| \[g\] | | Accélération de la pesanteur | Gravity | | m/s2 |
| \[\dot{\gamma }\] | | Cisaillement local | Local shear | | s-1 |
| \[{D}_{m}\] | [1] | Coefficient de diffusion | Diffusion coefficient | | m2/s |
| \[{C}_{D}\] | | Coefficient de traînée | Drag coefficient or Stokes friction factor | | - |
| \[u{\mathrm{'}}_{L}\] | | Composante fluctuante de la vitesse du liquide | Velocity fluctuating component | \[u{\mathrm{'}}_{L}={u}_{L}-{U}_{L}\] | m/s |
| \[{U}_{L}\] | [2] | Composante moyenne de la vitesse du liquide | Average velocity | | m/s |
| \[c\mathrm{'}\] | | Concentration fluctuante | Fluctuating concentration | \[c\mathrm{'}=c-C\] | mol/m3 |
| \[c\mathrm{'}\] | | Concentration fluctuante | Fluctuating concentration | \[c\mathrm{'}=c-C\] | mol/m3 |
| \[{C}_{\mathrm{A0}}\] | | concentration initiale en soluté | initial solute concentration | | mol.m-3 |
| \[C\] | [3] | Concentration moyenne | Average concentration | | mol/m3 |
| \[C\] | [4] | Concentration moyenne | Average concentration | | mol/m3 |
| \[K\] | [5] | Constante | Constant | | - |
| \[\alpha \] | [6] | Constante | Constant | | - |
| \[{k}_{c}\] | [7] | constante de consolidation | consolidation constant | | s-1 |
| \[{k}_{d}\] | [8] | Constante de de transfert de matière | Mass transfert coefficient | | m/s |
| \[{k}_{r}\] | [9] | constante de rupture | disruption constant | | s-1 |
| \[{k}_{\mathrm{col}}\] | | constante de vitesse de collision | collision rate constant | | m3.s-1 |
| \[{Q}_{E}\] | | débit volumique d'entrée | feed flow rate | | m3.s-1 |
| \[{Q}_{S}\] | | débit volumique de sortie | exit flow rate | | m3.s-1 |
| \[{d}_{p}\] | [10] | Diamètre de particule | Particle diameter | | m |
| \[{D}_{t}\] | | Diamètre de tube | Tube diameter | | m |
| | Diamètre moyen en masse | Average mass diameter | \[{d}_{43}=\frac{{\int }_{0}^{\infty }{d}_{p}^{4}n\left({d}_{p}\right){{dd}}_{p}}{{\int }_{0}^{\infty }{d}_{p}^{3}n\left({d}_{p}\right){{dd}}_{p}}\] | m |
| | Diffusivité thermique | Thermal diffusivity | \[\alpha =\lambda /\left({\rho }_{S}{c}_{\mathrm{pS}}\right)\] | m2/s |
| \[n\left({d}_{p},t\right)\] | [11] | distribution des tailles de particules | particles size distribution | | m-4 |
| \[{n}_{v}\left({v}_{p},t\right)\] | [12] | distribution des volumes de particules | particle volume distribution | | m-6 |
| \[{\sigma }^{\mathrm{*}}\] | | dureté du pont cristallin | hardness of the crystalline bridge | | Pa |
| \[{l}_{B}\] | | Échelle de Batchelor | Batchelor microscale | \[{l}_{B}={\left(\frac{\nu {D}_{m}^{2}}{{\epsilon }_{M}}\right)}^{1/4}\] | m |
| \[{l}_{K}\] | | Échelle de Kolmogoroff | Kolmogoroff microscale | \[{l}_{K}={\left(\frac{{\nu }^{3}}{{\epsilon }_{M}}\right)}^{1/4}\] | m |
| \[{l}_{K}\] | | Échelle de Kolmogoroff | Kolmogoroff microscale | \[{l}_{K}={\left(\frac{{\nu }^{3}}{{\epsilon }_{M}}\right)}^{1/4}\] | m |
| \[{\eta }_{\mathrm{AG}}\] | [13] | efficacité d'agglomération | agglomeration efficiency | | - |
