Difference between revisions of "Template:BarrattEsagEquation"
(→Barratt SAG Specific Energy Equation) |
(→Barratt SAG Specific Energy Equation) |
||
Line 14: | Line 14: | ||
− | <math></noinclude>{{{E|E_{SAG}}}} = \left [ |
+ | <math></noinclude>{{{E|E_{SAG}}}} = \left [ \left ( |
{{{WiC|Wi_{C} }}} \times \left ( \frac {10}{\sqrt{ {{{Pc|P_{C} }}} }} - \frac {10}{\sqrt{ {{{F80|F_{80} }}} }} \right ) + |
{{{WiC|Wi_{C} }}} \times \left ( \frac {10}{\sqrt{ {{{Pc|P_{C} }}} }} - \frac {10}{\sqrt{ {{{F80|F_{80} }}} }} \right ) + |
||
{{{WiRM|Wi_{RM}}}} \times \left ( \frac {10}{\sqrt{ {{{Pr|P_{R} }}} }} - \frac {10}{\sqrt{ {{{Pc|P_{C} }}} }} \right ) \times EF_4^{RM} + |
{{{WiRM|Wi_{RM}}}} \times \left ( \frac {10}{\sqrt{ {{{Pr|P_{R} }}} }} - \frac {10}{\sqrt{ {{{Pc|P_{C} }}} }} \right ) \times EF_4^{RM} + |
||
{{{WiBM|Wi_{BM}}}} \times \left ( \frac {10}{\sqrt{110} } - \frac {10}{\sqrt{ {{{Pr|P_{R} }}} }} \right ) \times EF_4^{BM} |
{{{WiBM|Wi_{BM}}}} \times \left ( \frac {10}{\sqrt{110} } - \frac {10}{\sqrt{ {{{Pr|P_{R} }}} }} \right ) \times EF_4^{BM} |
||
− | \right |
+ | \right )\times 1.25 |
− | - {{{WiBM|Wi_{BM}}}} \times \left ( \frac {10}{\sqrt{ {110} }} - \frac {10}{\sqrt{ {{{T80|T_{80} }}} }} \right ) <noinclude></math> |
+ | - {{{WiBM|Wi_{BM}}}} \times \left ( \frac {10}{\sqrt{ {110} }} - \frac {10}{\sqrt{ {{{T80|T_{80} }}} }} \right ) \right ] <noinclude></math> |
See list of pages that use this formula: {{Special:WhatLinksHere/Template:BarrattEsagEquation}} |
See list of pages that use this formula: {{Special:WhatLinksHere/Template:BarrattEsagEquation}} |
Latest revision as of 20:35, 6 November 2012
Barratt SAG Specific Energy Equation
This is a basic equation of the family of Bond/Barratt calculations. It describes specific energy requirement of a SAG (or Autogenous) mill Esag as a function of feed size F80, transfer size T80 and the work index values at three different sizes:
- WiC: the Bond low-energy impact crushing work index, covers 20 mm to 100 mm size range.
- WiRM: the Bond rod mill work index, covers 2 mm to 10 mm size range.
- WiBM: the Bond ball mill work index, less than 2 mm size range.
There are a series of calibration parameters that correspond to the size ranges listed above. It is useful to think of this model as a hypothetical 3-stage crushing — rod mill — ball mill circuit with a calibration adjustment (1.25) for SAG milling.
- PC is the hypothetical tertiary crusher product size (default=18850 µm)
- PR is the hypothetical rod mill product size (default=2100 µm)
Three Rowland Efficiency Factor adjustments are required:
- EF4RM is the oversize feed factor for rod milling, and is a function of the hypothetical crusher product size or the larger of work index for crushing and work index for rod milling.
- EF4BM is the oversize feed factor for ball milling, and is a function of the hypothetical rod mill product size and the work index for rod milling.
See list of pages that use this formula: