A petroleum crude oil having a kinematics viscosity 0.0001 m²/s is flowing through the piping arrangement shown in the below Figure,The total mass flow rate is equal 10 kg. entering in pipe (A) . The flow divides to three pipes ( B, C, D). The steel pipes are schedi 40 pipe. note that the dynamic viscosity 0.088 kg/m.s. Calculate the following using SI units: 1- The type of flow in pipe (A). 2- The mass velocity in pipe (B) GB. 3- The velocity in pipe (D) Up

A petroleum crude oil having a kinematics viscosity 0.0001 m²/s is flowing through the piping arrangement shown in the below Figure,The total mass flow rate is equal 10 kg. entering in pipe (A) . The flow divides to three pipes ( B, C, D). The steel pipes are schedi 40 pipe. note that the dynamic viscosity 0.088 kg/m.s. Calculate the following using SI units: 1- The type of flow in pipe (A). 2- The mass velocity in pipe (B) GB. 3- The velocity in pipe (D) Up

Principles of Heat Transfer (Activate Learning with these NEW titles from Engineering!)

8th Edition

ISBN:9781305387102

Author:Kreith, Frank; Manglik, Raj M.

Publisher:Kreith, Frank; Manglik, Raj M.

Chapter5: Analysis Of Convection Heat Transfer

Section: Chapter Questions

Problem 5.4P: 5.4 Evaluate the Stanton number for flow over a tube from the following data: , , , , .

See similar textbooks

Similar questions

The Reynolds number is defined for a pipe as (velocity· diameter· density) / viscosity. What isthe Reynolds number for water flowing at 10 ft/ s in a pipe with a diameter of 6 in? What are itsdimensions?
A tube with 45 meters long, and a diameter of 1.8 meters and 2.3 meters, inlet and outlet respectively. Water is flowing inside the tube. What is the rate of change of the velocity with respect to its length when the inlet has a velocity of 2100 meters/min?Include the ff:correct unitscomplete solution
Oil with a kinematic viscosity of 0.2301 stoke is flowing through a 25.1-cm diameter pipe. Below what velocity will the flow be laminar assuming Recr = 2300?
The glycerin at 40 C flows through a horizontal cylindrical pipe. The length of the pipe is 70 m and the diameter of the pipe is 4 cm. The flow is steady state and fully developed. The velocity of the fluid at the centerline is 6 m/s. PLEASE DRAW THE FIGURE OF THE PIPE and labet the necessary info . The density and the viscosity of the glycerin at 40 0C are 1252 kg/m3 and 0.3073 kg/m.s, respectively. Is this a laminar flow? Write an equation for the variation of the local flow velocity with the radial direction. Determine the shear stress exerted by the glycerin on the wall of the pipe. Calculate the volume flow rate.
What is the rate of flow of coconut oil in a 2 in. pipe if the velocity of the fluid is measured at 0.02 m/s? The specific weight of oil is 1500 kg/cubic meter?
Calculate the Reynolds number, Re for water flow in a circular pipe. The diameter of the pipe is 50 mm, the density of water is 998 kg/m³, the volumetric oil flowrate is 720 L/min, and the dynamic viscosity of water is 1.2 centipoise
Q// Upon completion of the Reynolds experiment, we had this information. The tube diameter was 0.03 m, , the flow rate m^3/s 5*10^-5 and the lamellar bisection type 'Find viscosity , Re and velocity m / s at a temperature of 26 ° C for water. (((In detail))
Water at 20oC flows at 1.50 mps through a tube whose inside diameter is 3 mm. If the coefficient of viscosity is 1.0 centipoise ( cp ), find a) the nature of flow and b) the maximum volume for laminar flow in the tube.
Water with a dynamic viscosity of 0.892 cP flows in a smooth pipe of diameter, D = 50 mm and length, L = 10 m. The cross-sectional mean velocity is 1.50 m/s. What type of flow is observed? Calculate the discharge, the entrance length and the friction coefficient. Please solve according to question... I need all answers... Thank you
An oil is in laminar flow in a ½ in ID tube at 6 gal/min. The oil viscosity is 300 centipoise, and its density is 60 lb/ft³. Calculate the radial position at which the point velocity is equal to the average velocity in inches.A. 0.177B. 0.085C. 0.244D. 0.221
Say we have a Bingham plastic fluid with a τy of 22 Pa and a plastic viscosity µp of 120 cp, with density of 1100 kg/m3 . It is flowing in a 2 cm diameter pipe at a velocity of 4 m/s. a. What is the pressure drop for a 10 m long smooth pipe? b. say we had a pressure drop of 2500 Pa (for the 10 m)…but dont know the flow rate. What would it be?
I've been struggling about this problem. How can I get the fluid velocity from the Reynolds numbers. That is the required value for Re. If, the given values are Water Density = 10000 kg/m3, Diameter of tube = 0.05m and Dynamic Viscosity = 0.001 Pa-s. If the formula is Re = Vρd/μ.