Calculation Menu-Different Impellers (DI)

VisiMix output parameters are presented in Calculation Menu. These menus provide objective information on all mixing-dependent parameters that are relevant for successful process results.

Hydrodynamics

Characteristics for Eech Impeller

IMPELLER 1
IMPELLER 2
IMPELLER 3
IMPELLER 4
IMPELLER 5


Characteristics for All Impeller

Impeller types
Impeller diameres
Mixing power
Torque
Circulation of flow rate

HYDRODYNAMIC. MAIN CHARACTERISTICS
Reynolds number for flow
CHARACTERISTICS OF TANGENTIAL FLOW
RADIAL DISTRIBUTION OF TANGENTIAL VELOCITY
Average value of tangencial velocity
Tangencial velocity near the wall
POWER AND FORCES
Mixing power
Torque
Force applied baffle
VORTEX PARAMERES
Vortex depth
Vortex volume
Area of media surface
Increas of media level due to vortex


Turbulence

-Characteristics for Each Impeller

Impeller 1

General data
DISSIPATION OF ENERGY AROUND THE IMPELLER 1


Impeller 2

General data
DISSIPATION OF ENERGY AROUND THE IMPELLER 2


Impeller 3

General data
DISSIPATION OF ENERGY AROUND THE IMPELLER 3


Impeller 4

General data
DISSIPATION OF ENERGY AROUND THE IMPELLER 4


Impeller 5

General data
DISSIPATION OF ENERGY AROUND THE IMPELLER 5


Characteristics for All Impeller

MAXIMUM ENERGY DISSIPATION NERA THE IMPELLER BLADES
VOUME OF ZONE OF MAXIMUM DISSIPATION
MICROSCALES OF TURBULENCE NEAR THE IMPELLER BLADES
TURBLENCE SHEAR RATE NEAR THE IMPELLER BLADES
EFFECTIVE VISCOSITY

TURBLENCE. MAIN CHARACTERISTICS
LOCAL VALUES OF ENERGY DISSIPATION
Energy dissipation – maxsimum value
Energy dissipation – average value
Energy dissipation in the bulk volume
Energy dissipation near baffles
VOLUMES OF ZONES WITH DIFFERENT TURBULENCE
Relative residence time in zone of imepeller with maximum dissipation
Relative residence time in zone of baffles
MICROSCALES OF TURBULENCE IN DIFFERENT ZONES
TURBLENCE SHEAR RATES IN DIFFERENT ZONES
Maximum local turbulent shear stress
LOCAL VALUES OF EFFECTIVE VISCOSITY


Single-Phase Liquid Mixing

SINGLE PHASE MIXING. MAIN CHARACTERISTICS
Macromixing time
Mean period of circulation
Characteristic time of micomixing


Heat Transfer. Continuous flow (CF)

Liquid agent (LA)

Media temperature. CF. LA.
Wall temperature, media side. CF. LA.
Outlet temperature of liquid agent in lower jacket. CF.
Outlet temperature of liquid agent in upper jacket. CF.
Concentration of reactant A. CF. LA.
Concentration of reactant B. CF. LA.
Heat transfer rate. CF. LA.
Specific reaction rate. CF. LA.
Reaction heat. CF. LA.
Inside film coefficient. CF. LA.
Overall heat-transfer coefficient, lower jacket. CF. LA.
Overall heat-transfer coefficient, upper jacket. CF. LA.
Outside film coefficient, lower jacket. CF. LA.
Outside film coefficient, upper jacket. CF. LA.
Pressure head on the jacket, max
Liquid velocity in jacket
Heat-transfer area


Vapor agent (VA)

