diffusion in porous media...diffusion – in general •…isthetransport of mass in gases, liquids...
TRANSCRIPT
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Modern Methods in Heterogeneous Catalysis
Lectures at Fritz-Haber-Institut
28.11.2008
Diffusion in Porous MediaDiffusion in Porous Media
Cornelia Breitkopf
TU Bergakademie Freiberg
for personal use only
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Dimensions in Heterogeneous Catalysis
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Importance of transport for catalysis
• Material and energy balances are required for both thefluid, which occupies the interstitial region betweencatalyst particles, and the catalyst particles, in which thereactions occur
• Determination of rate limiting steps to ensure which stepacts to influence the overall rate of reaction in the pellet
Interaction of chemical reaction and transport processes
MACROKINETICS
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Outline
• Introduction– Porosity (definition, IUPAC)– Diffusion (laws, effective quantities, Knudsen diffusion, examples)– General transport equations for gases
• External mass transfer processes– Effectiveness factor, dimensionless quantities (Re, Sc)
• Internal mass transfer processes– Thiele modulus, case studies
• Influence of transport on– Activation energy, Reaction order, Selectivity
• Examples, experimental evaluation• Summary
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Recommended Literature
• R. Byron Bird et al. Transport Phenomena. J. Wiley 2007
• C.H. Bartholomev, R. J. FarrautoFundamentals of industrial catalytic processes. AIChe 2006
• M. Baerns, H. Hofmann, A. Renken. Chemische Reaktionstechnik, LB der Technischen Chemie, Bd. 1,Wiley-VCH, 2002.
• M. Jakubith. Grundoperationen und chemische Reaktionstechnik. Einführung in die Technische Chemie. Wiley-VCH 1998.
• Fixed-Bed Catalytic Reactors. Nob Hill Publ. 2004. (see web)• IUPAC: Pure & Appl.Chem. 66 (1994) 1739.• Lexikon Chemie, Brockhaus ABC. VEB F.A. Brockhaus Verlag,
Leipzig1987.• Technische Anorganische Chemie. Deutscher Verlag für Grundstoffindustrie
GmbH, Leipzig1990.• I.I. Ioffe, L.M. Pissmen. Heterogene Katalyse, Chemie und Technik,
Akademie-Verlag Berlin, 1975.
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Porosity – Background information
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Porous materials in nature and industry
• Porous materials: sand stone, porous rock, filter paper, nano tubes…
• Main feature: cavities in a solid matrix• Cavities can be partly or fully connected• Accessible for gases
• Porosities are often desired and of importance in medicines, membranes, sorbents, ceramics, and catalysts
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Pore types
• Pressing of support material leads to a network of micro-/meso-porous and macroporous areas: powder particlesare micro-/mesoporous, pores between particles build up a macroporous network
• Types of pores– open pores: surface ~, column ~, hollow ~– isolated pores: inclusion ~– see IUPAC
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IUPAC - Definitions
• Porous solid: a solid with pores, i.e. cavities, channels orinterstices, which are deeper than they are wide
• Pore size: (generally pore width): the distance betweentwo opposite walls of the pore– Micropores (< 2 nm), – Mesopores (2-50 nm) – Macropores (> 50 nm)
• Porosity ε: ratio of the total pore volume VP to theapparent volume V of the particle or powder (excludinginterparticle voids)
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IUPAC - Quantitative description of porosity
• Value of the fraction depends on the method used to determine
– the apparent volume V, which excludes interparticlevoids (geometrical determination, fluid displacement)
– the pore volume VP (adsorption and capillarycondensation…)
• Some methods have only access to „open pores“ (i.e. the methods using a fluid) whereas others may also have access to „closed pores“ (i.e. methods usingradiation)
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Pore properties - Structure
• Pore structure is a strong function of the preparationmethod, and catalysts can have pore volumes ranging from 0.1-1 cm3/g pellet
• Pores can be the same size or there can be a bimodaldistribution of two different sizes
