Ans.: (0) 9.08(i) 0.0081 m³/s1198.5 lb/min17.15ft/minTRONIC WOTKA liquid with sp. gr.= 1.12 flows through a pipe with velocity 1 m/s. Thediameter of the pipe is 4 in. Calculate:(i) The mass flowrate (kg/s), and (Ibm/min)(ii) The volumetric flowrate (m³/s), and (ft³/min)SolvaliiAnsA liquid with sp. gr. 1.12 flows through a pipe with velocity 1 m/s. Thediameter of the pipe is 4 in. Calculate:(i) The mass flowrate (kg/s).and (lb/min)(i) The volumetric flowrate (m/s), and (ft³/min)Ans.: (0) 9.08KgS1198.5 lb/min•(i) 0.0081 m³/s.17.15ft/min۱/۱でCTCIC

The cross-sectional area of the pipe can be calculated using the formula for the area of a circle,…

Answered: Ans.: (0) 9.08 (i) 0.0081 m³/s 1198.5…

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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solve in peaper
8. B. friction factor imbers 7 to 9, e given U-tube manometer, mercury was used in the manometer to determine the pressure of gas A. 7. If water was used the manometer? a. 0.76 m c. mass flow rate If at point B, the pressure is atmospheric, what is the pressure of the gas in atm? a. 0.74 atm is high. b. 7.6 m c. 17.9 m d. 25.5 m 9. If at point B, the empty space is evacuated, what is the pressure of the atm? d. 2.24 atm a. 0.74 atm b. 1.24 atm b. 1.24 atm c. 1.74 atm d. 2.24 atm as manometer fluid, what would be the height of water in c. 1.74 atm d. mass velocity gas in Gas A h = 56 cm Hg SG-13.6
Water at 25°C is flowing in a 26 cm commercial steel pipe. The total length of the pipe is 1416m. If a head of water of 11.3 m is available to overcome the friction loss, what should be the volumetric flow rate of the water flowing in the pipe in m3/hour? Use density data from Handbook, viscosity = 1cP. The flow is turbulent. In 2 decimal values. Show the complete solution. No need to draw the problem. Start with the MEB equation.

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