Media temperature. CF. VA.
Wall temperature, media side. CF. VA.
Concentration of reactant A. CF. VA.
Concentration of reactant B. CF. VA.
Heat transfer rate. CF. VA.
Specific reaction rate. CF. VA.
Reaction heat. CF. VA.
Inside film coefficient. CF. VA.
Overall heat-transfer coefficient, lower jacket. CF. VA.
Overall heat-transfer coefficient, upper jacket. CF. VA.
Outside film coefficient, lower jacket. CF. VA.
Outside film coefficient, upper jacket. CF. VA.
Upper limit of hear transfer rate for half-coil. VA
Heat-transfer area


Heat Transfer.Batch (BH)

-Liquid agent (LA)

Media temperature. BH. LA.
Wall temperature, media side. BH. LA.
Outlet temperature of liquid agent in lower jacket. BH.
Outlet temperature of liquid agent in upper jacket. BH.
Concentration of reactant A. BH. LA.
Concentration of reactant B. BH. LA.
Heat transfer rate. BH. LA.
Specific reaction rate. BH. LA.
Reaction heat. BH. LA.
Inside film coefficient. BH. LA.
Overall heat-transfer coefficient, lower jacket. BH. LA.
Overall heat-transfer coefficient, upper jacket. BH. LA.
Outside film coefficient, lower jacket. BH. LA.
Outside film coefficient, upper jacket. BH. LA.
Pressure head on the jacket, max
Liquid velocity in jacket
Heat-transfer area


-Vapor agent (VA)

Media temperature. BH. VA.
Wall temperature, media side. BH. VA.
Concentration of reactant A. BH. VA.
Concentration of reactant B. BH. VA.
Heat transfer rate. BH. VA.
Specific reaction rate. BH. VA.
Reaction heat. BH. VA.
Inside film coefficient. BH. VA.
Overall heat-transfer coefficient, lower jacket. BH. VA.
Overall heat-transfer coefficient, upper jacket. BH. VA.
Outside film coefficient, lower jacket. BH. VA.
Outside film coefficient, upper jacket. BH. VA.
Upper limit of hear transfer rate for half-coil. VA
Heat-transfer area


Heat Transfer. Semibatch (SB)

-Liquid agent (LA)

Media temperature. SB. LA.
Wall temperature, media side. SB. LA.
Outlet temperature of liquid agent in lower jacket. SB.
Outlet temperature of liquid agent in upper jacket. SB.
Concentration of reactant A. SB. LA.
Concentration of reactant B. SB. LA.
Heat transfer rate. SB. LA.
Specific reaction rate. SB. LA.
Reaction heat. SB. LA.
Inside film coefficient. SB. LA.
Overall heat-transfer coefficient, lower jacket. SB. LA.
Outside film coefficient, lower jacket. SB. LA.
Overall heat-transfer coefficient, upper jacket. SB. LA.
Outside film coefficient, upper jacket. SB. LA.
Pressure head on the jacket, max
Liquid velocity in jacket
Heat-transfer area


-Vapor agent (VA)

Media temperature. SB. VA.
Wall temperature, media side. SB. VA.
Concentration of reactant A. SB. VA.
Concentration of reactant B. SB. VA.
Heat transfer rate. SB. VA.
Specific reaction rate. SB. VA.
Reaction heat. SB. VA.
Inside film coefficient. SB. VA.
Overall heat-transfer coefficient, lower jacket. SB. VA.
Overall heat-transfer coefficient, upper jacket. SB. VA.
Outside film coefficient, lower jacket. SB. VA.
Outside film coefficient, upper jacket. SB. VA.
Upper limit of hear transfer rate for half-coil. VA
Heat-transfer area


Heat Transfer. Fixed temperature regime (FT)

-Liquid agent (LA)

Wall temperature, media side. FT. LA.
Outlet temperature of liquid agent in jacket. FT.
Heat transfer rate. FT. LA.
Inside film coefficient. FT. LA.
Overall heat-transfer coefficient. FT. LA.
Outside film coefficient. FT. LA.
Pressure head on the jacket
Heat-transfer area


-Vapor agent (VA)