• Pore sizes can be as small as molecular dimensions(nm) or as large as several millimeters
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Types of porosity
• Difference between bed porosity and particle porosity• Bed porosity (or void fraction) εB is defined as the
volume of voids per volume of reactor• The pellet void fraction or porosity is denoted by ε and
ε = ρP * Vg (ρP effective particle density, Vg pore volume)
Jakubith
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Diffusion – Background
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Diffusion – In general
• …is the transport of mass in gases, liquids and solidsunder the influence of a concentration gradient
• …proceeds spontaneously due to microscopicmovement of mass
• … is an irreversible process which leads to an increasein entropy and is only reversible by supply of work
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Diffusion – In special
• …mechanisms differ for gases/liquids and solids
• …for gases/liquids: statistical movement according to T
• …for solids: different mechanisms possible: i) direct exchange of lattice placesii) movement via interstitial lattice sitesiii) movement via lattice vacanciesiv) movement via lattice defects or on the grain surfacev) exchange of sites on the crystal surface
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Examples - Diffusion in technical solids
• High temperature inorganic reactions
TC Anorg. Chemie
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Diffusion - quantitatively
• …generally increases with temperature and decreaseswith increasing density
• …the equilibration takes– minutes for gases– days/weeks for liquids– with measurable rate only close to the melting point
• …characteristic quantity: diffusion coefficient
• …can be described as molecular transport quantity or as effective quantity
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Examples - Diffusion coefficients
D [cm2/s] T [K]H2 in O2 0.78 298N2 in O2 0.19 298H2O vapour in air 0.23 298CH3OH in water 1.2*10-5 298Sugar in water 0.5*10-5 298Au in Cu 2.1*10-11 1023Fe in Al 6.2*10-14 62336Cl- in AgCl 3.2*10-16 623
Lexikon Chemie
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From „Transport Phenomena“
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Transport by Diffusion
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General view to transport equations for gases
Transport
Mass Heat Energy
⎟⎠⎞
⎜⎝⎛−=
dzdcDj in ⎟
⎠⎞
⎜⎝⎛−=
dzdTjQ λ ⎟⎟
⎠
⎞⎜⎜⎝
⎛−=
dyduj z
P η
Fourier´s Law Newton´s LawFick´s Law
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Transport of mass - Diffusional laws (gases)
• Concentration gradient is stationary : Fick´s First Law
• Concentration gradient is not stationary : Ficks´s Second Law
important for diffusion in porous catalysts !
⎟⎠⎞
⎜⎝⎛−=
dzdcDj in
⎥⎦⎤
⎢⎣⎡
∂∂
∂∂
=⎟⎠⎞
⎜⎝⎛∂∂
zcD
ztc i
iz
i
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Diffusion - Special diffusion phenomena
• Molecular diffusion
• Knudsen diffusion
• Surface diffusion– lateral diffusion– not of technical importance
• Configurational diffusion– pore diameter within molecular dimensions (0.3-1 nm) as for
zeolites– diffusion coefficients are smaller by some orders of magnitude
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Molecular diffusion coefficient
• Molecular diffusion coefficient for gases
• DM during catalytic process nearly constant; reaction rate constant changes exponentially !
lengthpathfreemean...;velocityaverage...v;v31DM λλ=
pdkT
mkT
32D 2
21
M π⎟⎠⎞
⎜⎝⎛π
= 223
M d1~,
m1~,
p1~,T~D
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Molecular diffusion coefficient
• Kinetic gas theory delivers only inaccurate values fortransport coefficients
• Binary diffusion coefficients for mixtures of gases (up to p ≈ 2.5*106 Pa) (Hirschfelder/Curtiss/Bird)
gsABD
122
,,
,,3
,2
001834.0 −
Ω
+
= smp
MMMM
TD
DAB
BrAr
BrAr
gsAB σ
constantsforcetorespectwithintegralCollisionΩBandAgasesoffactorcollisionAverageσ
BandAmoleculesofmassesmolecularRelativeM,M[bar] Pressure p
[K]eTemperaturT
D
2AB
Br,Ar,
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Knudsen diffusion coefficient
• With decreasing pore diameter (or decreasing pressure), the pore diameter is smaller than the mean free pathlength λ >> dp: DKn …Knudsen diffusion coefficient
• Depends not on pressure !
