make sure you show all work and its easy to read thank you 2. A 108-inch-diameter...
help me to answer question 9,11,13 please Oilspecific gravity 0.85 and dynamic viscosity 1.52 x 103 Pa.s to flow in a 550 mm diameter uPVC pipe. The allowable friction head loss is imited to 15 m and length of pipe is 100 m. al using Darcu-Weisbach formula, determine the flow velocity, the friction factor and the flow rate. using Hazen-Wiiams formula, determine the velocity and the flow rate. MoN 10 Water must flow in a straight 450 mm diameter galvanized...
Please show all work and where you get each value from. Don't assume i know where you get a value from. Thank you 3. Calculate total head loss in a new galvanized iron pipe with the length of 1000 m and diameter of 12", if the total flow rate is: a) 0.2 cfs, b) 0.9 cfs. If the max HL is 5 ft per 1000 ft, evaluate a and b scenarios. Assume the temperature 20°C. How do you evaluate Velocity...
Please answer question 7: A centrifugal pump discharges 500 GPM through a 12-inch diameter impeller. The fluid leaves the impeller with a tangential velocity of 17 ft/sec. If water, @ 68°F, enters the impeller via radial flow (I.E. no whirl), and the inner radius and thickness of the impeller are 1.75-inches. (Assume a constant thickness of the impeller) and if the pump speed is 1775 rpm, with a head loss of 4.5-feet. What is the horsepower input to the flow by the pump? QUESTION...
You must show ALL work for full credit. Also, it needs to be LEGIBLE. Label and BOX all answers. 1. (100 points) Water at 25°C is pumped at a rate of 0.075m/s from a reservoir 20m above a pump to a free discharge (this means discharged to atmosphere) 35m above the pump. The pressure on the intake side of the pump is 150kPa and the pressure on the discharge side of the pump is 450kPa. The pipe between the reservoir...
please show all work. thank you 4. For the system illustrated below, the diameter at pt. A is 12 in. and at pt. B it is 4 in. The flow rate through the pipe is 2.0 cfs, and the pressure at pt. 1 is 200 psi. What is the pressure at pt. B? Pt. A Pt. B Reference Line
A pump transports water from Tank 1 to Tank 2 through a constant-diameter piping system as shown below (not to scale). The flow rate is controlled by two gate valves, the gate valve I controls the main pipeline, while the gate valve II controls the loop line from T-joint A to T-joint B. All pipes are galvanized steel pipe of diameter D = 4 in. It has a total length of Li2= 620 ft from tank 1 to tank 2....
you can skip task 1 (3) because its a code in matlab. Task 1: You were asked to check up the status of the water system. Water at 24 °C is to be pumped from a Lower reservoir with 100 m elevation to another reservoir at a higher elevation 112 m through 150-m-long pipe as shown in Figure (1). The pipe is made of steel, and the diameter ofthe pipe is equal to 30 cm water is to be pumped...
Please answer the following question using the numerical iteration method and show all steps! Thank you! Problem 1 A duct with diameter D, surface roughness ε, and length L = 1500 feet transports air with specific weight Yair = 0.0752 lbs/ft' at volume flow rate of Q = 9000 ft/min. A pressure gradient of Ap/L is measured in inch of water per 1500 feet of duct. Use either a graphical method (preferred) or a numerical iteration method to fill out...
please solve it step by step with details thank you!!!!! Water is to be pumped from one large, open tank to a second large open tank as shown in Figure 1. The pipe diameter throughout is 15 cm and the total length of the pipe between the pipe entrance and exit is 60 m. Minor loss coefficient for the entrance, exit and the elbow are shown, and the Darcy friction factor for the pipe can be assumed constant and equal...
1. You are designing a pumping station and have been asked to size and select a pump from 2 models. The system step is as follows: the discharge line is a 21-inch diameter PVC pipe with an assumed constant friction factor of f 0.014. The length of the piping is 2300 ft with an elevation gain of 40 ft and an exit loss (K-1.0).. The pump station is located near sea level and the temperature of the flow stream is...