A 20 wt % sucrose (sugar) solution having a density of 1074 kg/m³ is flowing through the same piping system as shownbelow. The flow rate entering pipe 1 is 1.892 m?/h. The flow divides equally in each of pipes 3. Calculate the following:a. The velocity in m/s in pipes 2 and 3b. The mass velocity G kg/m2 · s in pipes 2 and 331212-in. pipe2-in. pipe3-in. pipe1/2-in. pipe

Given that :Q1 =1.892 m3hr =1.8923600m3s=5.255 x 10-4 m3sρ =1074 kgm3D1 = 2 inch =0.0508 mD2 =3 in…

Answered: A 20 wt % sucrose (sugar) solution…

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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Similar questions

P1 B C P2 A A liquid flows through a piping system from P1 to the top of a structure at P2 The entire piping system is 2 sch 40 pipe The piping system is intended to provide liquid at a rate of 80 gpm while maintaining a P2 pressure of 36 psig. The flowrate at P1 and P2 are the same. (ie.. there is no splitting or branching of the flow) The friction factor, f (fanning), can be assumed to be 0.007
Fluid Mechanics Quiz 5 Q1: Air at 200 °F and 60 psia flows in a 4-in.-diameter pipe at a rate of 0.52 lb/s. Determine the pressure at the 2-in.-diameter throat of a Venturi meter placed in the pipe. Q2: Water flows through a 40-mm-diameter nozzle meter in a 75-mm-diameter pipe at a rate of 0.015 m/s. Determine the pressure difference across the nozzle if the temperature is (3) 10 °C. or (b) 80 °c. Q3: Water flows through the orifice meter shown in Fig. below at a rate of 0. 10 cfs. If d = 0.1 ft, determine the value of h. Q- 2 in.

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