Kerosene at 60 °C flows through a piping system in a refinery at a flowrate of 2.3 m3/min. The pipe is commercial steel, with an inner diameter of 0.15 m. The exit from the reactor is sharp edged. 90° pipe bends are flanged and smooth. A fully open globe valve is in the line. You may take α as 1. The storage vessel has a vent to atmosphere. The gauge pressure in the reactor vessel is 90 kPa. Determine the length (L) of the pipe in the system. [Data: νkerosene, 60C = 1.05*10‐6 m2/s and SGkerosene = 0.82]
Kerosene at 60 °C flows through a piping system in a refinery at a flowrate of 2.3 m3/min. The pipe is commercial steel, with an inner diameter of 0.15 m. The exit from the reactor is sharp edged. 90° pipe bends are flanged and smooth. A fully open globe valve is in the line. You may take α as 1. The storage vessel has a vent to atmosphere. The gauge pressure in the reactor vessel is 90 kPa. Determine the length (L) of the pipe in the system. [Data: νkerosene, 60C = 1.05*10‐6 m2/s and SGkerosene = 0.82]
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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Kerosene at 60 °C flows through a piping system in a refinery at a flowrate of
2.3 m3/min. The pipe is commercial steel, with an inner diameter of 0.15 m. The exit from the reactor is sharp edged. 90° pipe bends are flanged and smooth. A fully open globe valve is in the line. You may take α as 1. The storage vessel has a vent to atmosphere. The gauge pressure in the reactor vessel is 90 kPa.
Determine the length (L) of the pipe in the system.
[Data: νkerosene, 60C = 1.05*10‐6 m2/s
and SGkerosene = 0.82]
Transcribed Image Text:Storage Tank/
opgaartenk
Reactor Vessel
reaktorhouer
90KPa
Sm
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