Template:SysCAD (Page, HPGR, Torres, HPGR): Difference between revisions

From Met Dynamics
Jump to navigation Jump to search
m (1 revision imported)
imported>Scott.Munro
 
Line 21: Line 21:
|Diameter of the rolls.
|Diameter of the rolls.
|-
|-
|RollDiameter / D
|RollLength / L
|Input
|Input
|Diameter of the rolls.
|Length of the rolls.{{#ifeq: {{{Method}}}| Torres|<nowiki />
|-
{{!}}-
|Gap / s0
{{!}} Gap / s0
|Input
{{!}} Input
|Gap between the rolls.
{{!}} Gap between the rolls.}}
|-
|-
|OperatingPressure / Rp
|OperatingPressure / Rp
|Input
|Input
|Operating pressure of the rolls.
|Operating pressure of the rolls.{{#ifeq: {{{Method}}}| Campos|<nowiki />
{{!}}-
{{!}} MaxRollsVelocity / Umax
{{!}} Input
{{!}} Maximum peripheral velocity of the rolls.}}
|-
|-
|FeedBulkDensity / Rhoa
|FeedBulkDensity / Rhoa
Line 43: Line 47:
|EdgeFraction / a
|EdgeFraction / a
|Input
|Input
|Fraction of the product collected from the edge of the rolls length, appearing in the edge product stream.
|Fraction of the product collected from the edge of the rolls length, appearing in the edge product stream.{{#ifeq: {{{Method}}}| Torres|<nowiki />
|-
{{!}}-
|ForceAngleFactor
{{!}} ForceAngleFactor
|Input
{{!}} Input
|Factor applied to alphaIP when computing power draw.
{{!}} Factor applied to alphaIP when computing power draw.}}
|-
|-
|NumBlocks / Nb
|NumBlocks / Nb
|Input
|Input
|Number of model blocks, i.e. instances of the [[Mill (Herbst-Fuerstenau)|Herbst-Fuerstenau]] mill model along the length of the rolls.{{#ifeq: {{{Campos}}}| true |<nowiki />
|Number of model blocks, i.e. instances of the [[Mill (Herbst-Fuerstenau)|Herbst-Fuerstenau]] mill model along the length of the rolls.{{#ifeq: {{{Method}}}| Campos|<nowiki />
{{!}}-
{{!}}-
{{!}} GapBetweenStuds / xgStud
{{!}} GapBetweenStuds / xgStud
Line 92: Line 96:


|-
|-
! colspan="3" style="text-align:left;" |''Results''
! colspan="3" style="text-align:left;" |''Results''{{#ifeq: {{{Method}}}| Torres|<nowiki />
|-  
{{!}}-  
|CakeDensity / delta
{{!}} CakeDensity / delta
|style="background: #eaecf0" | Display
{{!}}style="background: #eaecf0" {{!}} Display
|Solids density of the cake.
{{!}} Solids density of the cake.}}{{#ifeq: {{{Method}}}| Campos|<nowiki />
{{!}}-
{{!}} CakeDensity / Rhog
{{!}}style="background: #eaecf0" {{!}} Display
{{!}} Solids density of the cake.
{{!}}-
{{!}} Gap / s0
{{!}}style="background: #eaecf0" {{!}} Display
{{!}} Gap between the rolls.}}
|-  
|-  
|CriticalSize / xc
|CriticalSize / xc
Line 105: Line 117:
|style="background: #eaecf0" | Display
|style="background: #eaecf0" | Display
|Interparticle compression angle.
|Interparticle compression angle.
{{#ifeq: {{{Campos}}}| true |<nowiki />
|-
|Throughput / Gs
|style="background: #eaecf0" | Display
|Solids mass throughput flow rate of the HPGR.
{{#ifeq: {{{Method}}}| Campos|<nowiki />
{{!}}-
{{!}}-
{{!}} FeedEjectionFrac / EjectDelta
{{!}} FeedEjectionFrac / EjectDelta
Line 138: Line 154:
|style="background: #eaecf0" | Display
|style="background: #eaecf0" | Display
|Specific energy of grinding.
|Specific energy of grinding.
{{#ifeq: {{{Campos}}}| true |<nowiki />
{{#ifeq: {{{Method}}}| Campos|<nowiki />
{{!}}-
{{!}}-
{{!}} EnergyUtilisation / Psi
{{!}} EnergyUtilisation / Psi

Latest revision as of 09:26, 19 July 2024

HPGR page

The HPGR page is used to specify the input parameters for the HPGR model.

