h2 production from biomass feedstocks utilising a … clough.pdf · peter clough, liya zheng, paul...
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Peter Clough, Liya Zheng, Paul Fennell
H2 Production from Biomass Feedstocks
Utilising a Spout-Fluidised Bed Reactor
[email protected], [email protected]
75th IEA-FBC Meeting
Skive, Denmark
23th-25th October 2017
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What are the uses of H2?
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Electrical4%
Natural Gas48%
Oil30%
Coal18%
World H2 production: ~55 Mt/yr (2015)
http://hydrogeneurope.eu/wp-content/uploads/2017/01/20170109-HYDROGEN-COUNCIL-Vision-document-FINAL-HR.pdf
How is H2 produced?
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SMR process description
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Better option
SMR + CaL = SER
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SER process description - Simplified
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SER process description
𝐶𝐻1.6𝑂0.8 + 1.2𝐻2𝑂 + 𝐶𝑎𝑂 →2𝐻2 + 𝐶𝑎𝐶𝑂3
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SER process description
𝐶𝐻1.6𝑂0.8 + 1.2𝐻2𝑂 + 𝐶𝑎𝑂 →2𝐻2 + 𝐶𝑎𝐶𝑂3
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SER process description
𝐶𝐻1.6𝑂0.8 + 1.2𝐻2𝑂 + 𝐶𝑎𝑂 →2𝐻2 + 𝐶𝑎𝐶𝑂3
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Reactor design
Feeding U-bend
HPLC pump
Steam generator
Furnace control box
Cooling jacket
Flare stack
Reactor furnace
Biomass feeding
system
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Reactor Design and Construction
/ cm
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Biomass/Coal feeding system
Rotary hopper
feeder
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Combined Particles
CaO NiCombined sorbent
and catalyst particle
CO2 sorbent Reforming catalyst
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Catalyst
&
Sorbent
Biomass
Devolatilisation
Reforming,
Tar Cracking & Carbonation
Diffusion
Internal
Diffusion
H2 Enriched
Gas
H2 Enriched
GasVolatile
Matter
Volatile
Matter
b
Catalyst Sorbent
Volatile
Matter
Volatile
Matter
Biomass
Reformed
Gas
Reformed
Gas
Devolatilisation
Reforming and
Tar Cracking
Carbonation
H2 Enriched
Gas
H2 Enriched
Gas
DiffusionDiffusion
a
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Sorbent and catalyst materials
• Maximise
– Particle porosity
– Similarity of reaction kinetics for
carbonation and reforming
– Sorbent carrying capacity
– Particle and individual component lifetime
– Particle strength
– Resistance to attrition
– Ability to reuse/recycle spent material
• Minimise
– Material sintering
– Pore blocking/product layer resistances
– Unintended inter-component interaction
– Expense, difficulty and time to manufacture
– The quantity of unreactive material
Materials preparation
method
Low-engineeredWet granulation (mechanical
mixing)
Hydrolysis
Wet impregnation
Spray drying / freeze drying
Co-precipitation
Highly-engineered Sol-gel
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Unsupported material preparation method
NiO
CaO
H2OCaO +
NiOCaO +
NiCa(OH)2
+ NiO
Hydration
and wet
mixing
Extrude paste
into particles,
dry and calcine
Hydrogen
reduction
before use
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Supported material preparation method
Degradation study of a novel polymorphic sorbent under realistic post-combustion conditions
https://doi.org/10.1016/j.fuel.2016.08.098
NiO
CaO
H2O/H+CaO + C2S + NiO
CaO + C2S +
Ni
Ca(OH)2
+ NiO + H4SiO4
Hydration
and wet
mixing
Extrude paste
into particles,
dry and calcine
Hydrogen
reduction
before use
TEOS/SiO2
H4SiO4
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Calcium looping carrying capacity
supported and unsupported combined particles
C2S supported combined particle (CaO and NiO, 300 - 500 µm) CO2 carrying
capacity in moles of CO2 absorbed per mole of CaO as a percentage.
Carbonation – 650 °C, 15 vol.% CO2
N2 balance, 5 minutes
Calcination – 950 °C, 100 vol.% CO2,
1 minute
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SER reaction conditions
Conditions:
• 650 °C ± 8 °C
• 1 atm
• Steam 20 vol.%, N2 balance S:C = 1.2
• U/Umf ≈ 3
• 80 cm3/s @ 293 K
• Bed of sand, CaO and Ni (content and particle sizes varied)
• 0.9 g/min Oak biomass (212 - 300 µm)
• NiO Ni reduction @ 650 °C for 30 minutes in 5 vol.% H2
• Combined particles - 14, 26, 36 and 47 wt.% NiO = 11, 21, 28 and 37 wt.% Ni
Total amount of CO2 that could be produced from 1 min of biomass feeding:
~0.04 moles CO2 ∴ ≈ 1.9 g CaO
𝐶𝐻1.6𝑂0.8 + 1.2𝐻2𝑂 + 𝐶𝑎𝑂 → 2𝐻2 + 𝐶𝑎𝐶𝑂3
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Typical experimental profile
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300 - 500 µm
710 - 1000 µm
SER with unsupported combined particles
• Steady state period
• H2 vol.% greater with more Ni
• H2 vol.% greater with smaller particles
• Inefficient gasification or diffusional issues
• Approaches thermodynamic equilibrium
• FactSage – thermodynamic only
Particles
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SER with 26 wt.% NiO C2S supported combined particles
Gas purity / vol.% Gas yield / mmol/g biomass
CH4 decreased significantly with the addition of Si-based support
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SER with combined particles
• Average CO2 capture of 32.8 % for 300 – 500 µm – Unsupported particles
• Average CO2 capture of 55.7 % for 300 – 500 µm – C2S supported particles
• 60 mmol H2 / gbiomass ≈ 120 gH2/ kg biomass
• Average closure of 115.0 ± 10.7 % for C, H and O – C2S supported particles
• Average closure of 100.4 ± 15.4 % for C, H and O – Unsupported particles
• Unsupported and C2S supported 26 wt.% Ni produced 60 and 70 vol.% pure H2, respectively
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Operational issues
• Coking within the reactor
• Attrition of particles
• Coking on particles
Time
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Conclusions
• Combined NiO and CaO particles produced (some with C2S support)
• Tested SER within a fluidised bed reactor with solid biomass feeding
• Stoichiometric steam to carbon ratios
• H2 purity and yield did approach equilibrium
• Si-based support dramatically affected CH4 production
• Demonstrated ability to balance SER reactions with gasification
• Coking limited reactions and operation
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Peter Clough, Liya Zheng, Paul Fennell
H2 Production from Biomass Feedstocks
Utilising a Spout-Fluidised Bed Reactor
[email protected], [email protected]
75th IEA-FBC Meeting
Skive, Denmark
23th-25th October 2017