1 Pascal second (Poiseuille) = 10 7 Micropoise.1 Pascal second (Poiseuille) = 1 Kilogram / metre second.1 Pascal second (Poiseuille) = 3600 Kilogram / metre hour.1 Pascal second (Poiseuille) = 0.102 Kilogram force seconds / metre 2.1 Pascal second (Poiseuille) = 10 Gram / centimetre second.1 Pascal second (Poiseuille) = 0.0102 Gram force seconds / centimetre 2.1 Pascal second (Poiseuille) = 10 Dyne second / centimetre 2.1 Pascal second (Poiseuille) = 1000 Centipoise.2023 (1,721 μs : 7 ms : 0.Download and print Dynamic Viscosity Unit Converter chart Common Dynamic or Absolute Viscosity Units The absolute salinity anomaly δSA is ignored. The absolute salinity is taken as 35.16504 / 35 times the practical salinity. Practical salinity = parts per thousand of dissolved solids (mainly salt). The fresh water viscosity is calculated from temperature and density using the IAPWS R12-08 industrial equations. Seawater viscosity is calculated from fresh water viscosity using the equation from Sharqawy (2010). Qu : User Defined Steam Volume Flow RateĬALCULATOR : Fresh Water Viscosity From Temperature ±Ĭalculate seawater density viscosity and flowrate at atmospheric pressure from temperature, and practical salinity (TEOS10, IAPWS R12-08 and IAPWS R7-97 steam table).Use the Result Plot option to plot density and viscosity versus pressure and temperature. Flowrate can be defined by either mass flowrate, volume flowrate, or velocity. The fluid density is calculated from temperature and pressure using IAPWS R7-97. The viscosity is calculated from temperature and density using the IAPWS R12-08 industrial equations. Xu : User Defined Saturated Steam QualityĬALCULATOR : Water And Steam Viscosity And Flowrate From Temperature And Pressure ±Ĭalculate water and steam dynamic viscosity, kinematic viscosity and flowrate from temperature and pressure.IAPWS R7-97 Industrial Formulation for thermodynamic Properties of Water and Steam Tool Input IAPWS R12-08 Industrial Formulation 2008 for the Viscosity of Ordinary Water Substance Note : The anomaly region close to the critical point is ignored (the anomaly factor u2 is set to 1). Help Using The Pipeng Toolbox (opens in the popup workbook) Links : ±ĬALCULATOR : Water And Steam Viscosity From Density And Temperature ±Ĭalculate water and steam density, dynamic viscosity and kinematic viscosity from temperature and pressure. Try plus mode using the Plus Mode Demo tools with no login. Buy a Subscription to use the tools in plus mode (with plots, tables, goal seek etc). tools are free in basic CHECK mode with Login or Open a free account (CHECK values no plots, tables, goal seek etc). Login or Open a free account to use the tools in plus mode (with plots, tables, goal seek etc). tools are free in basic mode with no login (no plots, tables, goal seek etc). Line Pipe Cross Section Calculation Module.IAPWS R12-08 Fresh Water Dynamic And Kinematic Viscosity Calculation Module.Fluid Dynamic And Kinematic Viscosity Data Module.Two Phase Gas Liquid Viscosity Calculation Module.Three Phase Gas Oil Water (Black Oil) Viscosity Calculation Module.Liquid Saybolt Viscosity Calculation Module.Liquid Kinematic And Dynamic Viscosity Calculation Module.Gas Kinematic And Dynamic Viscosity Calculation Module.Refer to the help pages for more details (click the utility button on the data bar). Note : There is an anomaly in the calculated viscosity and density close to the critical point. The density can be calculated from temperature and pressure using IAPWS R7-97. The viscosity is calculated from temperature and density using the IAPWS R12-08 industrial equation (u2 = 1). Calculate dynamic and kinematic viscosity of water and steam from temperature and pressure.
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