Heap Leach - Optional Data Sections
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Navigation: Models ➔ Material Handling Models ➔ Heap Leach ➔ Optional Data Sections
| Heap Leach | Heap Leach - Optional Data Sections |
|---|
Available from Build 139.32925.
LayersCfg Tab Page
Only displayed if OverallLayerDefn is NOT enabled.
| Tag / Symbol | Input/ Calc | Description |
|---|---|---|
| (the following input fields are shown in a table with separate rows for each layer) | ||
| CapacityMass / CapMass | Input | The total mass capacity for the specific layer. |
| VapCapVol | Input | Only displayed if WithVapours option is ticked on the HeapLeach tab. The total vapour volume capacity for the specific layer. |
| Fixed.T | Input | Only displayed if UseFixedT option is ticked on the HeapLeach tab. The fixed temperature for the specific layer. |
| LiqHoldUp.Min | Input | Minimum Liquid Holdup: The minimum amount of liquid required before liquid starts to flow to the next layer. The flow rate will then be "LiqDrain.MinQm". |
| LiqHoldUp.Oper | Input | Operating Liquid Holdup: This defines the holdup condition at which the liquid flows at the maximum drain flow rate, "LiqDrain.MaxQm". |
| LiqHoldUp.Max | Input | Maximum Liquid Holdup: The maximum amount of liquid that can accumulate in a layer. |
| LiqDrain.MinQm | Input | Only visible if the 'Massflow' Liquid Drain Method is chosen. The minimum mass flow rate of liquids from the specific layer provided that other conditions are met. |
| LiqDrain.MaxQm | Input | Only visible if the 'Massflow' Liquid Drain Method is chosen. The maximum mass flow rate of liquids from the specific layer. |
| LiqDrain.MinQv | Input | Only visible if the 'Volumeflow' Liquid Drain Method is chosen. The minimum volumetric flow rate of liquids from the specific layer provided that other conditions are met. |
| LiqDrain.MaxQv | Input | Only visible if the 'Volumeflow' Liquid Drain Method is chosen. The maximum volumetric flow rate of liquids from the specific layer. |
| LiqDrain.ReqdSolFrac / ReqdSf | Input | Only visible if the 'Massflow' or 'Volumeflow' Liquid Drain Methods are chosen. The required fraction of solids in the specific layer. |
| (the following input fields are shown in a table with separate rows for each layer) | ||
| Side.ReqdEvapQm | Input | Flow of water lost due to evaporation from the specific layer. |
| BulkDensity / BulkDens | Input | Only visible if the 'Fixed override' bulk density method is chosen on the HeapLeach tab. The bulk density of the solid material in the specific layer. |
| BulkDensityFactor / BulkFactor | Input | Only visible if the 'Factor' bulk density method is chosen. The fraction of free space or voidage around the solid material in the specific layer. |
| Feed.ChannelMethod / FdChanMeth | None | With this method no channelling of liquid occurs. Liquid moves from one layer to the next. |
| Exit | With this method a predefined fraction of liquid exits from the specific layer and directly reports to the product. | |
| One Layer | With this method a predefined fraction of liquid can channel down one layer and re-enter the next. | |
| Multi Prop | With this method a predefined fraction of liquid can channel down from the specific layer and re-enter a predefined number of layers below. The amount of liquid re-entering each layer is based on a fraction proportional to the number of layers. | |
| Multi Equal | With this method a predefined fraction of liquid can channel down from the specific layer and re-enter a predefined number of layers below. The amount of liquid re-entering all the predefined layers below are equal. | |
| Feed.ChannelFrac / FdChanFrac | Input/Display | Only visible if the 'Feed.ChannelMethod' selected is anything other than 'None'. The fraction of feed channelling to the next layer. |
| Feed.ChannelMaxLayers / FdChanMax | Input/Display | Only visible if the 'Feed.ChannelMethod' selected is anything other than 'None'. Number of feed layers down. Is an input field if 'Multi Prop' or 'Multi Equal' are selected for the 'Feed.ChannelMethod'. |
| Total.CapacityMass | Display | The total capacity of the heap as a mass. |
VLayers Tab Page
Only displayed if WithVapours is enabled.
