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4-11. Compute the pressure in the pipe at the location shown on Figure 4-17. The flow rate through the pipe is 10,000 L/hr. The pipe is commercial steel pipe with an internal di- ameter of 50 mm. The liquid in the pipe is crude oil with a density of 928 kg/m³ and a vis- cosity of 0.004 kg/m s. The tank is vented to the atmosphere. 10,000 liters per Hour 3 m Vent 3 m Leak Occurs Here Figure 4-17 Process configuration for Problem 4-11.

4-11. Compute the pressure in the pipe at the location shown on Figure 4-17. The flow rate through the pipe is 10,000 L/hr. The pipe is commercial steel pipe with an internal di- ameter of 50 mm. The liquid in the pipe is crude oil with a density of 928 kg/m³ and a vis- cosity of 0.004 kg/m s. The tank is vented to the atmosphere. 10,000 liters per Hour 3 m Vent 3 m Leak Occurs Here Figure 4-17 Process configuration for Problem 4-11.

Elements Of Electromagnetics
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
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Problem 6. 4-11. Compute the pressure in the pipe at the location shown on Figure 4-17. The flow rate through the pipe is 10,000 L/hr. The pipe is commercial steel pipe with an internal di- ameter of 50 mm. The liquid in the pipe is crude oil with a density of 928 kg/m³ and a vis- cosity of 0.004 kg/m s. The tank is vented to the atmosphere. 10,000 liters per Hour 3 m Vent 3 m Leak Occurs Here Figure 4-17 Process configuration for Problem 4-11.
Transcribed Image Text:Problem 6. 4-11. Compute the pressure in the pipe at the location shown on Figure 4-17. The flow rate through the pipe is 10,000 L/hr. The pipe is commercial steel pipe with an internal di- ameter of 50 mm. The liquid in the pipe is crude oil with a density of 928 kg/m³ and a vis- cosity of 0.004 kg/m s. The tank is vented to the atmosphere. 10,000 liters per Hour 3 m Vent 3 m Leak Occurs Here Figure 4-17 Process configuration for Problem 4-11.
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