Template:Model theory (Text, Hydrocyclone, Partition Metrics): Difference between revisions

Latest revision as of 13:22, 2 March 2023

Several metrics are provided to characterise the partition curve.

The $d_{50}$ , also known as the cut or separation size, is defined as the size of a particle which has an even (50%) chance of appearing in either the underflow or overflow stream. The $d_{50}$ size is estimated via a log-linear interpolation of geometric mean size ( $\ln {\bar {d}}$ ) against the uncorrected partition to underflow of all solids in the feed.

The Ecart Probable, or $E_{\rm {p}}$ , is a measure of the deviation of a partition curve from a perfect separation, and is typically defined for size classification as:^[1]

E_{\rm {p}}={\dfrac {d_{75}-d_{25}}{2}}

where $d_{75}$ and $d_{25}$ are the sizes of particles which have a 75% and 25% probability, respectively, of appearing in the underflow stream. The $d_{75}$ and $d_{25}$ sizes are estimated by log-linear interpolation of geometric mean size against the uncorrected partition to underflow of all solids in the feed.

The Imperfection, $I$ , is a normalised measure of the sharpness of separation, which is suggested to be independent of the magnitude of the $d_{50}$ , and is typically defined for size classification as:^[1]

I={\dfrac {E_{\rm {p}}}{d_{50}}}={\dfrac {d_{75}-d_{25}}{2d_{50}}}

↑ ^1.0 ^1.1 Gupta, A. and Yan, D.S., 2016. Mineral processing design and operations: an introduction. Elsevier.

[Gupta_and_Yan_(2016)-1] 1.0 ^1.1 Gupta, A. and Yan, D.S., 2016. Mineral processing design and operations: an introduction. Elsevier.

[1]

@@ Line 3: / Line 3: @@
 The <math>d_{50}</math>, also known as the '''cut or separation size''', is defined as the size of a particle which has an even (50%) chance of appearing in either the underflow or overflow stream. The <math>d_{50}</math> size is estimated via a log-linear [[Interpolation|interpolation]] of geometric mean size (<math>\ln \bar d</math>) against the uncorrected partition to underflow of all solids in the feed.
-The '''Ecart Probable''', or <math>E_p</math>, is a measure of the deviation of a partition curve from a perfect separation, and is typically defined for size classification as:{{Gupta and Yan (2016)}}
+The '''Ecart Probable''', or <math>E_{\rm p}</math>, is a measure of the deviation of a partition curve from a perfect separation, and is typically defined for size classification as:{{Gupta and Yan (2016)}}
-:<math>E_p = \dfrac{d_{75} - d_{25}}{2}</math>
+:<math>E_{\rm p} = \dfrac{d_{75} - d_{25}}{2}</math>
 where <math>d_{75}</math> and <math>d_{25}</math> are the sizes of particles which have a 75% and 25% probability, respectively, of appearing in the underflow stream. The <math>d_{75}</math> and <math>d_{25}</math> sizes are estimated by log-linear interpolation of geometric mean size against the uncorrected partition to underflow of all solids in the feed.
@@ Line 11: / Line 11: @@
 The '''Imperfection''', <math>I</math>, is a normalised measure of the sharpness of separation, which is suggested to be independent of the magnitude of the <math>d_{50}</math>, and is typically defined for size classification as:{{Gupta and Yan (2016)}}
-:<math>I = \dfrac{E_p}{d_{50}} = \dfrac{d_{75} - d_{25}}{2 d_{50}}</math>
+:<math>I = \dfrac{E_{\rm p}}{d_{50}} = \dfrac{d_{75} - d_{25}}{2 d_{50}}</math>

Template:Model theory (Text, Hydrocyclone, Partition Metrics): Difference between revisions

Latest revision as of 13:22, 2 March 2023

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