| Tag / Symbol | Input/ Calc | Description |
|---|---|---|
| Vapour layers (all 100% Vap) | ||
| (the following fields are shown in a table with separate rows for each layer) | ||
| FdVentFrac | Input | Only displayed if OverallLayerDefn is not ticked. The fraction of vapours to be vented from the layer. |
| FdChannelFrac | Input | Only displayed if OverallLayerDefn is not ticked. The fraction of vapours which channel (bypass) to the next layer. |
| ReqdLeakQm | Input | Only displayed if OverallLayerDefn is not ticked. The mass flow rate of vapours which leak (are lost) from a layer. |
| TotalMass / Mt | Display | The mass of vapours in a specific layer |
| TotalVol / Vt | Display | Volume of vapours in a specific layer. |
| FeedQm | Display | The mass flow of vapours flowing through the layer. |
| VentQm | Display | The mass flow of vapours venting from the layer (exiting from the layer). |
| Temp / T | Display | The temperature of the vapours in the specific layer. |
| VLayerTotal.TotalMass / Mt | Display | Total vapour mass content in the heap. |
| VLayerTotal.TotalVol / Vt | Display | Total vapour volume in the heap. |
Geom Tab Page
Only displayed if a Geometry method other than None is selected and the ShowGeometry option is enabled.
| Tag / Symbol | Input/ Calc | Description |
|---|---|---|
| (the following fields are shown in a table with separate rows for each layer) | ||
| SolidMass / SMt | Display | Mass of solids shown by layer. |
| SolidVol / SVt | Display | Volume of solids shown by layer. |
| BulkVol / BulkVt | Display | Bulk volume shown by layer. |
| BulkDens | Display | Bulk density shown by layer. |
| Width | Input | Visible if "Geometry.Method" is set to 'By Layer'. Width of the specific layer. |
| Length | Input | Visible if "Geometry.Method" is set to 'By Layer'. Length of the specific layer. |
| (the following fields are shown in a table with separate rows for each layer) | ||
| Thickness | Display | Layer thickness. |
| TopHeight | Display | Accummulated thickness. |
| TopPerim | Display | Layer perimeter, measured at the top of the specific layer. |
| TopArea | Display | Layer area, measured at the top of the specific layer. |
| SideArea | Display | Side area for the specific layer. |
Meas Tab Page
Only displayed if the CalcUserMeasurements and ShowUserMeasurements options are enabled.
| Tag / Symbol | Input/ Calc | Description |
|---|---|---|
| Measurements for Layer Contents Only | ||
| MeasXX | Display | Only visible if the 'MeasCount' on Global tab page is set greater than 0. The value of the measurement (MeasXX) is displayed by layer. The measurement is defined on the Global tab page. |
SolChange Tab Page
Only displayed if the CalcSolidsChange and ShowSolidsChange options are enabled.
| Tag / Symbol | Input/ Calc | Description |
|---|---|---|
| Hide / Show Zeros | Button |   Show or hide species with a value of zero.
|
| ResetInitMasses | Button |  Reset the initial masses used in calculations on this page.
|
| Overall changes in masses of solid species | ||
| (the following fields are shown in a table with separate rows for each solid species) | ||
| InitMass | Display | The initial overall mass of the relevant solid species. |
| Mass | Display | The overall mass of the relevant solid species. |
| RemainFrac | Display | The fraction of the initial overall mass of the relevant solid species that remains overall, (Mass / InitMass). Note: If InitMass = 0, then RemainFrac = 0. |
| DeltaMass | Display | The overall change in mass of the relevant solid species, (Mass - InitMass). |
| DeltaFrac | Display | The overall fractional change in mass for the relevant solids species from initial, (DeltaMass / InitMass). Notes: If InitMass and DeltaMass = 0, then DeltaFrac = 0. If InitMass = 0 and DeltaMass > 0 (i.e. Mass > 0), then DeltaFrac = 100%. |
| Layer X changes in masses of solid species | ||
| (the following fields are shown in a table with separate rows for each solid species) | ||
| InitMass | Display | The initial mass of the relevant solid species in the relevant layer. |
| Mass | Display | The mass of the relevant solid species in the relevant layer. |
| RemainFrac | Display | The fraction of the initial mass of the relevant solid species that remains in the relevant layer, (Mass / InitMass). Note: If InitMass = 0, then RemainFrac = 0. |
| DeltaMass | Display | The change in mass of the relevant solid species in the relevant layer, (Mass - InitMass). |
| DeltaFrac | Display | The fractional change in mass for the relevant solids species from initial in the relevant layer, (DeltaMass / InitMass). Notes: If InitMass and DeltaMass = 0, then DeltaFrac = 0. If InitMass = 0 and DeltaMass > 0 (i.e. Mass > 0), then DeltaFrac = 100%. |
RBCont Tab Page
Only displayed if the AllRB.Control option is enabled.
