Agitator Design Calculation Xls Repack Direct
P = Np * ρ * N³ * D⁵
The dimensionless Power Number depends on the impeller type (e.g., turbine, propeller, anchor) and the presence of tank baffles. Npcap N sub p is typically constant for a given geometry. Viscous Fluids: An actual Npcap N sub p is calculated by applying a viscosity power factor ( fμf sub mu ) based on the NRecap N sub cap R e end-sub 3. Calculate Power Requirements The basic power requirement ( ) is derived from the power number and fluid properties.
Many agitators work inside jacketed reactors. The repack should include:
Would you like a clean, openly documented agitator calculation template in XLS (no macros, no repack) that I can outline cell-by-cell?
P = Np * ρ * N³ * D⁵
The dimensionless Power Number depends on the impeller type (e.g., turbine, propeller, anchor) and the presence of tank baffles. Npcap N sub p is typically constant for a given geometry. Viscous Fluids: An actual Npcap N sub p is calculated by applying a viscosity power factor ( fμf sub mu ) based on the NRecap N sub cap R e end-sub 3. Calculate Power Requirements The basic power requirement ( ) is derived from the power number and fluid properties.
Many agitators work inside jacketed reactors. The repack should include:
Would you like a clean, openly documented agitator calculation template in XLS (no macros, no repack) that I can outline cell-by-cell?