Wall temperature, media side. FT. LA.
Heat transfer rate. FT. LA.
Inside film coefficient. FT. LA.
Overall heat-transfer coefficient. FT. LA.
Outside film coefficient. FT. LA.
Upper limit of hear transfer rate for half-coil. FT.
Mass flowrate of condensate. FT.
Heat-transfer area


Heat Transfer. Batch (BH)

-Liquid Agent (LA)

Media temperature. BH. LA
Wall temperature, media side. BH. LA
Outlet temperature in lower jacket. BH. LA
Outlet temperature in upper jacket. BH. LA
Concentration of reactant A. BH. LA
Concentration of reactant A. BH. LA
Heat transfer rate. BH. LA
Specific reaction rate. BH. LA
Overal heat transfer coefficient, lower jacket. BH. LA
Overal heat transfer coefficient, upper jacket. BH. LA
Outside film coefficient, lower jacket. BH. LA
Outside film coefficient, upper jacket. BH. LA
Preasure head on the jacket, max
Liquid velocity in jacket
Heat transfer area


-Vapor Agent (VA)

Media temperature. BH. VA
Wall temperature, media side. BH. VA
Concentration of reactant A. BH. VA
Concentration of reactant A. BH.VA
Heat transfer rate. BH. VA
Specific reaction rate. BH.VA
Reaction heat. BH. VA
Inside film coefficient. BH. LA
Overal heat transfer coefficient, lower jacket. BH.VA
Overal heat transfer coefficient, upper jacket. BH. VA
Outside film coefficient, lower jacket. BH. VA
Outside film coefficient, upper jacket. BH. VA
Upper limit of heat transfer rate for half coil. VA
Heat transfer area


Heat Transfer. Semibatch (SB)

-Liquid Agent (LA)

Media temperature. SB. LA
Wall temperature, media side. SB. LA
Outlet temperature in lower jacket. SB. LA
Outlet temperature in upper jacket. SB. LA
Concentration of reactant A. SB. LA
Concentration of reactant A. SB. LA
Heat transfer rate. SB. LA
Specific reaction rate. SB. LA
Reaction heat. SB. LA
Inside film coefficient. SB. LA
Overal heat transfer coefficient, lower jacket. SB. LA
Overal heat transfer coefficient, upper jacket. SB. LA
Outside film coefficient, lower jacket. SB. LA
Outside film coefficient, upper jacket. SB. LA
Preasure head on the jacket, max
Liquid velocity in jacket
Heat transfer area


-Vapor Agent (VA)

Media temperature. SB. VA
Wall temperature, media side. SB. VA
Concentration of reactant A. SB. VA
Concentration of reactant A. SB.VA
Heat transfer rate. SB. VA
Specific reaction rate. SB.VA
Reaction heat. SB. VA
Inside film coefficient. SB. LA
Overal heat transfer coefficient, lower jacket. SB.VA
Overal heat transfer coefficient, upper jacket. SB. VA
Outside film coefficient, lower jacket. SB. VA
Outside film coefficient, upper jacket. SB. VA
Upper limit of heat transfer rate for half coil. VA
Heat transfer area


Heat Transfer. Fixed Temperature Regime (FT)

-Liquid Agent (LA)

Wall temperature, media side. FT. LA
Outlet temperature in jacket. FT. LA
Heat transfer rate. FT. VA
Inside film coefficient. FT. LA
Overal heat transfer coefficient. FT.LA
Outside film coefficient.FT. LA
Preasure head on the jacket, max
Liquid velocity in jacket
Heat transfer area


-Vapor Agent (VA)

Wall temperature, media side. FT.VA
Outlet temperature in jacket. FT. VA
Heat transfer rate. FT.VA
Inside film coefficient. FT. VA
Overal heat transfer coefficient. FT. VA
Outside film coefficient FT. VA
Upper limit of heat transfer rate for half coil. VA
Heat transfer area


Mechanical Calculations of Shaft

Torsion Shear
Shaft Vibration Chracteristics


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