| Tag / Symbol | Input/ Calc | Description |
|---|---|---|
| RBControl... | ||
| WarnWhenInvalidEqn | Tickbox | If enabled, will give warnings in messages window if there is an error in the definition of an equation and the extent is not set. |
| ShowCalculatedExtents | Tickbox | If enabled, will show the extents of all reactions being set by the RB Control logic in each layer, on the RBExt tab page. |
| AllExtentsZero | Tickbox | If enabled, will set extents of all reactions to zero. |
| SetAllTimePeriod | Tickbox | If enabled, will allow the user to set a single time period for all reactions. |
| TimePeriod | Input | Only visible if SetAllTimePeriod is enabled. The time period for all reaction extents. |
| RBControl.RX... (for each reaction) | ||
| (the following options are available for any reaction using the Dynamic Fraction extent type) | ||
| ExtentOverride | None | No extent override method chosen. Extent can be set via RB page for each layer in the usual way. |
| Zero | Extent is set to zero in all layers. | |
| Fixed | Extent is a fixed value. This will apply to all layers. | |
| Equation1 (1 Term) |
Extent is calculated from a rate equation which includes a rate constant and one measurement raised to a user defined power. Rate = k1*Meas1^n1 | |
| Equation1 (2 Terms) |
Extent is calculated from a rate equation which includes a rate constant and two measurements raised to user defined powers. Rate = k1*Meas1^n1*Meas2^n2 | |
| Equation1 (3 Terms) |
Extent is calculated from a rate equation which includes a rate constant and three measurements raised to user defined powers. Rate = k1*Meas1^n1*Meas2^n2*Meas3^n3 | |
| Equation2 (1 Term) |
Extent is calculated from a rate equation which includes a rate constant with an Arrhenius term, and one measurement raised to a user defined power. Rate = k1*e^((-E/RT)+k2)*Meas1^n1 | |
| Equation2 (2 Terms) |
Extent is calculated from a rate equation which includes a rate constant with an Arrhenius term, and two measurements raised to user defined powers. Rate = k1*e^((-E/RT)+k2)*Meas1^n1*Meas2^n2 | |
| Equation2 (3 Terms) |
Extent is calculated from a rate equation which includes a rate constant with an Arrhenius term, and three measurements raised to user defined powers. Rate = k1*e^((-E/RT)+k2)*Meas1^n1*Meas2^n2*Meas3^n3 | |
| Equation3 | Extent is calculated from a rate equation which includes a rate constant multiplied by the difference between a user defined value and a measurement. Rate = k1*(Val-Meas1) | |
| Equation4 | Extent is calculated from a rate equation which includes a rate constant multiplied by the difference between a measurement and the minimum of that same measurement and another measurement, all divided by a third measurement. Rate = k1*(Meas1-min(Meas1,Meas2))/Meas3 | |
| Langmuir | Extent is calculated by quadratic solution for Langmuir equation to find equilibrium based on the Langmuir Adsorption Isotherm method. q=qmax(KC/(1+KC). To achieve Langmuir equilibrium for the simulation time step, the TimePeriod should be set equal to the time step. | |
| FracForTimePeriod | Input | Only visible if Fixed Extent Override method is chosen. The fixed value of the extent. |
| k1 | Input | Only visible if the Extent Override method chosen is NOT None, Zero or Fixed. A constant in the rate equation. For the Langmuir method, this is the K value. |
| k2 | Input | Only visible if the Extent Override method chosen is any of the Equation 2 methods. A constant in the Equation 2 rate equation. For the Langmuir method, this is the qmax value. |
| E | Input | Only visible if the Extent Override method chosen is any of the Equation 2 methods. The activation energy in kJ/kmol used in the Equation 2 rate equation. |
| Measurement1 | List | Only visible if the Extent Override method chosen is NOT None,Zero or Fixed. Select the desired measurement from the list of all measurements defined on the Global tab page. For the Langmuir method, this must be set to the metal concentration in the liquid phase. |
| n1 | Input | Only visible if the Extent Override method chosen is any of the Equation 1 or Equation 2 methods. The power to which the Measurement1 term is raised in the rate equation. |
| Measurement2 | List | Only visible if the Extent Override method chosen is Equation 4, Langmuir or any of the two or three term Equation 1 or Equation 2 methods. Select the desired measurement from the list of all measurements defined on the Global tab page. For the Langmuir method, this must be set to the total moles adsorbed to the resin. |
| n2 | Input | Only visible if the Extent Override method chosen is any of the two or three term Equation 1 or Equation 2 methods. The power to which the Measurement2 term is raised in the rate equation. |