diameterpore...d;velocityaverage...v;dv31D ppKn =
p21
Kn d~,M1~,T~D
MRT8d
31D pKn π
=
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Diffusion in porous materials
• For dp = const. and pressure decrease: transition frommolecular diffusion to Knudsen diffusion
• Transition is not clearly defined; both equations apply
• Catalysts: irregular network of pores – effective D• For very heterogeneous pore size distributions the term
„effective D“ is not valid – complex models necessary
KnM* D
1D1
D1
+=
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Effective diffusivities
DDeff τε
=• Use of porosity and tortuosity factor
Fixed-bed Catal.
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Diffusion - Current interest in science
• 10 000 paper/year dealing with diffusion phenomena• Multitude of topics
• International Conferences:– 5th International Conference on Diffusion in Solids and Liquids
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Literature examples
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…continued
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Transport problems in catalysis
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Transport and catalysis
• One part of the catalytic cycle is the transport of reactants to the active surface
• Typical heterogeneous processes proceed at thesurface of solids or porous particles, which aresurrounded by gas or liquid
• If the chemical reaction proceeds very fast, the overallrate may be controlled by the transport of reactand fromthe fluid to the external surface of the catalyst particle orby diffusion inside the pores of the catalyst particle
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From „Fundamentals in industrial…
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Transport regimes
Transport
External Internal
Diffusion in poresDiffusion to exteriorsurface of particle
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Rates in the catalytic cycle
Catalytic circle
Chemicalreactions
Physicalprocesses
• ratediffusion >> ratechemical reaction : no influence on overall rate• substrate concentration in pores and on catalyst surface =
gas concentration
• ratediffusion ≈ ratechemical reaction : incomplete mass transfer, thus decrease in reaction rate
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External or internal mass transfer control ?
To get insights in kinetics of chemical reactions theinfluence of diffusion on the reaction has to be known
and to be eliminated
Criteria for diffusional influences ?
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From „Fundamentals in industrial…
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External mass transfer processes
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External mass transfer - Model
• Influence of mass transfer: yes/no ? – coupling of flux equations for mass transfer (and heat
transfer) with reaction rate equation
Model:• System at stationary conditions• Main quantities:
– gas phase (bulk) concentration cg
– concentration at exterior surface cs
(see Baerns)
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External mass transfer – Rate equation
• Effective rates for transfer and reaction
• Calculation of cs possible
areasurfacespecifica
tcoefficientransferk)cc(akr gs,1g,1geff −=
akkckr ss,1m
eff ==
s,1m
s,1g,1g ck)cc(ak =−
akk1
cc
g
g,1s,1
+=
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External mass transfer – Effective rate
• for m =1
• Case studies:
mass transfer is fast compared to chemical reaction,no concentration gradient in film
g,1
g
s,1m
eff ca
kk1
kckr+
==
1ak
k
g
<<
g,1eff ckr =
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External mass transfer – Da number
• Damköhler number II: for any m
ratio of rate without mass transfer limitation (c1,s=c1,g) to rate with maximal mass transfer limitation (c1,s 0)
• Definition of new quantity for the description of catalystperformance
g,1g
g,1m
cakckDaII=
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External mass transfer – Effectiveness factor
• Definition of external effectiveness factor ηext for a catalyst
ratio of reaction rate with diffusion limitation to reactionrate without diffusion limitation(case for first order reaction)
• ηext for higher reaction order more complicated(see textbook)
DaII11
ckck
rr
g,1
g,1effeffext +
===η
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External mass transfer – Effectiveness factor