| \[{\eta }_{\mathrm{AG}}\] | [14] | efficacité d'agglomération | agglomeration efficiency | | - |
| \[\alpha \] | [15] | efficacité de collision | collision efficiency | | - |
| \[{E}_{c}\] | | Energie cinétique | Kinetic energy | \[{E}_{c}=\frac{{\rho }_{L}I{U}_{p}^{2}}{2}\] | J |
| \[{\varepsilon }_{M}\] | | énergie dissipée | energy dissipation rate | \[\begin{array}{ccc}{\varepsilon }_{M}&=&\frac{{N}_{P}{N}^{3}{D}^{5}}{{V}_{T}}\\ &\textrm{et}&\\ {\varepsilon }_{M}&=&\frac{f}{2}\frac{{V}^{3}}{{D}_{T}}\end{array}\] | m-2.s-3 (W.kg) |
| \[F\left({d}_{\mathrm{pi}},{d}_{\mathrm{pj}}\right)\] | [16] | facteur de forme de Marchal | Marchal's shape factor | | - |
| \[{\phi }_{v}\] | | facteur de forme volumique des particules | volumetric shape factor | \[{v}_{p}={\phi }_{v}{d}_{p}^{3}\] | - |
| \[f\] | | Facteur de frottement (tube) | Tube friction factor | \[{dp}=\frac{\frac{f}{2}\cdot \rho {U}_{L}^{2}}{{D}_{T}}\cdot {dL}\] | - |
| \[Z\] | | facteur de Zeldovich | | | - |
| \[{F}_{\mathrm{AG}}\] | [17] | flux d'accroissement de volume cristallin par agglomération | agglomeration growth flux | | s-1 |
| \[{F}_{G}\] | [18] | flux d'accroissement de volume cristallin par croissance | crystalline growth flux | | s-1 |
| \[{f}_{\mathrm{col}}\] | [19] | fonction de collision | particle size function | | - |
| \[{F}_{\mathrm{Ce}}\] | [20] | Force centrifuge | Centrifugal force | | N |
| \[{F}_{B}\] | [21] | Force de Basset | Basset force | | N |
| \[{F}_{C}\] | [22] | Force de Coriolis | Coriolis force | | N |
| \[{F}_{A}\] | [23] | Force de masse ajoutée ou trainée aditionnelle | Added weight force | | N |
| \[{F}_{G}\] | [24] | Force de pesanteur ou poids apparent | Gravity force | | N |
| \[{F}_{\mathrm{Rubinow}}\] | | Force de Rubinow | Rubinow force | \[{F}_{\mathrm{Rubinow}}=\frac{\pi }{16}\rho u{d}_{p}^{3}\dot{\gamma }\] | N |
| \[{F}_{\mathrm{Saffman}}\] | | Force de Saffman | Saffman force | \[{F}_{\mathrm{Saffman}}=1,61{\rho }_{L}{\nu }^{1/2}u{d}_{p}^{2}{\dot{\gamma }}^{1/2}\] | N |
| \[{F}_{D}\] | [25] | Force de traînée ou force de frottement visqueux | Force | | N |
| \[{\phi }_{S}\] | [26] | Fraction volumique de phase solide | Volumetric solid phase fraction | | - |
| \[{K}^{-1}\] | [27] | longueur de Debye-Hückel | | \[{K}^{-1}={\left(\frac{\varepsilon {k}_{B}T}{{2N}_{A}{e}^{2}I}\right)}^{1/2}\] | - |
| \[{M}_{a}\] | [28] | Masse ajoutée | Added weight | | kg |
| \[{\rho }_{L}\] | | Masse volumique du liquide | Liquid density | | kg/m3 |
| \[{\rho }_{S}\] | | Masse volumique du solide | Solid density | | kg/m3 |
| \[{m}_{\mathrm{vk}}\] | | moment d'ordre k variable volume | kth-order moment-volume variable | \[{m}_{\mathrm{vk}}={\int }_{0}^{\infty }{n}_{v}\left({v}_{p}\right){v}_{p}^{k}{{dv}}_{p}\] | m3k-3 |
| \[\mathrm{Ar}\] | | Nombre d'Archimède | Archimides Number | \[\mathrm{Ar}=\frac{{d}_{p}^{3}g\mid {\rho }_{S}-{\rho }_{L}\mid }{{\rho }_{L}{\nu }^{2}}\] | - |
