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The specifications of the oil cooler with a bypass are given below. 3-in Gate valve Instructions Heat exchanger K=12 Globe valve 1-in- Gate valve Specifications: ⚫ The total length of pipe in the three inch branch is 10 ft, and the length of pipe in the one inch branch is 8 ft. ⚫ Brine (sg=1.04, m=103 Pa*s) flows at 250gpm through the entrance at point A. • Assume fully turbulent flow in both branches (f=f+). ⚫ Pipes are standard Schedule 40 steel pipes. ⚫ Assume the globe valve is partially shut so its equivalent L/D is 1000. For Part 1 of this project, you are tasked with determining the following: 1. The flow rate in both branches 2. The pressure drop in both branches 3. The overall resistance coefficient Part 2 of the project will be completed in Week 5. Instructions: Upload a document showing your handwork with the answers clearly indicated following the submission instructions below. 3-in-

The specifications of the oil cooler with a bypass are given below. 3-in Gate valve Instructions Heat exchanger K=12 Globe valve 1-in- Gate valve Specifications: ⚫ The total length of pipe in the three inch branch is 10 ft, and the length of pipe in the one inch branch is 8 ft. ⚫ Brine (sg=1.04, m=103 Pa*s) flows at 250gpm through the entrance at point A. • Assume fully turbulent flow in both branches (f=f+). ⚫ Pipes are standard Schedule 40 steel pipes. ⚫ Assume the globe valve is partially shut so its equivalent L/D is 1000. For Part 1 of this project, you are tasked with determining the following: 1. The flow rate in both branches 2. The pressure drop in both branches 3. The overall resistance coefficient Part 2 of the project will be completed in Week 5. Instructions: Upload a document showing your handwork with the answers clearly indicated following the submission instructions below. 3-in-

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
Problem 1.1MA
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Specifications:

  • The total length of pipe in the three inch branch is 10 ft, and the length of pipe in the one inch branch is 8 ft.
  • Brine (sg=1.04, m=10-3 Pa*s) flows at 250gpm through the entrance at point A.
  • Assume fully turbulent flow in both branches (f=ft).
  • Pipes are standard Schedule 40 steel pipes.
  • Assume the globe valve is partially shut so its equivalent L/D is 1000.

For Part 1 of this project, you are tasked with determining the following:

  1. The flow rate in both branches
  2. The pressure drop in both branches
  3. The overall resistance coefficient
The specifications of the oil cooler with a bypass are given below. 3-in Gate valve Instructions Heat exchanger K=12 Globe valve 1-in- Gate valve Specifications: ⚫ The total length of pipe in the three inch branch is 10 ft, and the length of pipe in the one inch branch is 8 ft. ⚫ Brine (sg=1.04, m=103 Pa*s) flows at 250gpm through the entrance at point A. • Assume fully turbulent flow in both branches (f=f+). ⚫ Pipes are standard Schedule 40 steel pipes. ⚫ Assume the globe valve is partially shut so its equivalent L/D is 1000. For Part 1 of this project, you are tasked with determining the following: 1. The flow rate in both branches 2. The pressure drop in both branches 3. The overall resistance coefficient Part 2 of the project will be completed in Week 5. Instructions: Upload a document showing your handwork with the answers clearly indicated following the submission instructions below. 3-in-
Transcribed Image Text:The specifications of the oil cooler with a bypass are given below. 3-in Gate valve Instructions Heat exchanger K=12 Globe valve 1-in- Gate valve Specifications: ⚫ The total length of pipe in the three inch branch is 10 ft, and the length of pipe in the one inch branch is 8 ft. ⚫ Brine (sg=1.04, m=103 Pa*s) flows at 250gpm through the entrance at point A. • Assume fully turbulent flow in both branches (f=f+). ⚫ Pipes are standard Schedule 40 steel pipes. ⚫ Assume the globe valve is partially shut so its equivalent L/D is 1000. For Part 1 of this project, you are tasked with determining the following: 1. The flow rate in both branches 2. The pressure drop in both branches 3. The overall resistance coefficient Part 2 of the project will be completed in Week 5. Instructions: Upload a document showing your handwork with the answers clearly indicated following the submission instructions below. 3-in-
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