• External effectiveness factor ηext
depending on m
• Estimation of external transportinfluence possible by usingexperimental quantities
rreff
ext =η
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External mass transfer - Criteria
µ=
vdRe p
• Film around particle depends on flow conditions: laminar (or turbulent)
• Dimensionless Reynolds number Re
dp…particle diameterv …velocity of gasµ …viscosity of gas
• Correlation between mass transfer coefficient kg and reaction rate; for kinetic regime: transfer >> rate
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External mass transfer - Criteria
• Check flow profile of reactordR …reactor diameterdp …particle diameter
• Fixed bed reactor catalyst in powder form• Re > 2 no back mixing effects• Re, Sc (Schmidt) as dimensionless quantities• Description of flux as function of Sc number
30>p
R
dd
M
3/2
M
gD D
ScScv
pk(Re)fj µ
===
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Experimental check
• Fixed bed reactor:for the condition of a constant residence time increase of linear velocity of the fluid around the particles until theresulting rate keeps constant
no influence of external transfer
! residence time decreases with increasing velocity of fluid, increase the bed height to compensate this
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Internal mass transfer processes
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Internal transport - Pore diffusion
• Transport of reactant through porous pore systemto the active centres
• Diffusion is slow process thus the transport limits conversion
• Simple approximation of pore diffusion
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Pore diffusion - Rates
1. Assumption:• Catalyst pore with cross section S and length l• Reaction in pore is 1st order : r = k*c
• Reaction rate R related to active surface S (V = S*l)• Reaction rate rV in pore volume
c*k*lSRr*l v −==
see Jakubith
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Pore diffusion – Diffusion coefficient
2. Assumption:• Diffusion coefficient inside the pore differs from diffusion
coefficient Dgs
• Correction by tortuosity factor and porosityeffective diffusion coefficient
first assumption, if no information availablegsgs
eff D101D ≈
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Pore diffusion – Mass balance
• General mass balance for one-dimensional, steady-state case, reaction is 1st order
• Solution of differential equation with help of dimensionless variables Γ and ζ
c0 concentration in free gas spacel pore length
0ckdz
cdD 2
2
eff =−
0cc
=Γ
lz
=ζ
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Pore diffusion – Thiele modulus
• Dimensionless mass balance
• Quotient is a dimensionless term
• Thiele modulus
0cckc
lzd
ccd
lc
D0
020
2
20
eff =−
⎟⎠⎞
⎜⎝⎛
0D
kldd
eff
2
2
2
=Γ−ζΓ
eff
22
Dkl
=ϕ
effDkl=ϕ
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Thiele Modulus ϕ
• The single dimensionless group appearing in the modelis referred to as the Thiele number or Thiele modulus in recognition of Thiele´s pioneering contribution to thisarea:E.W. Thiele. Relation between catalytic activity and size of particle. Ind. Eng. Chem. 31(7) (1939) 916-920.
• In his original paper, Thiele used the term „modulus“ to emphasize that this then unnamed dimensionless groupwas positive. Later when Thiele´s name was assigned to this dimensionless group , the term modulus was retained.
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Pore diffusion – Thiele modulus
• Thiele modulus
• New form of differential equation for mass balance
• Solve with appropriate initial and boundary conditions
ratediffusionratereaction
Dkleff
==ϕ
Γϕ=ζΓ 22
2
dd
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Pore diffusion – Solving of mass balance
• Boundary conditions
1. for z = 0 , c = c0 or for ζ = 0 , Γ = 12. for z = l , dc/dz = 0 or for ζ = 1 , dΓ/dζ = 0
• Solution of differential equation by exponential approximation
decrease of cdue to reaction
freegas space
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Pore diffusion – Case studies
• Concentration of reactant inside the pore
• with increasing temperature the Thiele modulus increasesbecause of and
• Reactant converts already at z/l << 1
ϕ
−ϕ=
ϕζ−ϕ
=Γcosh
)lz1(cosh
ccor
cosh)1(cosh
0
effDkl=ϕ ⎥⎦
⎤⎢⎣⎡−=
RTE
expkk A0
It is of technical importance to find the temperaturewhere pore diffusion starts to influence the reaction !
