2245-5 Joint ICTP-IAEA Advanced School on the...
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2245-5
Joint ICTP-IAEA Advanced School on the Role of Nuclear Technology in Hydrogen-Based Energy Systems
J. Huot
13 - 18 June 2011
Universite du Quebec a Trois-Rivieres Canada
& Institute for Energy Technology
Norway
Basics of metal hydrides
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Joint ICTP-IAEA Advanced School on the Role of Nuclear Technology in Hydrogen-Based Energy Systems Trieste – Italy, 13 – 18 June 2011
Basics of metal hydridesJ. Huot
Université du Québec à Trois-Rivières
Present address: Institute for Energy Technology, Norway
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History
• T. Graham (1866) – Metal palladium absorbs hydrogen– Hydrogen can permeate Pd-membranes
• Reilly and Wiswall (1968)– Mg2Ni, FeTi
• Van Vucht, Kuijpers and Bruning (1970)– LaNi5
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Applications of MH
• Hydrogen storage• Purification/separation• Isotope separation• Hydrogen getters• Hydrogen compression• Heat storage• Heat pumps and refrigerators• Temperature sensors and actuators• Liquid H2 (boil-off losses)• Batteries electrodes• Permanent magnet production• Neutron moderators• Switchable Mirrors
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Hydrogen storage
System Hydrogenmol H2 dm-3
Hydrogenwt.%
Gas (273K, 1 bar) 0.045 100
pressure (150 bar) 6.7 1.2
LH2 (20K) 35 100
MgH2 55 7.7
LaNi5H6 52 1.4
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Metal Hydrides
• AdvantagesHigh volumetric density
Low pressure
Endothermic reaction (desorption)
• DisavantagesTemperature of operation
Hydrogen sorption kinetic
Cost
Pyrophoricity
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Classes of hydridesIonic or saline hydrides
– Formed by alkali and alkaline earth metals. – hydrogen is a negatively charged ion (H-) – Typical binary ionic hydrides are sodium hydride NaH and calcium
hydride CaH2. – high conductivities just below or at the melting point. – Complex ionic hydrides LiAlH4, NaAlH4
Covalent hydrides– compounds of hydrogen and nonmetals. – atoms of similar electronegativities share electron pairs. – low melting and boiling points. (most of them are liquid or gaseous at
room temperature)– weak van der Waals forces. – water (H2O), hydrogen sulfide (H2S), silane (SiH4), aluminum
borohydride Al(BH4)3, methane (CH4) and other hydrocarbons. – Complex chemical reactions should be used to synthesize them
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Classes of hydridesMetallic hydrides
– Formed by transition metals including rare earth andactinide series.
– hydrogen acts as a metal and forms a metallic bond.– wide variety stoichiometric and nonstoichiometric
compounds.– formed by direct reaction of hydrogen with the metal or by
electrochemical reaction.– TiH2 and ThH2.– LaNi5H6, FeTiH2
Notethis division should not be taken too literally. Most hydrides are a
mixture of different bonding. Example: LiH mainly ionic but partly covalent.
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A. Züttel (2004)
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Schematic of formation
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Formation
• H2 2H
• Oxide layer
• Solid solution
• PH2 H concentration
• Nucleation of phase (hydride)• H on octahedral or tetrahedral site
• Lattice expansion
• Symmetry reduction
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ThermodynamicsReaction
QMHHxM x22
Q is the heat of reaction
Low concentration (x<<1) : phase
Hydride : phase
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ThermodynamicsPhase rule (Gibbs)
F = C – P + 2
Components = 2 (H + Metal)
Phases: (x<<1) 2 ( , H2)when nucleation of 3 ( , , H2)
Degree of freedom: (x<<1) F =2 (P and c varies)
when nucleation of (
F =1 (plateau)
Pressure-Composition Isotherm (PCT)
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),,(),(21
2 HHH cTpTp H2H
Low concentration• hydrogen randomly distributed in the metal host lattice• concentration varies slowly with temperature.
Condition for thermodynamic equilibrium.
2222ln00
HHHH pRTTSH2H
Ideal gas:
c-bcid lnRTTSH HHHH
Chemical potential of a dissolved H atom:
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HH : enthalpy
Shid : non-configurational part of entropy
b: number of interstitial sites per atom
Ln(c/b-c): configurational part of entropy
Low concentration Seivert law
SH Kp 2/12
• H2 is an ideal gas
• H2 is dissociated
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• Higher concentrationtransition
H: enthalpyS: entropy
yconstant
A. Züttel (2004)
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Züttel, A., Materials for hydrogen storage. Materials Today, 2003. 6(9): p. 24-33.
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Dependence of H on concentration
H-H interactions
Vx xH
xV
VH
xH
Elastic ‘Electronic’
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Elastic contribution
elsH
x
uvvK
xV
VH
0
2
0
0v : Atomic volume
2Hv : Volume increases/H
0K : Bulk modulus constant
Elastic contribution constant
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• Elastic contributions electronic contribution
• Elastic = attractive
• Energy ~ few hundredths of eV
• long range
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Electronic contribution
Expansion of lattice modification of the symmetryof electronic states and reduction of the width ofthe bands
Appearance of a metal-hydrogen bonding band belowthe metal d-band.
