6.i. Modelling environmental processes: kinetic and equilibrium (quasi-thermodynamic) modelling 6(i)

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Presentation transcript:

6.i. Modelling environmental processes: kinetic and equilibrium (quasi-thermodynamic) modelling 6(i)

Goals and outcomes Goals – To provide overview of mathematical models describing adsorption kinetics and equilibrium of sorption onto natural solid material Outcomes – Students will be able to use ADE model for substance transport through aquifer material under saturated conditions (groundwater, bank filtration). 2Environmental processes / Modeling environmental processes - 6(i)

Content i.Kinetic of sorption ii.External mass transfer iii.Internal mass transfer iv.Mass balance equations v.Application of transport models – pore and surface diffusion models 3 Environmental processes / Modeling environmental processes - 6(i)

Solute transport influenced by geosorption Source: Worch (2004) J. Cont. Hydrobiol. 68, Local equilibrium exists in any cross section Therefore spreading is only result of diffusion and dispersion Sorption can be linear or non-linear Non-equilibrium transport model is based on equations for external film difussion and internal (pore difussion). Such models widely used in modelling of technical processess (film difussion, pore difussion, surface diffusion, dispersion) Simplification is done by explaining intraparticle difussion by linear driving force equation and mass transfer coefficient is directly correlated to the pore or surface difussion coefficient. Further simplification is combination of dispersion and film difussion. Model is applicable for non-linear and linear sorption and can be extended to multi-solute. 4 Environmental processes / Modeling environmental processes - 6(i)

6.i.i. Kinetic of adsorption 5 the rate of reaching adsorption equilibrium by two diffusion steps: – from the solution to the external surface of the adsorbent (external mass transfer or film diffusion) and – Intraparticle difussion includes pore difussion and surface difussion (internal mass transfer). Environmental processes / Modeling environmental processes - 6(i)

6.i.ii. External mass transfer k F mass transfer coerfficient for film difussion Driving force is difference in concentration in the fluid phase and concentration at solid particle surface. a V area available for mass transfer 6 Environmental processes / Modeling environmental processes - 6(i)

6.i.iii Internal mass transfer k S intraparticle mass transfer coefficient k S a V volumetric intraparticle mass transfer coefficient Driving force is difference between loading at the outer particle surface and mean loading if the particle 7 Environmental processes / Modeling environmental processes - 6(i)

6.i.iv. Mass balance equations DF-LEM (dispersed flow /local equilibrium model) or so called advection-dispersion equation. Individual terms presents advection, accumulation, adsorption and dispersion 8 Environmental processes / Modeling environmental processes - 6(i)

Assuming linear isotherm, retardation factor can be calculated : Linear sorption coefficient ν w pore water velocity ν c velocity of the transported substance ƿ density ɛ porosity Therfore: 9 Environmental processes / Modeling environmental processes - 6(i)

Where Retarded dispersion coefficient, L 2 /T Analytical solution: o Software Transport Modeling (Sorption and Biodegradation); TransMod 2.2 Eckhard Worch, (5) D ax dispersion coefficient in axial direction 10 Environmental processes / Modeling environmental processes - 6(i)

11 Hydrodynamic dispersion is sum of mechanical and molecular difussion. Α is dispersivity and D L is aqueous difussion coefficient. In case that there is no sorption D * is equal with Dax. Usually D L is low and difussion term can be neglected. If necessery it can be estimated from eqution: Environmental processes / Modeling environmental processes - 6(i)

Non linear or linear isotherm? Cis – adsorbate concentration on adsorbent(mol kg -1 ) Ciw- equilibrium concentration of adsorbate in solution (mol L -1 ) K iF – Freundlich constant (mol kg -1 )(mol L -1 ) -n i n i – Freundlich exponent 12 Environmental processes / Modeling environmental processes - 6(i)

n i represents change in free energy of sorption of solute on sorbent in certain concentration range – n i = 1, izotherm is linear and free energy of sorption is same for all concentrations – When n i < 1, isotherm is concave and with increase of sorbate concentration free energy of sorption decrease – when n i > 1, isotherm is convex and with increase of sorbate concentration free energy of sorption increase 13 Environmental processes / Modeling environmental processes - 6(i)

Freundlich isotherm includes linear isotherm With sorption coefficient Kd as a special case K F = K d =q s /c s n=1 14 Environmental processes / Modeling environmental processes - 6(i)

Foo and Hameed (2010) Chemical Engineering Journal 156, Environmental processes / Modeling environmental processes - 6(i)

6.v. Application of transport models – pore and surface diffusion models. 16 Environmental processes / Modeling environmental processes - 6(i)

Column studies 17 Used for calculation of Rd and prioritisation Environmental processes / Modeling environmental processes - 6(i)

Further consideration Organic cations and anions behavior, possible competitive effects Influence of NOM Influence of pH 18 Environmental processes / Modeling environmental processes - 6(i)

Practical work Content of practical work: – Data analysis of kinetic and adsorption equilibrium data using Excel. – Selection of appropriate kinetic and isotherm models – Introduction to box models (one box model) – When possible students will be able to use ADE model for substance transport through aquifer material under saturated conditions (groundwater, bank filtration), application of comercial software. 19 Environmental processes / Modeling environmental processes - 6(i)

Questions 1. Explain internal and external mass transfer 2. Explain advective-dispersive equation 3. Explain importance of transport modelling 20 Environmental processes / Modeling environmental processes - 6(i)

Further reading Niedbala, A., et al. Influence of competing inorganic cations on the ion exchange equilibrium of the monovalent organic cation metoprolol on natural sediment. Chemosphere (2012), F. Amiri et al. / Water Research 39 (2005) 933–941 Bi E., Schmidt T.C., Haderlein S.B. (2007) Environmental factors influencing sorption of heterocyclic aromatic compounds in soils: Environ.Sci.Technol, 41, Environmental processes / Modeling environmental processes - 6(i)