Tumbling Mill (Power, Morrell Empirical): Difference between revisions

From Met Dynamics
Jump to navigation Jump to search
md>Scott.Munro
m (Text replacement - "_{max}" to "_{\rm max}")
imported>Scott.Munro
 
(One intermediate revision by one other user not shown)
Line 7: Line 7:
== Model theory ==
== Model theory ==


{{Restricted content}}
<hide>
[[File:TumblingMillDimensions2.png|thumb|500px|Figure 1. Schematic of a tumbling mill showing key dimensions.]]
[[File:TumblingMillDimensions2.png|thumb|500px|Figure 1. Schematic of a tumbling mill showing key dimensions.]]


Line 53: Line 56:


where <math>\alpha_{c}</math> is the cone angle, measured as the angular displacement of the cone surface from the vertical direction.
where <math>\alpha_{c}</math> is the cone angle, measured as the angular displacement of the cone surface from the vertical direction.
</hide>


== Excel ==
== Excel ==

Latest revision as of 11:13, 4 December 2024

Description

This article describes the Morrell Empirical (Morrell E) method for estimating the power draw of a tumbling mill.[1]

The Morrell E model is a set of empirical equations based on the performance of the theoretical Morrell Continuum model. The model was originally intended to be simpler, and therefore easier to use in practice, than the theoretical Morrell C method.

Model theory

Nuvola apps important blue.svg.png This content is available to registered users. Please log in to view.

Excel

The Morrell Empirical mill power model may be invoked from the Excel formula bar with the following function call:

=mdMillPower_MorrellE(Parameters as Range)

Invoking the function with no arguments will print Help text associated with the model, including a link to this page.

The Parameters array and model results are defined below in matrix notation, along with an example image showing the selection of the same arrays in the Excel interface:


where:

  • is the diameter of the discharge trunnion (m)
  • is the mass fraction of solids in the discharge pulp (% w/w)
  • is the density of liquids (t/m3)
  • is the power the mill would draw if configured with a grate discharge (kW)
  • is the power the mill would draw if configured with an overflow discharge (kW)


Figure 2. Example showing the selection of the Parameters (blue frame), and Results (light blue frame) arrays in Excel.

SysCAD

The Morrell Empirical power model is an optional calculation for tumbling mill units. If selected, the input and display parameters below are shown.

Tag (Long/Short) Input / Display Description/Calculated Variables/Options
MorrellE
HelpLink ButtonModelHelp.png Opens a link to this page using the system default web browser. Note: Internet access is required.
MillDiameter Input/Display Diameter of the mill (inside liners).
BellyLength Input/Display Length of the cylindrical section (belly) of the mill (inside liners).
TrunnionDiameter Input/Display Diameter of the trunnion (inside liners).
FracCS Input/Display Fraction critical speed of the mill.
Jt Input/Display Volumetric fraction of the mill occupied by balls and coarse rock (including voids).
Jb Input/Display Volumetric fraction of the mill occupied by balls (including voids).
Voidage Input/Display Volumetric fraction of interstitial void space in the charge. Usually 0.4.
VoidFillFraction Input/Display Volumetric fraction of interstitial grinding media voidage occupied by slurry.
ConeAngle Input/Display Angular displacement of the cone surface from the vertical direction.
DischargePulpDensity Display Mass fraction of solids in discharge slurry.
SolidsSG Display Specific Gravity or density of solids.
LiquidsSG Display Specific Gravity or density of liquids.
BallSG Input/Display Specific Gravity or density of balls.
NoLoadPower Display Power input to the motor when the mill is empty (no balls, rocks or slurry).
NetPower.Grate Display Charge motion power, including losses, for a grate discharge mill.
NetPower.Overflow Display Charge motion power, including losses, for an overflow discharge mill.
GrossPower.Grate Display Gross power input to the motor, grate discharge mill.
GrossPower.Overflow Display Gross power input to the motor, overflow discharge mill.

See also

References

  1. Morrell, S., 1996. Power draw of wet tumbling mills and its relationship to charge dynamics. Pt. 2: an empirical approach to modelling of mill power draw. Transactions of the Institution of Mining and Metallurgy. Section C. Mineral Processing and Extractive Metallurgy, 105.