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Pore diffusion – Case studies
ϕ
−ϕ=
ϕζ−ϕ
=Γcosh
)lz1(cosh
ccor
cosh)1(cosh
0
- with ϕ ≥ 3 the reactantcan not reach the interior of thepore- no full utilization of the internalsurface of the catalyst
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Pore diffusion - Criteria
• Thiele modulus
• Criteria:– ϕ << 1
• chemical reaction is rate-limiting• diffusion is fast, reactand can enter the pores of
the catalyst and the concentration of the reactandis constant for the whole catalyst volume
– ϕ >> 1• limitation of overall rate by diffusion of reactand in
the pores• inside the pores the reactand converts fast• concentration of reactand decreases already close
to the boundary layer
effDkl=ϕ
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Internal transfer - Effectiveness factor η
• Reaction rate rs
• Effectiveness factor is defined as
• max. reaction rate is connected with c0
vs r*lr =
ratereaction.maxratereaction
max,s
s
rr
=η
0
l
0
max,s
s
clk
dz)z(ck
rr ∫
==η
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Effectiveness factor η - Case studies
• Effectiveness factor is a dimensionless pellet productionrate that measures how effectively the catalyst is beingused.
• For η near unity, the entire volume of the pellet isreacting at the same high rate because the reactant isable to diffuse quickly through the pellet.
• For η near zero, the pellet reacts at low rate. Thereactant is unable to penetrate significantly into theinterior of the pellet and the reaction rate is small in a large portion of the pellet volume.
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• with solution function for Γ (see results for pore diffusion)
two characteristic regimes
Effectiveness factor η - Case studies
dzcoshl
)l/z1(coshl
0∫ ϕ
−ϕ=η
ϕϕ
=ηtanh
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• for ϕ ≤ 0.3 , regime of reaction control
• for ϕ ≥ 0.3 , regime of pore diffusion control
Effectiveness factor η - Case studies
ϕ≈η
1
1≈η
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• Solution depends on characteristic length (volume-tosurface ratio)
• Characteristic length differs for cylinder, sphere or slab; different analytical solutions
Effectiveness factor - Geometry of pores
Fixed-bed catal. r.
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Effectiveness factor - Geometry of pores
• functional forms (see table) are quite different, butsolutions are quite similar
• identical asymptotes for small and large ϕ
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From „Fundamentals in industrial…
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Examples (see Baerns)
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Influence of transport on the measurement of
Activation energiesReaction ordersSelectivities
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Apparent versus Intrinsic Kinetics
• Aim: determination of reaction order and rate constantfor a catalytic reaction of interest
• Assumption: nth-order reaction A B with• The values of „k“ and „n“ are called the intrinsic rate
constant and reaction order • Typical experiment: change concentration cA in the bulk
fluid, measure the rate as function of cA and find thevalues of the parameters „k“ and „n“ that best fit themeasurements
• The intrinsic values have to be distinguished from whatwe may estimate from experimental data !
nAckr =
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Apparent and Intrinsic Activation Energy
• Qualitative estimation of kinetic parameters underdifferent rate-limiting steps
• Arrhenius plot: ln (k*η) = f(1/T)
• ln (k*η) is the apparent rate constant related to theapparent activation energy EA,s
RTE
kln]k[ln s,A0 −=η
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Arrhenius plot – Regimes of control
1. kinetic regime
2. pore diffusionregime
3.mass transfer regime
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Arrhenius plot – Kinetic regime
• Thiele modulus ϕ is very small (ϕ <<)
The internal surface of catalyst pore is totally utilized
• η ≈ 1; see fig. η = f(ϕ)
• k*η ≈ k
As,A EE ≈
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Arrhenius plot – Pore diffusion regime
• Case study:
• η ≈ 1/ϕ; see fig. η = f(ϕ)
• ln (k*η) =ln k + ln η
• η = 1/ϕ and
•
effDkl=ϕ
⎥⎦
⎤⎢⎣
⎡−=η
effDkllnkln]*k[ln
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Arrhenius plot – Pore diffusion regime
⎥⎦
⎤⎢⎣
⎡−=η
effDkllnkln]*k[ln
effDln21llnkln
21]*k[ln +−=η
effs,A
0 Dln21lln
RT2E
kln21]*k[ln +−−=η
2EE A
s,A =
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Arrhenius plot – Mass transfer regime
• For high temperatures ϕ >> 1 and η << 1
• Reaction is only determined by diffusion through theboundary film layer
0E s,A ≈