| Measurement3 | List | Only visible if the Extent Override method chosen is Equation 4, Langmuir or any the three term Equation 1 or Equation 2 methods. Select the desired measurement from the list of all measurements defined on the Global tab page. For the Langmuir method, this must be set to the total resin mass. |
| n3 | Input | Only visible if the Extent Override method chosen is either the Equation 1 (3 terms) or Equation 2 (3 terms) method. The power to which the Measurement3 term is raised in the rate equation. |
| Val | Input | Only visible if the Extent Override method chosen is the Equation 3 method. A constant in the Equation 3 rate equation. |
| TimePeriod | Input/Display | Only visible if the Extent Override method chosen is NOT None or Zero. The time period for this reaction extent. Will be an input field if SetAllTimePeriod is NOT enabled. |
| ExtentLimitEqn | Only visible if the Extent Override method chosen is NOT None or Zero. | |
| Fixed Maximum | Extent is limited to a constant value per TimePeriod. | |
| Equation1 | Extent is limited by an equation which gradually reduces the extent to zero as a limit to a measured value is approached from below. Extent = CalculatedRate when ExtMeas1 << ExtLimit1. Extent = 0 when ExtMeas1 >> ExtLimit1. Rate = CalculatedRate*(1-(1/(1+e^((ExtLimit1-ExtMeas1)/ExtSpread1)))) | |
| Equation2 | Extent is limited by an equation which gradually reduces the extent to zero as a limit to a measured value is approached from above. Extent = CalculatedRate when ExtMeas2 >> ExtLimit2. Extent = 0 when ExtMeas2 << ExtLimit2. Rate = CalculatedRate*(1/(1+e^((ExtLimit2-ExtMeas2)/ExtSpread2))) | |
| Equations1 and 2 | Extent is limited by two equations which each gradually reduce the extent to zero as a limit to a measured value is approached from either direction (as explained for Equation 1 and 2 above). The limit is the quotient of the two equations. Rate = CalculatedRate*(1-(1/(1+e^((ExtLimit1-ExtMeas1)/ExtSpread1))))*(1/(1+e^((ExtLimit2-ExtMeas2)/ExtSpread2))) | |
| Fixed Max (per Iter) | Extent is limited to a constant value per Iteration (one timestep). | |
| Equation3 (per Iter) | Extent is limited by an equation with three measurements and a constant. Maximum Rate = ((ExtVal*ExtMeas1)-ExtMeas2)/ExtMeas3 Note: Maximum is per iteration, not per TimePeriod. | |
| ExtMax | Input | Only visible if the ExtentLimitEqn chosen is Fixed Maximum or Fixed Max (per Iter). The maximum extent. This restricts the result of any calculation of a rate equation. |
| ExtLimit1 | Input | Only visible if the ExtentLimitEqn chosen is Equation1 or Equations1 and 2. The limit term in Equation 1. |
| ExtSpread1 | Input | Only visible if the ExtentLimitEqn chosen is Equation1 or Equations1 and 2. The spread term in Equation 1. |
| ExtMeasurement1 | List | Only visible if the ExtentLimitEqn chosen is Equation1, Equations1 and 2 or Equation 3 (per Iter). Select the desired measurement from the list of all measurements defined on the Global tab page. |
| ExtLimit2 | Input | Only visible if the ExtentLimitEqn chosen is Equation2 or Equations1 and 2. The limit term in Equation 2. |
| ExtSpread2 | Input | Only visible if the ExtentLimitEqn chosen is Equation2 or Equations1 and 2. The spread term in Equation 2. |
| ExtMeasurement2 | List | Only visible if the ExtentLimitEqn chosen is Equation2, Equations1 and 2 or Equation 3 (per Iter). Select the desired measurement from the list of all measurements defined on the Global tab page. |
| ExtVal | Input | Only visible if the ExtentLimitEqn chosen is Equation3 (per Iter). The constant term in Equation 3. |
| ExtMeasurement3 | List | Only visible if the ExtentLimitEqn chosen is Equation3 (per Iter). Select the desired measurement from the list of all measurements defined on the Global tab page. |
| (the following options are available for any reaction using the Final Concentration or Final Fraction extent types) | ||
| ExtentOverride | None | No extent override method chosen. Concentration/fraction can be set via RB page for each layer in the usual way. |
| Fixed | Concentration/fraction is a fixed value. This will apply to all layers. | |
| FinalConc | Input | Only visible if Fixed Extent Override method is chosen and the extent type for this reaction is Final Concentration. The fixed value of the concentration to be applied to all layers. |
| FinalFrac | Input | Only visible if Fixed Extent Override method is chosen and the extent type for this reaction is Final Fraction. The fixed value of the fraction to be applied to all layers. |
RBExt Tab Page
Only displayed if the AllRB.Control (HeapLeach tab) and ShowCalculatedExtents (RBCont tab) options are enabled.
| Tag / Symbol | Input/ Calc | Description |
|---|---|---|
| Calculated RB Extents | ||
| RX | Display | Only visible if the RB Control logic is used to set reaction extents. The fractional extent for each reaction is displayed by layer. A '*' means extent has not been set due an error in the equation definition. The extent equation is defined on the RBCont tab page. |