Template:Model theory (Text, Whiten-Beta Efficiency Curve): Difference between revisions

${\displaystyle E_{\rm {oa}}({\bar {d}}_{i})=C\left[{\dfrac {\left(1+\beta \beta ^{*}{\dfrac {{\bar {d}}_{i}}{d_{\rm {50c}}}}\right)(\exp(\alpha )-1)}{\exp \left(\alpha \beta ^{*}{\dfrac {{\bar {d}}_{i}}{d_{\rm {50c}}}}\right)+\exp(\alpha )-2}}\right]}$

where:

• ${\displaystyle i}$ is the index of the size interval, ${\displaystyle i=\{1,2,\dots ,n\}}$, ${\displaystyle n}$ is the number of size intervals
• ${\displaystyle E_{\rm {oa}}({\bar {d}}_{i})}$ is the fraction of particles of size interval ${\displaystyle i}$ in the feed reporting to the overflow stream (frac)
• ${\displaystyle {\bar {d}}_{i}}$ is the geometric mean size of particles in size interval ${\displaystyle i}$ (mm)
• ${\displaystyle d_{\rm {50c}}}$ is the corrected size at which 50% of the particle mass reports to underflow and 50% to overflow (mm)
• ${\displaystyle C}$ is the fraction of feed liquids (or fines) split to overflow (frac)
• ${\displaystyle \alpha }$ is a parameter representing the sharpness of separation
• ${\displaystyle \beta }$ is a term introduced to accommodate the so-called fish-hook effect, and controls the initial rise in the efficiency curve at finer sizes
• ${\displaystyle \beta ^{*}}$ is computed to ensure the Whiten-Beta function preserves the definition of ${\displaystyle d_{\rm {50c}}}$ in the presence of the fish-hook, i.e. ${\displaystyle E=0.5C}$ at ${\displaystyle d_{\rm {50c}}}$