HSC Chemistry, HSC Chemistry 7, Software for Process simulation, Reactions Equations, Heat and Material Balances, Equilibrium Calculations, Electrochemical Cell Equilibriums, Eh-pH Diagrams – Pourbaix diagram
 
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Modules
All modules included as standard

 Sim Process Simulation
 Reaction Equations
 Heat and Material Balances
 Heat Loss Calculator
 Equilibrium Calculations
 Electrochemical Cell Equilibriums
 Eh-pH Diagrams – Pourbaix
 H, S, C and Ellingham Diagrams
 Tpp Diagrams – Stability diagrams
 Lpp Diagrams – Stability diagrams
 Water – Steam tables, etc.
 H, S, Cp Estimates
 Conversions – Species to elements
 Mineralogy Iterations
 Periodic Chart – Elements
 Measure Units
 HSC Add-In Functions
 Data – Statistical Analysis
 Geo Mineralogical Calculations
 Map GPS material Stock
 Fit – Numerical Data Fit
 Aqueous Solution Property Estimator
 
Databases
All included as standard
HSC Thermochemical Database
Water Steam/Fluid Database
Heat Conduction Database
Heat Convection Database
Surface Radiation Database
Gas Radiation Calculator
Particle Radiation Calculator
Elements Database
Measure Units Database
Minerals Database
Aqueous Solution Density Database
The Pitzer parameter Database

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  Particle Radiation Calculator

 

Flue gases of power plants and chemical processes contain particles which emit and absorb heat energy. Traditionally the estimation of particle radiation is based on manual calculations using data tables and diagrams. The HSC Particle Radiation Calculator enables you to estimate particle suspension emissivities but also the heat flux to the surface.

 

Using this dialog it is possible to calculate a particle cloud emissivity when some detailed data about the particles and the geometry of the container are known. The results can also be used at a fixed T or iteratively as in the Gas Mixture Radiation dialog. The Diagram button shows a simple drawing of a particle distribution in a container. The gas emissivity at gas temperature and the gas absorptivity at surface temperature are automatically taken from the Gas Mixture Radiation dialog when available.