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Arrhenius plot – Mass transfer regime
• transfer contributes to rate• for kga << k
• keff = kga
• kg is determined by D; D ~ T3/2 thus kg ~ T3/2; formal
• Eeff = EDiff• EDiff~ 5 kJ/mol
0E s,A ≈
ak1
k1
1k
g
eff
+=
⎟⎠⎞
⎜⎝⎛−≈
RT2E
expk effg
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Interpretation of criteria for EA
• The apparent activation energy EA,s of a heterogeneouscatalytic reaction decreases with increasing temperaturedue to the increasing diffusive resistance to EA,s= EA/2
• Further increase in temperature leads to a shift of theplace of reaction from the interior to the exterior of thecatalyst
• At high temperatures only the transport through theboundary layer determines the rate of reaction
• Way out ? - use of smaller particles• Disadvantages - pressure control in a fixed bed
- dispersion increase in a fixed bed
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Influence of transport on reaction order
• Catalytic reaction described by
• Determination of „n“ may be misleading, if external orinternal mass-transfer limitations exist due to η = f(c)
napp: 0 1 2nintr : 0.5 1 1.5
• Check for rate-limiting processes
nAckr =
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Influence of transport on selectivity
• Network of reactions (parallel, consecutive….)• Selectivity of desired product is of interest• See textbooks for case studies• Simple example: B
AC
if cA is limited, the first reaction is more influenced
k1
k2
2A11 ckr =
A22 ckr =
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Influence of transport on selectivity
• General approach: – set up of kinetic equations– determination of differential and integral selectivities
according to kinetic equations– formulation of effective quantities– examine influence of η, Da number …
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External and internal resistances – Biot n.
• Isothermal conditions• If the mass-transfer rate from the bulk fluid to the exterior
of the pellet is not high, then the boundary conditionshave to be changed
• Biot number or dimensionless mass-transfer coefficient
• Relation between internal and external diffusionresistance
• Bi >> 1: transport limited by diffusion in the pores
Drk
Bi pg=
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External and internal resistances – Biot n.
• Biot number or dimensionless mass-transfer coefficient
Drk
Bi pg=
Fixed-bed catal. r.
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External and internal resistances – Criteria
• Overall effectiveness factor ηsum is related to thetransport resistances in the film and in the pore
• Non-isothermal conditions: Weisz modulus, modifiedThiele modulus, Sherwood number Sh, Nusselt numberNu !
Bi31
12
k
sum ϕ+
η
=η
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Experimental check
• For a porous catalyst the limiting effect of pore diffusionwould be decreasing if it is possible to reduce the lengthof the pores
• Practically: crush catalyst, grade into sizes; measurement of apparent rate depending on sizefractions; with decreasing size the apparent rate increases until a constant value is reached
• Check the external transport; both limitations may occursimultaneously
• Elegant way of separation of pore diffusion and microkinetics: use of single pellet diffusion reactor
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From „Fundamentals in industrial…
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From „Fundamentals in industrial…
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Summary
Definition of porous systems
Definition of diffusion and diffusion coefficients
External transfer processesProduction rate via effectiveness factorCase studies with use of Re, DaII
Internal transfer processesMass balance for pore diffusionCase studies depending on Thiele modulus
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Summary
Influence of transport onApparent activation energyReaction orderSelectivity
Influence of both external and internal transferBiot number
Strategy to check for limiting processes: solve appropriate mass balance by use of dimensionlessnumbers
The system is investigated from the outside to the inside
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…Thanks for invitation and for attention!
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Diffusion constant and pore radius
• Diffusion constants in pores for pore diameters which arecomparable to substrate molecules
I Knudsen diffusionII potentials of opposite pore walls overlap thus the resulting
interaction of substrates and walls is effectively decreasedand the diffusion coefficient increases
III pore diameter is in the range of the substrate diameter; strongdependence of D from the effective substrate diameter
IIIIII
D
rpore