New attributes in the lower portion of the density ofstates due to H-H interaction.
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Palladium
http://arxiv.org/ftp/cond-mat/papers/0304/0304307.pdf
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Pd PdH
http://www.nat.vu.nl/CondMat/griessen/
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http://www.nat.vu.nl/CondMat/griessen/
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Hydrogen in alloys
Practical applications specific propertiesIntermetallic hydrides have a wider range of hydride
stabilityAlloys of:– A: hydride forming– B: non-hydride forming
TypesAB5 (LaNi5, CaNi5), AB2 (ZrMn2, ZrV2), AB (FeTi)
and A2B (Mg2Ni).
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StabilityA + (x/2)H2↔ AHx
(P’, GA)The alloy ABn reacts with hydrogen as
ABn + (x/2)H2↔ AHx + nB
xRTGPP A2exp'
P>P’Destabilization
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Stability
)()()()( 2 nxnxxn ABHHBHAHHHABH
Heat of formation
Miedema’s rule of reversed stability
Less stable alloys form more stable hydrides
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Crystal structureFormation of hydride
– Expansion of the lattice (2-3 Å3)– Volume expansion (30vol.%)– Reduction of symmetry– Hydrogen occupy specific sites– Octahedral (O), Tetrahedral (T)
• fcc low concentration O site• hcp T and O sites distorted • bcc T and O sites greatly distorted
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Interstitial sitesOctahedral Tetrahedral
fcc
hcp
bcc
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Crystal structureHydrogenation
– Lattice expansion, distortion– Same crystal structure
Structure Type
Cubic Ti2Ni, MgCu2, CaF2, Th6Mn23, CsCl, Cr3Si
Hexagonal CaCu5, MgZn2, Mg2Ni, AlB2, PuNi3, Pd15P2
Tetragonal TiCu, CuAl2, MoSi2, Nd2Fe14B
Orthorhombic CrB, Fe3C
Monoclinic Pd6P
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TiFe
: cubic, Octahedral sites
: Orthorhombic, Distorted octahedral
: Distorted Orthorhombic
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Geometry
• Minimum hole size: 0.4Å
• Minimum bond distance: 2.1Å
Stability of hydride increases with size of interstice.
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Amorphous material• Produced by:
• Rapid quenching• Sputtering• Ball milling
• Hydrogen sites presents a distribution of energy states
• Hydrogen enters successively higher energysites
• Hydrogen occupies distorted tetrahedral on fourfold coordinated sites
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Amorphous material
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Dynamics
• Proton vibrating on interstitial site (1014Hz)• Jump to neighbour site (109Hz)• Rapid diffusion• Diffuse faster in open structures (BCC) than in
closed packed structures (FCC)• Low activation energy (Arrhenius)
)/exp(0 kTEDD a
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• Effect of structure PdCu alloy
• Reverse isotope effect for Pd
http://www.nat.vu.nl/CondMat/griessen/
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Kinetics
• Must take into account nucleation and growth process.
Johnson-Mehl-Avrami-ln{ln(1-f)} = ln(B) + m ln(t)
f : reacted fraction
m : constant (rate-limiting step)
B = parameter that depends only on T and P
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Rate-limiting step Growth dimensionality
mconstant nuclei sites
mconstant nucleation
rate1 1/2 3/2
Diffusion 2 1 23 3/2 5/2
1 1 2
Interface transformation
2 2 3
3 3 4
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MgH2 + TiVMN bcc alloyHydrogen desorption 573 K
0 100 200 300 400 500 600 700 800 900 1000-7
-6
-5
--44
-33
-222
-111
000
Hyydd
rogee
n co
nntteenn
tt, ww
tt%%
Desorption time, sec
MgH2
40 hrs MgH
2-2% mol. BCC 2 hrs
MMMgggHHH2-222%%% mmmooolll. BBBCCCCCC 222000 hhhrrrsss
MgH2-2% mol. BCC 40 hrs
MgH2-2% mol. BCC 80 hrs
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Rate limiting step
00 5500 110000 115500 220000 225500 330000 3355000.0
0.2
00.44
00..6
00..8
11..0
11..2 1 - (1-f)1/3 = kt f = kt 1 - (1-f)1/2 = kt [-In(1-f)]1/3 = kt [-In(1-f)]1/2 = kt 1-(2f/3)-(1-f)2/3 = ktBBesestt lilinenearar ffitit
LLeefftt
ssiiddee
ooff ee
qquuaatt
iioonnss
Time, sec
Bulk nucleation and growth
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Destabilization
• Chemical– Formation of a new compound
• Size effect
• Excess enthalpy and strain at the grain boundary
• Recrystallization
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Bond strength
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Chemical destabilization
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Effect of cluster size
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Conclusion
MH have many practical applications and may be the solution for hydrogen storage problems
MH are also ideal systems for fundamental understanding of:
•Physics•Chemistry•Metallurgy•Surface science•Nanotechnology•Clusters