| \[\mathrm{Fr}{\mathrm{'}}_{\left(p\right)}\] | | Nombre de Froude modifié | Particle Froude number | \[\mathrm{Fr}{\mathrm{'}}_{p}=\frac{{\rho }_{L}{U}_{L}^{2}}{\mid {\rho }_{S}-{\rho }_{L}\mid {d}_{p}g}\] | - |
| \[\mathrm{Nu}\] | | Nombre de Nusselt | Nusselt Number | \[\mathrm{Nu}=\left({k}_{T}{d}_{p}\right)/\alpha \] | - |
| \[\mathrm{Pr}\] | | Nombre de Prandtl | Prandtl number | \[\mathrm{Pr}=\nu /\alpha \] | - |
| \[{N}_{p}\] | | Nombre de puissance | Power number | \[{\epsilon }_{M}=\frac{{N}_{p}{N}^{3}{D}^{5}}{{V}_{T}}\] | - |
| | Nombre de Reynolds (tube) | Reynolds number (tube) | \[\mathrm{Re}={\mathrm{VD}}_{T}/\nu \] | - |
| \[{\mathrm{Re}}_{A}\] | | Nombre de Reynolds agitateur | Reynolds stirrer number | \[{\mathrm{Re}}_{A}=\frac{{\mathrm{ND}}^{2}}{\nu }\] | - |
| \[{\mathrm{Re}}_{p}\] | | Nombre de Reynolds particulaire | Reynold's Number of particle | \[{\mathrm{Re}}_{p}=\frac{{\rho }_{L}U{d}_{p}}{\mu }\] | - |
| \[{\mathrm{Re}}_{\mathrm{pc}}\] | | Nombre de Reynolds particulaire dans l'écoulement cisaillé | Reynolds number in | | - |
| \[{\beta }_{\mathrm{AG}}\] | | noyau d'agglomération | agglomeration kernel | \[{R}_{\mathrm{AG}}={r}_{\mathrm{col}}\alpha {\eta }_{\mathrm{AG}}={\beta }_{\mathrm{AG}}{N}_{i}{N}_{j}\] | m3.s-1 |
| \[n\] | | ordre de nucléation | | | - |
| \[k\] | | ordre du moment | moment order | | - |
| \[{S}_{Z}\] | | Paramètre de Zwietering | Zwietering's constant | \[{N}_{\mathrm{JS}}={S}_{Z}\frac{{\nu }^{0,1}{d}_{p}^{0,2}}{{D}^{0,85}}{\left(g\frac{\left({\rho }_{S}-{\rho }_{L}\right)}{{\rho }_{L}}\right)}^{0,45}{\left(\frac{{\rho }_{S}{\phi }_{S}}{{\rho }_{L}\left(1-{\phi }_{S}\right)}\right)}^{0,13}\] | - |
| \[k\] | [29] | Perméabilité | Permeability | | m2 |
| \[{\epsilon }_{M}\] | [30] | Puissance dissipée | Energy dissipation rate | | m2/s3 (=W/kg) |
| \[{N}_{\mathrm{AG}}\] | | rapport des flux d'agglomération et de croissance | agglomeration flux to growth flux ratio | \[{N}_{\mathrm{AG}}=\frac{{F}_{\mathrm{AG}}}{{F}_{G}}=\frac{{d}_{\mathrm{pj}}^{3}{\beta }_{\mathrm{AG}}N\left({d}_{\mathrm{pj}}\right)}{{3d}_{\mathrm{pi}}^{2}G}\] | - |
| \[{S}_{p}\] | [31] | Section | Section | | m2 |
| \[a\] | [32] | Surface spécifique | Specific surface | | m2/m3 |
| \[{d}_{\mathrm{pi}}\] | | taille de particule i | i-particle size | | m |
| \[t\] | | temps | time | | s |
| \[{t}_{m}\] | [33] | Temps de mélange | Mixing time | | s |
| \[\sigma \] | [34] | tension interfaciale | | \[\sigma ={\left(\frac{\partial G}{\partial \Omega }\right)}_{T,P,{n}_{i}}\] | J/m2 |
| \[\sigma \] | [35] | tension interfaciale | | \[\sigma ={\left(\frac{\partial G}{\partial \Omega }\right)}_{T,P,{n}_{i}}\] | J/m2 |
| \[\tau \] | [36] | Tortuosité | Tortuosity | | - |
| \[{M}_{k,\mathrm{AG}}\] | | transformée de vitesse d'agglomération | agglomeration rate transform | \[\begin{array}{rcl}
{M}_{k,\mathrm{AG}}&=&{\beta }_{\mathrm{AG}}{\int }_{0}^{\infty }\frac{1}{2}\left[{\int }_{0}^{{v}_{p}}{n}_{v}\left({v}_{\mathrm{p1}}\right){n}_{v}\left({v}_{\mathrm{p2}}\right)
{{dv}}_{\mathrm{p1}}\right. \\
&-& \left.