Tag (Long/Short) Input / Display Description/Calculated Variables/Options
HerbstFuerstenau
HelpLink ButtonModelHelp.png Opens a link to this page using the system default web browser. Note: Internet access is required.
Requirements
NumParallelUnits Input The number of parallel, identical units to simulate:
  • Feed is divided by the number of parallel units before being sent to the unit model.
  • Unit model product is multiplied back by the same value and returned to the SysCAD product stream.
  • All unit model result values are shown per parallel unit.
Parameters
RollDiameter / D Input Diameter of the rolls.
RollLength / L Input Length of the rolls.
OperatingPressure / Rp Input Operating pressure of the rolls.
FeedBulkDensity / Rhoa Input Bulk density of solids in the feed.
CakeDensityFactor Input Cake density factor.
EdgeFraction / a Input Fraction of the product collected from the edge of the rolls length, appearing in the edge product stream.
NumBlocks / Nb Input Number of model blocks, i.e. instances of the Herbst-Fuerstenau mill model along the length of the rolls.
Selection
Method User The user specifies the selection function.
Herbst and Fuerstenau The Herbst and Fuerstenau selection function is used.
Austin The Austin selection function is used.
OreSpecific CheckBox Ore-specific parameters, allows the selection function to be separately input for all species. Default is all species have the same set of single input properties.
This option is only available if there is more than one species in the project with the size distribution property.
The fields below are only visible if Herbst-Fuerstenau is selected.
S1E Input Input parameter of the Herbst-Fuerstenau selection function.
Zeta1 Input Input parameter of the Herbst-Fuerstenau selection function.
Zeta2 Input Input parameter of the Herbst-Fuerstenau selection function.
dp1 Input Input parameter of the Herbst-Fuerstenau selection function.

MillHerbstFuerstenau5.png MillHerbstFuerstenau6.png

The fields below are only visible if Austin is selected.
Alpha0 Input Input parameter of the Austin selection function.
Alpha1 Input Input parameter of the Austin selection function.
Alpha2 Input Input parameter of the Austin selection function.
dCrit Input Input parameter of the Austin selection function.
Alpha02 Input Input parameter of the Austin selection function.
Alpha12 Input Input parameter of the Austin selection function.

MillHerbstFuerstenau7.png MillHerbstFuerstenau8.png

Breakage
Method User The user specifies the breakage function.
Austin and Luckie The Austin and Luckie breakage function is used.
King The King selection function is used.
Natural Selection The Natural selection function is used.
OreSpecific CheckBox Ore-specific parameters, allows the breakage function to be separately input for all species. Default is all species have the same set of single input properties.
This option is only available if there is more than one species in the project with the size distribution property.
The fields below are only visible if Austin and Luckie is selected.
Beta0 Input Input parameter of the Austin and Luckie breakage function.
Beta1 Input Input parameter of the Austin and Luckie breakage function.
Beta2 Input Input parameter of the Austin and Luckie breakage function.
Beta01 Input Input parameter of the Austin and Luckie breakage function.

MillHerbstFuerstenau9.png MillHerbstFuerstenau10.png

The fields below are only visible if King is selected.
K Input Input parameter of the King breakage function.
n1 Input Input parameter of the King breakage function.
n2 Input Input parameter of the King breakage function.
n3 Input Input parameter of the King breakage function.
y0 Input Input parameter of the King breakage function.

MillHerbstFuerstenau11.png MillHerbstFuerstenau12.png

Results
CriticalSize / xc Display Critical size.
InterparComprAngle / alphaIP Display Interparticle compression angle.
Throughput / Gs Display Solids mass throughput flow rate of the HPGR.
RollsVelocity / U Display Circumferential velocity of the rolls.
RollsSpeed Display Rotational speed of the rolls.
SpecificThroughput / mDot Display Specific throughput parameter of the HPGR unit.
CompressionForce / F Display Compression force of the rolls.
GrossPower / P Display Gross power draw of the HPGR unit
SpecificEnergy / W Display Specific energy of grinding.