Stirred Mill (Power, Heath)

${\displaystyle Parameters={\begin{bmatrix}d_{\rm {ID}}{\text{ (m)}}\\d_{\rm {r}}{\text{ (m)}}\\d_{\rm {s}}{\text{ (m)}}\\h_{\rm {b}}{\text{ (m)}}\\n_{\rm {d}}\\d_{\rm {b}}{\text{ (m)}}\\\rho _{\rm {m}}{\text{ (v/v)}}\\\rho _{\rm {b}}{\text{ (t/m}}^{3}{\text{)}}\\\rho _{\rm {s}}{\text{ (t/m}}^{3}{\text{)}}\\\mu {\text{ (N.s/m}}^{2}{\text{)}}\\Q{\text{ (m}}^{3}{\text{/s)}}\\N_{\rm {r}}{\text{ (rpm)}}\\\end{bmatrix}},\;\;\;\;\;\;{\mathit {mdMillPower\_Heath}}={\begin{bmatrix}P{\text{ (kW)}}\\{\text{Iterations}}\\v_{\rm {r}}{\text{ (m/s)}}\\{\text{Re}}\\U_{\rm {s}}{\text{ (m/s)}}\\U_{\rm {slip}}{\text{ (m/s)}}\\U_{\rm {rise}}{\text{ (m/s)}}\\\rho _{\rm {s,g}}{\text{ (t/m}}^{3}{\text{)}}\\\rho _{\rm {s,c}}{\text{ (t/m}}^{3}{\text{)}}\\\end{bmatrix}}\;\;\;\;\;\;\;\;\;\;\;\;}$

where:

• ${\displaystyle d_{\rm {ID}}}$ is the internal diameter of the mill (m)
• ${\displaystyle d_{\rm {r}}}$ is the rotor tip diameter (m)
• ${\displaystyle d_{\rm {s}}}$ is the rotor shaft diameter (m)
• ${\displaystyle h_{\rm {b}}}$ is the height of the bead bed (m)
• ${\displaystyle n_{\rm {d}}}$ is the number of submerged discs
• ${\displaystyle d_{\rm {b}}}$ is the bead diameter (m)
• ${\displaystyle \phi _{\rm {m}}}$ is the fraction of mill volume occupied by beads (v/v)
• ${\displaystyle \rho _{\rm {b}}}$ is the density of the grinding beads (t/m³)
• ${\displaystyle \rho _{\rm {s}}}$ is the density of slurry (t/m³)
• ${\displaystyle \mu }$ is the slurry viscosity (N.s/m²)
• ${\displaystyle Q}$ is the volumetric flow rate of slurry feed to the mill (m³/s)
• ${\displaystyle N_{\rm {r}}}$ is the rotational speed of the rotor (rpm)
• ${\displaystyle P}$ is mill power (kW)
• ${\displaystyle {\text{Iterations}}}$ is the number of internal iterations
• ${\displaystyle v_{\rm {r}}}$ is the rotor tip velocity (m/s)
• ${\displaystyle {\text{Re}}}$ is the Reynolds Number
• ${\displaystyle U_{\rm {s}}}$ is the Stokes settling rate (m/s)
• ${\displaystyle U_{\rm {slip}}}$ is is the slip velocity (m/s)
• ${\displaystyle U_{\rm {rise}}}$ is the rise velocity (m/s)
• ${\displaystyle \rho _{\rm {s,g}}}$ is the solids pressure due to gravity (N/m²)
• ${\displaystyle \rho _{\rm {s,c}}}$ is the solids pressure due to centrifugal force (N/m²)