Chapter 18. Concentration distributions in solids and in ...
Transcript of Chapter 18. Concentration distributions in solids and in ...
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Chapter 18. Concentration distributionsin solids and in laminar flow
• Shell mass balances, boundary conditions
• Diffusion through a stagnant film
• Diffusion with heterogeneous and homogeneous chemical
reaction
• Diffusion into a falling liquid film (gas absorption, solid dissolution)
• Diffusion and chemical reaction inside a porous catalyst
• Diffusion in a three-system component gas
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Concentration distributions in solids andin laminar flow
• Flux NA : moles of A per unit area per unit time (system fixed
in space)
• A relationship between NA and NB is needed.
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Chemical reaction
• Reaction rate: chemical reaction constant• Homogeneous reaction Heterogeneous reaction
It is included in It is included asthe mass balance a boundary condition
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18.1 Shell mass balance and boundary conditions
• Balance
• Specified concentration at a surface
• Specified mass flux at a surface
• At the surface:
• Chemical reaction at the surface
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18.2 Diffusion Througha stagnant gas film
• Liquid A is evaporating into
gas B.
• Constant level for liquid A
• A stream of gas mixture A
and B flows slowly on the
top.
• A and B are ideal gases
• Plug flow
"Transport Phenomena" 2nd ed.,R.B. Bird, W.E. Stewart, E.N. Lightfoot
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Concentration profiles
• xA1 equilibrium concentration at interface
• Boundary conditions BC1 and BC2
"Transport Phenomena" 2nd ed.,R.B. Bird, W.E. Stewart, E.N. Lightfoot
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Equations
• B is stationary
• Using NBz=0
• Mass balance
• Introducing NAz
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Equations
• Integrating
• Integrating, again• (no concentration as
boundary condition)
• Using BCs 1 and 2
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Other calculations
• For xB
• Avg. conc. of B in the tube
• Rewriting
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Rate of mass transfer at the liquid-gasinterface
• Rate of evaporation
• Using the previous result
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Experimental determination of diffusivities
• Film model for mass transfer• Near the surface is a
slowly moving film
• Substance A diffuses through this film
• Sharp transition from stagnant film to a well mixed fluid
• Concentration gradient only in the film (linear)
"Transport Phenomena" 2nd ed.,R.B. Bird, W.E. Stewart, E.N. Lightfoot
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18.5 Diffusion into a falling liquid film(gas absorption)
• Forced convection mass transfer
• Absorption of gas A by a laminar
film liquid B
• A slightly soluble in B
• Small penetration distance
compared with film thickness
• Ex. Absorption of Oxygen in
water
"Transport Phenomena" 2nd ed.,R.B. Bird, W.E. Stewart, E.N. Lightfoot
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Equations
• Velocity profile
• C varies with x and z Mass balance over a element of volume (∆x ∆ z W)
• Introducing NAx and NAz and
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Equations
• Inserting the velocity profile
• Boundary conditions
• For short contact times
• New BCs
• The solution is
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Equations
• Local mass flux
• Total molar flow of A across the surface at x=0
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18.8 Diffusion in a three-component system
• Diffusion through a stagnant gas
film (§18.2, two gases) is extended
to three components
• Water (species 1) is evaporating
into air (a mixture of nitrogen
(species 2) and oxygen (species 3)
• Mass balances
"Transport Phenomena" 2nd ed.,R.B. Bird, W.E. Stewart, E.N. Lightfoot
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18.8 Diffusion in a three-component system
• Species 2 and 3 are not moving
• Using Maxwell-Stefan equations.• Two concentrations are needed, since
• Then
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18.8 Diffusion in a three-component system
• Note: D23 is not included (no relative motion between 2 and 3
• Integrating from a arbitrary z to L
• Mole fraction profiles for nitrogen and oxygen
• Mol fraction profile for water vapour
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Concentration profile
• N1z is determined from BC at z=0
• Transcendental equation for N1z.
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Molecular theories for polymeric liquids
• Theories. There are two classes
• Network theories
• Single-molecule theories
• Network theories
• Developed to describe rubber behaviour
• Extended to describe molten polymer, concentrated solutions
• Assumptions about formations and rupturing of junctions are
done
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Network theories. A polymer networkformed by temporary junctions (circles)
"Transport Phenomena" 2nd ed.,R.B. Bird, W.E. Stewart, E.N. Lightfoot
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The single-molecule theories
• Developed to describe polymers in very diluted
solutions
• i.e., infrequent polymer-polymer interactions.
• Polymers are represent by “bead springs”
• Theory can extent to molten polymers and
concentrated solutions
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The single-molecule bead spring models.a) dilute polymer solutionsb) polymer melt without solvent
"Transport Phenomena" 2nd ed.,R.B. Bird, W.E. Stewart, E.N. Lightfoot