In a conduit with a diameter of 4.5 ft, the depth of flow is 4.0 ft,...

A 10 ft high sharp crested weir with cd = 0.63 was constructed across the same...

A 10 ft high sharp crested weir with cd = 0.63 was constructed across the same channel given in previous question. For the above flow condition, what is the expected depth weir? (I am referring to the last question in HW 1: In a channel, flow is taking place with a velocity of 1.2 ft/s with a normal flow depth of 8.5 ft. The channel is a rectangular section with a width of 20 ft. Find the following: Find Q...

A primary clarifier, 10-ft side-water-depth, to be designed for an average flow of 1.6 MGD. The...

A primary clarifier, 10-ft side-water-depth, to be designed for an average flow of 1.6 MGD. The range of hydraulic detention times for primary clarifiers is 45 minutes to 2.5 hours. The minimum acceptable diameter, in feet (in whole-foot increments), is nearest

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

Hot water enters a counter-flow double-pipe heat exchanger at 180F with a velocity of 5 ft/s....

Hot water enters a counter-flow double-pipe heat exchanger at 180F with a velocity of 5 ft/s. Cold water at 80F flows at 3 ft/s in the outer section of the exchanger. The diameter of the inner pipe is 1 inch, the pipe wall thickness is 1/8", and the outer pipe diameter is 2 inches. The overall heat transfer coefficient times area per unit length UA/L = 150 Btu/hr-ft-F. If the exchanger is 16 feet long, what is the exit temperature...

Air Under standard conditions flows through a 4.0.mm diameter down tubing with an average velocity of...

Air Under standard conditions flows through a 4.0.mm diameter down tubing with an average velocity of V=50 m/s. For such conditions the flow would normally be turbulent. However, if precautions are taken to eliminate disturbance to the flow (the entrance to the tube is very smooth, the air is dust free, the tube does not vibrate, etc) it may be possible to maintain laminar flow. Find (a). Determine the pressure drop in 0.1.m section of the tube if the flow...