As shown in the figure, air with a volumetric flow rate of 17,000 ft/min enters an air-handling unit at 80°F, 1 atm. The air-handling unit delivers air at 45°F, 1 atm to a duct system with three branches consisting of two 26-In-diameter ducts and one 50-In. duct. The velocity in each 26-In. duct is 16 ft/s. Assume steady state operation and Ideal gas behavior for the air. में 7₂-73-7₁-45 D-D,-26 in V₂=V₂ D₂-50 m. Duct system Air-ding unit A-R-A-A-1 (AV), Determine the mass flow rate of air entering the air-handling unit, In lb/s, the volumetric flow rate In each 26-In. duct, In ft³/min, and the velocity in the 50-In. duct. In ft/s.
As shown in the figure, air with a volumetric flow rate of 17,000 ft/min enters an air-handling unit at 80°F, 1 atm. The air-handling unit delivers air at 45°F, 1 atm to a duct system with three branches consisting of two 26-In-diameter ducts and one 50-In. duct. The velocity in each 26-In. duct is 16 ft/s. Assume steady state operation and Ideal gas behavior for the air. में 7₂-73-7₁-45 D-D,-26 in V₂=V₂ D₂-50 m. Duct system Air-ding unit A-R-A-A-1 (AV), Determine the mass flow rate of air entering the air-handling unit, In lb/s, the volumetric flow rate In each 26-In. duct, In ft³/min, and the velocity in the 50-In. duct. In ft/s.
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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Question
![Determine the velocity in the 50-In. duct, In ft/s.
V₂ - i
ft/s](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb3d98cf3-0bac-44ff-ba05-127d80501341%2Fe327563f-eb43-48d0-9de9-b5164a8d9b22%2Foyceozb_processed.png&w=3840&q=75)
Transcribed Image Text:Determine the velocity in the 50-In. duct, In ft/s.
V₂ - i
ft/s
![As shown in the figure, air with a volumetric flow rate of 17,000 ft3/min enters an air-handling unit at 80°F, 1 atm. The air-handling
unit delivers air at 45°F, 1 atm to a duct system with three branches consisting of two 26-In-diameter ducts and one 50-In. duct. The
velocity in each 26-In. duct is 16 ft/s. Assume steady state operation and Ideal gas behavior for the air.
7₂-73-7₁-45°F
D₁-D, 26 in
V₂=V₂
++0₂-50 in.
Duct
system
Air-handling unit
1A-P₂-P₁-P₁-1 m
T₁-80T
(AV),
Determine the mass flow rate of air entering the air-handling unit, In lb/s, the volumetric flow rate In each 26-In. duct, In ft3/min, and
the velocity in the 50-In. duct. In ft/s.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb3d98cf3-0bac-44ff-ba05-127d80501341%2Fe327563f-eb43-48d0-9de9-b5164a8d9b22%2F6tk3rb6_processed.png&w=3840&q=75)
Transcribed Image Text:As shown in the figure, air with a volumetric flow rate of 17,000 ft3/min enters an air-handling unit at 80°F, 1 atm. The air-handling
unit delivers air at 45°F, 1 atm to a duct system with three branches consisting of two 26-In-diameter ducts and one 50-In. duct. The
velocity in each 26-In. duct is 16 ft/s. Assume steady state operation and Ideal gas behavior for the air.
7₂-73-7₁-45°F
D₁-D, 26 in
V₂=V₂
++0₂-50 in.
Duct
system
Air-handling unit
1A-P₂-P₁-P₁-1 m
T₁-80T
(AV),
Determine the mass flow rate of air entering the air-handling unit, In lb/s, the volumetric flow rate In each 26-In. duct, In ft3/min, and
the velocity in the 50-In. duct. In ft/s.
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