
• Sequential electroless plating (growth)
• Annealing/alloying
Thin layer defect free membrane ~ 3 micron
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ResultsThin layer Pd alloy membranes (2)
80 cm
Metal substrate Ceramic substrate
1m2 scaleend-cap
connector
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ResultsPerformance measurements ECN Pd/Ag membranes
Pf= feed pressure in bara
Pp= permeate pressure in bara
0
20
40
60
80
100
120
200 250 300 350 400 450
Temperature (o C)
H 2 p
erm
eanc
e (m
3 /m2 hb
ar0.
5 )
Pf/Pp=24/3Pf/Pp=23/3Pf/Pp=11/3Pf/Pp=7/3
SMR-conditions• Stable operation
for 3 months
• SelectivityH2/CO2 ~ 4000
• Permeance 50 ~ 100 kW H2-eq
• T-Cycling in N2 o.k!
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9
ResultsAgeing !
Before use Ageing in hydrogen
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ResultsEquipment development: Module design and sealing
• 600°C, 150 bar
• Reducing atmosphere
200 Nm3/hr12 m2
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Conclusions and future work MR
• Conclusions- Pd/alloy membrane promising technology- Process concepts look feasible- Membranes are dynamic
• R&D issues near future- Performance: understanding flux/selectivity in operation- Stability: fouling, poisoning, material microstructure- Reproducibility: upscaling aspects- Detailed module design, construction, MR experiments
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Sorption enhanced reforming processbasic aspects
SER reactor 1:adsorption mode
PSA ?
CH4 + H2O
H2
SER reactor 2:desorption mode
CO2 + H2O High Temp. steam
• Cyclic batch operation• Steam-reforming/water-gas shift reaction• Pressure swing adsorption optional• Hydrotalcites as promising CO2-adsorbents
H2
Heat
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Results SERPBase case system analysis
High efficiency
• Three main challenges:- High conversion of CH4 (>98%) needed- Reduction of CO2 stripping steam < 3 moles steam / mole CO2
- 85% CO2 capture
• Approach- Improve/new catalyst and adsorbent- Process optimization (cycle times) - Innovative system configurations
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Results SERPCH4 conversion
4
5
6
7
8
9
0 20 40 60 80 100Cycle number
CO
2up
take
/rele
ase[
ml]
0%
20%
40%
60%
80%
100%
conv
ersi
on [%
]
adsorbed CO2
CH4 conversion
desorbed CO2
Equilibrium CH4 conversion @ 400°C
4
5
6
7
8
9
0 20 40 60 80 100Cycle number
CO
2up
take
/rele
ase[
ml]
0%
20%
40%
60%
80%
100%
conv
ersi
on [%
]
adsorbed CO2
CH4 conversion
desorbed CO2
Equilibrium CH4 conversion @ 400°CEquilibrium CH4 conversion @ 400°C
ECN catalyst/sorbent
•98% conversion at 400 oC until breakthrough of CO2
•85% CO2 capture
• Steam/CO2 ratio > 10
•Ad=des
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Results SERPLowering steam demand
• Modification of adsorbens:- Promising new hydrotalcites and
promoters found• Alkali metal carbonates
- Further development on going in co-operation with Utrecht University
• Process optimization:- Short cycle times- Dynamic modeling of
adsorption/desorption process
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Results SERP System Configurations
• System and pinch analysis, • Identification of innovative process
schemes with gas turbines and fuel cells
SERCH4 conversie = 66 %CH4 H2
CO2
PSAScheiding = 85 %
CH4Steam
H2
SER + REF + PSA
REFORMERCH4 conversie = 44 %
CH4H2
CH4
17 mol14680 kJ
(feed)
67 mol2669 kJ(feed)
+119 mol4751 kJ(purge)
11 mol
2720 kJ(rookgas)
3 mol2097 kJ
CH4
46 mol12864 kJ
Overall conversie = 85 %
η = 80 %
H2
8 mol2001 kJ
H2
Hot flue gas
steam1762 kJ 400 kJ
1588 kJ40 mol
(non-used steam)
17 mol14680 kJ(Bijstook)
H2O
SERCH4 conversie = 66 %
SER (ATR) + Compressor + Turbine
CH4 CH4,H2N2,CO
CO2
LP AIR
TurbineCompressor
Combustion Chamber
HP AIR
20 mol17901 kJ
(feed)+
2 mol2148 kJ(reactie)
122 mol4882 kJ(feed)
+117 mol4661 kJ(purge)
54 mol15037 kJ
(H2)+
7 mol6086 kJ(CH4)
17 mol
Rendement = ?? %
η = 80 %
Hot flue gas
Elec-tricity
Steam
1588 kJ40 mol
(non-used steam)
H2O
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Conclusions and future work SERP
• Conclusions- Methane conversion > 98% feasible at T=400 C- No breakthrough of CO2- CO2 removal efficiency of 85 % feasible- No hysterisis
• R&D issues- Steam/CO2 ratio < 3 (shallow ad- desorption mode)- ATR – SERP (GT application)- Preparation methode cat/sorbent combi- Sorbent lifetime
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Final
• Separation enhanced reactors - MR and SERP in progress- Next two years decisive
• Acknowledgements- Colleagues and co-workers
• Ruud v.d. Brink, Paul Pex, Yvonne van Delft, Lucy Correia, Jan Wilco Dijkstra and others
- GSEP for the invitation- Sponsors
• Dutch ministry of Economic Affairs, EU, e.o.