Gasoline at T = 68∘F flows through an 8-in.-diameter smooth pipe at the rate of 4.15...

Air at 85 °F flows isothermally through a 6 in diameter smooth pipe at a flow...

Air at 85 °F flows isothermally through a 6 in diameter smooth pipe at a flow rate of 10 lbm/s.  If the pressure at one section is 70 psia, determine the pressure at a section 600 ft downstream from the first section.  Give your final answer in psia. Answer should be 59.7 psia

Gasoline flows through a 1.5 inch diameter hose at an average velocity of 5 ft/s. What...

Gasoline flows through a 1.5 inch diameter hose at an average velocity of 5 ft/s. What is the rate of flow in gallons per minute? (1 ft3 = 7.48 gal) How much time is required to fill a 20 gallon tank?

1.Water flows through a horizontal pipe at a rate of 39 gpm (1 ft3 = 7.48...

1.Water flows through a horizontal pipe at a rate of 39 gpm (1 ft3 = 7.48 gal). What is the velocity in the larger opening of the pipe that reduces from 5.4 to 2.4 inches in diameter? Larger Pipe Velocity = ft/s 2. What must be the diameter of a hose if it is to deliver 7 liters of oil in 1.2 minutes with an exit velocity of 2 m/s? Pipe Diameter = milimeters

Water (70°F) flows with a speed of 4 ft/s through a horizontal run of PVC pipe....

Water (70°F) flows with a speed of 4 ft/s through a horizontal run of PVC pipe. The length of the pipe is 200 ft, and the pipe is schedule 40 with a nominal diameter of 3.5 inches. Calculate the resistance coefficient, f

Water flows between two reservoirs through 800 ft of 12-inch diameter welded-steel pipe. The water surface...

Water flows between two reservoirs through 800 ft of 12-inch diameter welded-steel pipe. The water surface elevation difference between the two reservoirs is 16 ft. Find the flowrate (a) assuming head loss is only due to pipe friction, and (b) Accounting for both friction losses and minor losses due to a flush square-edged pipe entrance, the pipe exit, and a half-open gate valve in the line. Assume the water temperature is 60°F

Water flows between two reservoirs through 800 ft of 12-inch diameter welded-steel pipe. The water surface...

Water flows between two reservoirs through 800 ft of 12-inch diameter welded-steel pipe. The water surface elevation difference between the two reservoirs is 16 ft. Find the flowrate: (a) assuming head loss is only due to pipe friction, and (b) accounting for both friction losses and minor losses due to a flush square-edged pipe entrance, the pipe exit, and a half-open gate valve in the line. Assume the water temperature is 60°F.

Water (T = 20°C, v = 1 × 10-6 m2 /s) flows at a rate of...

Water (T = 20°C, v = 1 × 10-6 m2 /s) flows at a rate of 0.2 m3 /s in a 50 cm concrete pipe (e = 0.3 mm). The pipe is 1500 m long. Using Darcy-Weisbach equation, calculate the head loss in the pipe?  

Water flows through a pipe of 5mm in diameter with a mean velocity of 0.2 m/s....

Water flows through a pipe of 5mm in diameter with a mean velocity of 0.2 m/s. The dynamic viscosity of the water is given as 10-3 Pa s. Establish whether the equation f = 64/Re may be used to calculate the friction factor for this flow.

Motor oil at T=-30 deg F has a kinematic viscosity of ν=0.11ft2/s and a specific gravity...

Motor oil at T=-30 deg F has a kinematic viscosity of ν=0.11ft2/s and a specific gravity of SG=0.88. (The rest of this is made up numbers and may not be indicative of actual car engine behavior) Assume that the oil flows at a velocity of V=2ft/s through a cast iron conduit within the engine block. Treat the conduit as a “best case roughness” (use smallest number for ε if needed) cast iron pipe with a diameter of 0.5in and a...

A 250 mm diameter of cast iron pipe flows 39.3 L/s of SAE 10 oil along...

A 250 mm diameter of cast iron pipe flows 39.3 L/s of SAE 10 oil along 500 m length. Given: dynamic viscosity, μ and density, ρ of SAE 10 oil are 1.04 x 10-1 Ns/m2 and 917 kg/m3 respectively. By assuming the flow is laminar, determine energy head and pressure loss due to pipe friction using Hagen-Poiseuille equation and friction factor, f.