he flow rate of water at 20°C in the center of a pipe with an inside diameter of 102.3mm is measured with a pitot tube. At 18°c, the reading from the manometer is 80mm of carbon tetrachloride. The coefficient for the pitot tube is 0.95. A.) Calculate the velocity at the center and the average velocity B.) Calculate the volumetric flowrate of the water

he flow rate of water at 20°C in the center of a pipe with an inside diameter of 102.3mm is measured with a pitot tube. At 18°c, the reading from the manometer is 80mm of carbon tetrachloride. The coefficient for the pitot tube is 0.95. A.) Calculate the velocity at the center and the average velocity B.) Calculate the volumetric flowrate of the water

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

5.4 Evaluate the Stanton number for flow over a tube from the following data: , , , , .
The lengths of two pipes with the same friction factor, "f," are parallel. What must the flow ratio be if the first pipe has twice the diameter of the second?
A venturi meter of 20 mm throat diameter is used to measure. The velocity of water in a horizontal pipe of 40 mm diameter. If the pressure difference between the pipe and the throat sections is found to be 30 KPa then, neglecting frictional losses, the flow velocity is?
At a flow rate of 20 LPM, What will happen if the 30 seconds is 2.943 kPa, the 60 seconds drops to 2.894 kPa, and the 90 seconds is the same as 30 seconds (2.943 kPa)? HYDROSTATIC PRESSURE
The average velocity of water flow in a pipe with diameter 4 cm is 4 m/s. Calculate the amount of fluid flowing per second (Q).
A horizontal pipe, originally smooth but due to constant use, was found to be scaling through corrosion where the effective surface roughness rises. This resulted for the fanning friction factor to be twice the original value. Determine the percent increase in the pipe diameter if the volumetric flowrate and pressure difference remains the same when it was new and old. Blank 1 %
The volume flow rate of water is 662,73 liters/min. Calculate the maximum length of the pipe [m], which can be used without cavitation? (NOTE: Take water temperature as 10 °C)
Water flows in a 3.5-cm-diameter pipe so that the Reynolds number based on diameter is 2000 (laminar flow is assumed). The average bulk temperature is 10°C. Calculate the maximum water velocity in the tube in m/s. (Recall that um = 0.5ug)
Determine the average velocity in ft/s for water flow in a 20 mm diameter copper tube (21.4 mm outside diameter and 19.9 mm inside diameter) carrying water at a volumetric flow rate of 40 L/min.
In oasis Water Company to purify the water, it is flowing through a reducer in a horizontal pipe where the diameter is reduced from 35 cm to 25 cm. The pressure in the 35 cm pipe just upstream of the reducer is 150 kPa. The fluid has a vapor pressure of 50 kPa and a specific weight of 5 kN/m3. Neglecting frictional effects, calculate flow rate of water through this pipe in lit/s. Draw diagram neatly
A certain fluid has a specific gravity of 1.25 flows through a 150 mm diameter pipe with mean velocity of 1.2 m/s. a.) Determine the volume flow rate? b.) Determine the mass flow rate? c.) Determine the weight flow rate?
What is the velocity as measured by an orifice plate (0.06-m diameter) in a 0.305-m-diameter pipe with the measured pressure drop being 75,150 Pa?