{n}_{v}\left({v}_{p}\right)
{\int }_{0}^{\infty }{n}_{v}\left(v{\textrm{'}}_{p}\right){dv}
{\textrm{'}}_{p}
\right]
{v}_{p}^{k}{{dv}}_{p}\end{array}
\] | m3k-3.s-1 |
| \[\mu \] | | viscosité dynamique | dynamic viscosity | | kg.m-1.s-1 |
| \[{u}_{\Omega }\] | | Vitesse angulaire | Angular velocity | | rad/s |
| \[N\] | [37] | Vitesse d'agitation | Stirring rate | | s-1 |
| \[{N}_{\mathrm{min}}\] | | Vitesse d'agitation minimale pour éviter la redéposition du solide ou son décollage du fond | Minimum stirring speed | \[{N}_{\mathrm{min}}=5,1{N}_{p}^{-7/18}\cdot {\left(\frac{T}{D}\right)}^{3/2}\cdot {\left(\frac{{d}_{p}g\mid {\rho }_{S}-{\rho }_{L}\mid }{{D}^{2}{\rho }_{L}}\right)}^{1/2}\] | s-1 |
| \[{N}_{\mathrm{JS}}\] | | Vitesse d'agitation minimum de Zwietering | Just suspended stirring speed (Zwietering's correlation) | \[{N}_{\mathrm{JS}}={S}_{Z}\frac{{\nu }^{0,1}{d}_{p}^{0,2}}{{D}^{0,85}}{\left(g\frac{\left({\rho }_{S}-{\rho }_{L}\right)}{{\rho }_{L}}\right)}^{0,45}{\left(\frac{{\rho }_{S}{\phi }_{S}}{{\rho }_{L}\left(1-{\phi }_{S}\right)}\right)}^{0,13}\] | s-1 |
| \[{r}_{\mathrm{col}}\] | [38] | vitesse de collision | collision rate | \[{r}_{\mathrm{col}}={k}_{\mathrm{col}}{f}_{\mathrm{col}}\left({d}_{\mathrm{pi}},{d}_{\mathrm{pj}}\right){N}_{i}{N}_{j}\] | m-3.s-1 |
| \[G\] | [39] | vitesse de croissance cristalline | crystalline growth rate | | m.s-1 |
| \[{r}_{N}\] | [40] | vitesse de nucléation | nucleation rate | | m-3.s-1 |
| \[{u}_{\mathrm{te},\phi }\] | [41] | Vitesse de terminale de chute corrigée | Corrected terminal fall velocity | | m/s |
| \[{u}_{L}\] | [42] | Vitesse du liquide | Fluid velocity | | m/s |
| \[{u}_{\mathrm{tip}}\] | | Vitesse en bout de pale | Tip speed | \[{u}_{\mathrm{tip}}=\pi ND\] | m/s |
| \[u\mathrm{'}\] | | Vitesse fluctuante | Velocity | | m/s |
| \[u\] | | Vitesse relative entre une particule et le fluide | Relative particle velocity | \[u={u}_{p}-{u}_{L}\] | m/s |
| \[{R}_{\mathrm{AG}}\] | [43] | vitesse spécifique d'agglomération | specific agglomeration rate | \[{R}_{\mathrm{AG}}={r}_{\mathrm{col}}\alpha {\eta }_{\mathrm{AG}}={\beta }_{\mathrm{AG}}{N}_{i}{N}_{j}\] | m-3.s-1 |
| \[{u}_{\mathrm{te}}\] | [44] | Vitesse terminale de chute libre | Terminal fall velocity | | m/s |
| \[{v}_{\mathrm{pc}}\] | | volume critique | criticle volume | \[{v}_{\mathrm{pc}}={\phi }_{v}{d}_{\mathrm{pc}}^{3}\] | m3 |
| \[{V}_{p}\] | | Volume de particule | Particle volume | | m3 |
| \[{v}_{p}\] | | volume de particule | particle volume | \[{v}_{p}={\phi }_{v}{d}_{p}^{3}\] | m3 |