Determine the velocity of the solid particles of diameter 0.0003 m in a pneumaticconveyor at length of 10 m. The initial velocity of the particle is zero andsuperficial velocity of air is 10 m/s. The density of the particle is 900 kg/m³. Airis fed at 25°C and i atm and the viscosity of air under these conditions is 1.8 x 10 kg/m-s. Neglect the wall effects. Use the following relation to determine Cp:24C, =Re,(1+ 0.15R€")(Ans: 8.9044 m/s)

Consider the solid particles of diameter 0.0003 m in a pneumatic conveyor at length of 10 m.…

Answered: Determine the velocity of the solid…

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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Back HW#2 QUESTION1/60pts] A fluid of viscosity u flows in the horizontal cylinder (radius R) shown in the figure under a constant pressure gradient dP/dx. The inner core of the cylinder is filled with a porous material. The flow in this porous region is slow and assumed to be a plug-type flow such that the velocity is constant and everywhere the same inside the porous region. Denote this velocity by Uo. The flow in the open (non-porous) region is steady, Newtonian, incompressible and axisymmetric. It will be assumed that only the axial (x) component of the velocity is non-zero. Flow Open flow T&R Porous media flow R N.B. All your answers must be expressed in terms of µ, U₁, a, R and dP/dx. (a) Use the continuity and Navier-Stokes equations to determine the expression of the velocity in the open region. (b) What is the expression of the average velocity in the open region? (c) Is the assumption of a linear velocity profile in the open region acceptable when this region Tuatifi 1:
a) (i) What are a Newtonian fluid and a -Newtonian fluid? Classify pendent non-Newtonian fluids and illustrate - flow time- behaviours in a diagram g. shear stress vs. shear (ii) across a flat plate and the s with the aid of a schematic diagram. Explain boundary concept for a flow
Calculate the maximum membrane stress in the wall of shells having the following shapes. The vessel walls are 2.5 mm thick and subject to an internal pressure of 6 bar. a) An ellipsoid, major axis 2 m, minor axis 1.8 m; b) A torispherical head.

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