1. Find the value of the following dimensionless group from the given data. a) The Froude number, NFr for the system where: v = velocity of 20 cm/s, L = length of 6 ft, and g = Lg acceleration due to gravity b) The Schmidt number, Nsc = „for the system where: u = viscosity, M/LO = 12 centipoise (cP), Dy = *1P = 1 g/cm-s pDy diffusivity, L2/0 = 745 cm?/hr, p = density, M/L3 = 30 kg/ft3 Dvp c) The Reynold's number, NRe for the system where: D = 14 in, v = 26 m/s, p = 3 kg/mL, µ = 107 g/ft-hr
1. Find the value of the following dimensionless group from the given data. a) The Froude number, NFr for the system where: v = velocity of 20 cm/s, L = length of 6 ft, and g = Lg acceleration due to gravity b) The Schmidt number, Nsc = „for the system where: u = viscosity, M/LO = 12 centipoise (cP), Dy = *1P = 1 g/cm-s pDy diffusivity, L2/0 = 745 cm?/hr, p = density, M/L3 = 30 kg/ft3 Dvp c) The Reynold's number, NRe for the system where: D = 14 in, v = 26 m/s, p = 3 kg/mL, µ = 107 g/ft-hr
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Transcribed Image Text:1. Find the value of the following dimensionless group from the given data.
a) The Froude number, NFr =
Lg
„for the system where: v = velocity of 20 cm/s, L = length of 6 ft, and g =
acceleration due to gravity
b) The Schmidt number, Nsc =
„for the system where: u = viscosity, M/LO = 12 centipoise (cP), Dv =
pDy
diffusivity, L2/0 = 745 cm2/hr, p= density, M/L3 = 30 kg/ft3
*1P = 1 g/cm-s
c) The Reynold's number, Nge
Dvp
for the system where: D = 14 in, v = 26 m/s, p = 3 kg/mL, µ = 107 g/ft-hr
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