Search results

the OLI algorithms and data to determine the status of the aqueous solution. Mapping of the SysCAD to OLI streams is done via Species Mapping. The OLI Feeder

Standard species model, primarily a mass weighted mean method. These calculations are illustrated using the example below: Table 1 Stream Make Up Table 2 Species

Vapour is flashed off and the remaining solution is then supersaturated with the required species. This species then precipitates out as the crystal product

Evaporator has solubility data for the species, then the amount of species that precipitates will be automatically calculated. The solution properties will be

PHREEQC species/ions to SysCAD species/ions used in the project. This allows the other PHREEQC models in SysCAD to convert the SysCAD species flow data to PHREEQC

Evaporator has solubility data for the species, then the amount of species that precipitates will be automatically calculated. The solution properties will be

PHREEQC algorithms and data to determine the status of the aqueous solution. Mapping of the SysCAD to PHREEQC streams is done via Species Mapping. The PHREEQC

algorithms and data to determine the status of the aqueous solution in the defined stream/s. Mapping of the SysCAD to AQSol streams is done via Species Mapping

mapping step testing if both aqueous acid species and aqueous base species are present in the SysCAD solution. New display of total solids yield, useful

please make sure Plant Model - Species tab - Species Property Overrides - Vapours is set to IF97_2 for H2O(g).Rho and H2O(g).Cp. Please solve and retune

\Theta_2)^{1.5}}\right]^{\frac{1}{12}} }[/math] where [math]\displaystyle{ \Theta_1 = \left[-2.457 \ln\left( \left(\frac{7}{\mathrm{Re}}\right)^{0.9} + 0

AQSol algorithms and data to determine the status of the aqueous solution. Mapping of the SysCAD to AQSol streams is done via Species Mapping. The AQSol

flashing/condensing of a species, user must specify the vapour pressure data for the species. The vapour pressure data for H2O is included in SysCAD. Users

calculations to generate a set of data. The data can be copied and pasted into external programs such as Excel to allow the data to be plotted and analysed.

The SysCAD feed stream(s) using SysCAD species is converted into ChemApp "Input" using ChemApp Species. The species mapping is defined in the corresponding

other liquid, as selected in the Solvent section of the species database. (Please see Species Table - Density and Editing SysCAD Database) Since this method

the OLI algorithms and data to determine the status of the aqueous solution. Mapping of the SysCAD to OLI streams is done via Species Mapping. The OLI Pond

DotProduct = y.inner(y2) ;sum of each element y_i * y2_i, returns 45068 EndSub ;Logic d = a.GetLen() ;gets the array length a.SetAll(2.2/2) ;sets all elements

of differences between SysCAD 9.1 and SysCAD 9.2, please refer to SysCAD 9.2 Release Notes. Install SysCAD 9.2. This should be installed to a new location

➔ Energy Transfer Models ➔ Shell and Tube Heat Exchanger 2 The Shell and Tube Heat Exchanger 2 is used to transfer energy from one stream to another. It