1: Hydrogen as Energy Vector · 2008-05-19 · Typical Installation of a Prereformer Feed from HDS...
Transcript of 1: Hydrogen as Energy Vector · 2008-05-19 · Typical Installation of a Prereformer Feed from HDS...
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Summer School, Girona, May 2008
Hydrogen. Advances and ChallengesJens Rostrup-Nielsen
1: Hydrogen as Energy Vector
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SNG from Naphtha (1966)
Methanation Feed (vol%). Inlet 1st Methanator
195625P, bar
1.236.436.22.04.7
19.4
DakotaSNG est.
1.20Inerts22.60H2O21.235.7CH4
4.110.2CO2
8.82.0CO42.152.1H2
TREMP / PH
SNGfrom
naphtha
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Hydrogen Production
Gas Station
Car
Refinery
Gasoline 5.2 $/GJH2 5.5 $/GJ
Gasoline 7 $/GJH2 20 $/GJ
Oil 25 $/bNG 3.5 $/MMBTU
Present Hydrogen Consumption
Petroleum refining
Ammonia production
Chemical industry
Rocket fuel
Annual consumption– US : 12 million t/yr
– World: 50 million t/yr
MeOHMisc.
Space
Refinery NH3
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Manufacture of Hydrogen Today
48% steam reforming of NG
30% refinery by-product
18% gasification of coal
4% electrolysis
IEA 2005
Economy of ScaleH2O/CH4
Air
H2O/CH4O2
Syngas
Air
H2O/CH4O2
Syngas
Log capacityLog capacity
Log costsLog costs TubularReforming
O2-plant
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CO2 Free Power Production
Syngasgenerator
&shift
Steamgeneration
Flue gas
to stackCO free2
H (N )2 2H ,CO
(N )2 2
2
Naturalgas
CO to sequestration2
Air
COcapture
2
2: Hydrogen by Steam Reforming
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Particle Migration and Coalescence
H2, 600°C
Ni/MgAl2O4
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Formation Formation ofof WhiskerWhisker CarbonCarbon in in SituSitu HRTEM HRTEM CHCH44/H/H22 = 1:1, P = 5 m bar, T = 720= 1:1, P = 5 m bar, T = 720°°C)C)
Typical Reformer Conditions for Hydrogen
16901560Xx oF
920850Texit, oC
2525P, bar
1.84.5H2O/C
NewConv.
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Hydrogen Plant. Simplified Scheme.
◄
H2-plant based on Steam Reforming of Natural Gas
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Hydrogen Production by Steam Reforming
Natural Gas: 3 USD / MM BTU
Natural Gas: 7 USD / MM BTU
100187
Capital10
Fixed25
Feed + fuel65
Capital10
Fixed25
Feed + fuel152
Hydrogen by Steam Reforming. (NG price: 3 USD/GJ)
13.59.66.75.5H2 costs (USD/GJ)
422111.99.4Investment (USD/GJ/y)
46.74661.173.2LHV efficiency (%)
340Liq.7878H2, pressure bar
SmallLargewith CCS
Large
IEA 2005
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H2 from SMR is very Efficient
CH4 + 2H2OliqReaction heat (298 K)Methane (LHV)Total
Theoretical min.
Practical value SMR:Energy efficiency:LHV efficiency:
CO2 + 4H2 - Q
12.6 GJ / 1000 Nm3 H294%94%85.7%85.7%
253 kJ / 4 mol H2803 kJ /4 mol H2
1056 kJ / 4 mol H2
11.8 GJ / 1000 Nm3
300 BTU / SCF H2
Steam Reforming ofHigher Hydrocarbons Mechanism
Ni Ni Ni Ni Ni Ni Ni Ni
CHx + OCHxCH2+
CO, H2Cn-2Hz
CnHm Olefins Coke
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Ethylene Formation in Fuel Processing
Pyrolysis (steam cracking)
CnHm → olefins + H2
Oxidative coupling
2CH4 + O2 = C2H4 + 2H2O
DehydrationC2H5OH = C2H4+ H2O
Pyrolysis (steam cracking)
CnHm → olefins + H2
Oxidative coupling
2CH4 + O2 = C2H4 + 2H2O
DehydrationC2H5OH = C2H4+ H2O
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Typical Installation of a Prereformer
Feed from HDS
Process steam
Prereformer
Waste heat channel
CO2 (optional)
Tubularreformer
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Sulfur Poisoning on Nickel
Besenbacher et al.
H2S + NiSurface S- NiSurface + H2
The Dream Reaction
CH4 + ½O2 = CO + 2H2 +38kJ/mol
CH4 + 2O2 = CO2 + 2H2O
CO + H2O = CO2 + H2O
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CatalyticCatalytic PartialPartial OxidationOxidation
210 Nm3/h CO + H2
CnHm ⇒ CO+2H2H2S ⇒ SO2
CH4+H2O CO+3H2CO+H2O CO2+H2
SO2 ⇒ H2S
O2
H2
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Sulphur Reactions on Reforming Catalysts
Ni + H2S = Ni-S + H2
Ni-S + 1.5 O2 = NiO + SO2
SO2+3H2 = H2S + H2O
Rh + H2S = Rh-S + H2
Rh-S + O2 = Rh + SO2
Ni + H2S = Ni-S + H2
Ni-S + 1.5 O2 = NiO + SO2
SOSO22+3H+3H22 == HH22S + HS + H22OO
Rh + H2S = Rh-S + H2
Rh-S + O2 = Rh + SO2
3: Alternative Fuels
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Routes for Hydrogen Production
Nuclear energy Fossil energy Renewable energy
BiomassHeat
Mechanicalenergy Heat Photo-
elec-tro-
lysis
Fer-men-tation
Nuclear energy Electricity
Biophoto-lysis
ElectrolysisChemical conversionElectrolysisThermo-lysis
Hydrogen
CO2-free Hydrogen
Wind
Nuclear
Solar
ElElectrolysis
H2
O2
Biomass
H2
WindNuclear
Solar
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Overall Efficiency may be Doubtful
Power 100%
H2 by electrolysis 80%
Liquefaction 70%
Fuel cell 50%
PowerTotal 28%
Stolten, Jülich
Solar Energy
Heat
El
H2
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H2 from Biomass
Biomass
Gasification
EOH
H2
H2
Sugars
Process Routes for Conversionof Carbohydrates to Fuels
BiomassSugars,glycol,etc.
Fermentation
Reforming
Catalytic processing
14%EOH
93%EOH
Fuel Fuel
(25% EOH)
Science 308(2005) 1422
“CH2”
H2
EOH
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Coal Conversion
Gasifier Conversion02
Coal
CO2 for seque-stration
H2, synfuels
4: Are we on the right track?
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Main Issues for H2 - Economy
H2 storage
H2 transportation
CO2 sequestration
Renewable energy (solar)
Cheap, reliable fuel cells
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Fuel Cell Conversion. Direct or Indirect
Relative Exergy, Ideal conditions, 25°CHeat input by combustion
CH4 el1.0
4H2
1.130.32
Fuels via Synhesis Gas
Natural gasCoalBiomass
Syngas
Science 308(2005) 1421
ICE and CO2
Fuel cell cars
Synfuel
H2
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Electrons or Hydrogen or ?
Elgrid
Electriccars
FCcars
ICEcars
Wind
Bio
Natural gas
H2
A Future for a Hydrogen Economy?