chemical hydrogen storage: control of h ammonia …...chemical hydrogen storage: control of h2...
TRANSCRIPT
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Chemical Hydrogen Storage: Control of H2 Release from
Ammonia Borane
Chemical Hydrogen Storage: Chemical Hydrogen Storage: Control of HControl of H22 Release from Release from
Ammonia Ammonia BoraneBorane
Tom Autrey, Anna Gutowska, Liyu Li, MaciejGutowski, John Linehan.
Pacific Northwest National Laboratory
EERE Program Review 5/24/04(This presentation does not contain any proprietary or confidential information)
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ObjectivesObjectives•Hypothesis: Nano phase hydrogen storage materials will have different thermodynamic and kinetic properties compared to bulk hydrogen storage materials.
•Nano particles of Hydrogen Storage material
–Control Reactivity (enhanced rate of H2 release)–Control Selectivity (prevent Borazine formation)–Can we prevent fusion of the nanoparticles as the reaction proceeds? (Don’t want to lose nanoproperties)
•Use Mesoporous Scaffolds
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Gravimetric Density
year 2010 2015
KWh/kg 2 3
MJ/kg 7.2 10.8
gm/kg 60 90
Volumetric Density
year 2010 2015
KWh/liter 1.5 2.7
MJ/liter 5.4 9.7
gm/liter 45 81Operational temperature: -20 < ˚C < 80
On-board hydrogen storage for FC vehicles
Material with 9 wt% H2 that releases H2 < 80˚ C
Technical Barriers and TargetsTechnical Barriers and TargetsTechnical Barriers and Targets
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NHxBHx: Stores significant quantity of hydrogen (6 wt%/step)NHNHxxBHBHxx: Stores significant quantity of hydrogen (6 wt%/step): Stores significant quantity of hydrogen (6 wt%/step)
Wt% H2 T (˚C)NH4BH4 NH3BH3 + H2 6.1 <25NH3BH3 NH2BH2 + H2 6.5 <120NH2BH2 NHBH + H2 6.9 >120NHBH BN + H2 7.3 >500
Approach: Approach: NanophaseNanophase BNH compoundsBNH compounds
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How does NH3BH3 embedded in a mesoporousscaffold compare to bulk NH3BH3?
How does NHHow does NH33BHBH33 embedded in a embedded in a mesoporousmesoporousscaffold compare to bulk NHscaffold compare to bulk NH33BHBH33??
Minimize Borazine formation?Change Thermochemistry?Change kinetics?
TEM/BET/EDXMaterial Characterization (Surface area, porosity)
DSC/MS (differential scanning calorimetry/mass spec)Volatile productsThermodynamicsKinetics
Solid State NMR 11BProduct identityKinetics
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Project Safety Project Safety Project Safety
Use safe handling procedures as outlined by MSDS
In experiments where hydrogen is released, large quantities of inert gas are used to avoid any build up in concentration of hydrogen.
Materials are treated with dilute acid at conclusion of experiments to destroy any residual hydrogen.
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MS = 79,80, 81
MS = 2
No borazine detected from thermolysis of AB in SBA-15! Is it stuck in Scaffold?
Volatile Products from NH3BH3 in Mesoporous scaffold
Volatile Products from NHVolatile Products from NH33BHBH3 3 in in MesoporousMesoporous scaffoldscaffold
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Increase the Temperature Increase the rate of H2 release
Increase the Temperature Increase the rate Increase the Temperature Increase the rate of Hof H22 releaserelease
-0.04
-0.03
-0.02
-0.01
0
0.01
0.02
0 50 100 150 200 250 300 350 400
heat (60)heat (55)heat (50)
heat
time (min)
Ammonia borane in SBA-15
50˚C55˚C60˚C
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-4.0
-3.0
-2.0
-1.0
0.0
1.1 1.15 1.2 1.25 1.3 1.35 1.4
Comparison of H2 Release: AB versus mesoporous ABComparison of HComparison of H22 Release: AB versus Release: AB versus mesoporousmesoporous ABAB
Rate of hydrogen release is 1 to 2 orders of magnitude faster with mesoporous scaffold
70˚C
1/temperature
Log
(1/τ
1/2)
(Freiberg)
(PNNL)
(PNNL)
AB:SBA-15 1:1 wt:wtAB neat
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SummarySummarySummary
Control of selectivity of H2 release from ABSBA-15 appears to guide NH3BH3 towards linear polymer formation.No borazine seen in volatile products or left behind in scaffold.No cyclized products observed in NMR and DSC data show process is less exothermic
Control of reactivity for H2 release from AB1-2 orders of magnitude faster!
H2 release from NH3BH3 in Mesoporous scaffolds:
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65 Å
Vary pore diameter 60-300 nm Coat nano particles (in vs. out)
Thin films (curvature) Cover Si-OH (alkane)
More detailed kinetic studies
Future Efforts
Surface interactions? Radius of curvature?
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CollaboratorsCollaboratorsCollaboratorsY Shin, S Li SBA-15C Wang TEMJ Coleman SEMD Matson SynthesisJ Fulton, Y Chen XAFSS Addleman G Fryxell MesosS Smith, B Kay KineticsW Shaw, C Yonker NMR
R Williford ModelingV Viswanathan Fuel CellsG Whyatt Systems EngK Peterson Hi PressureN Baer purificationJ Franz, D Camaioni, D Schubert, L Sneddon, T Baker Chemistry
PNNL FY04 NanoScience & Technology Initiative
AcknowledgementAcknowledgement