please solve 25 in detail 24. Water is flowing through a 7500-m long, 0.90-m diameter commercial...
Using Hazen Williams and Manning's equation, determine the friction head loss in a 1.6 m diameter, 1000 m long pipe made of cement mortar to carry a flow rate of 3 m/s.
Water is flowing through a 600mm diameter horizontal pipe n = 0.013 and 1000m in length. A gage pressure downstream has a reading of 16 kPa and another gage in between the ends of the pipe reads 20 kPa while on the upstream side reads 30 kPa. a. Determine the total head loss of the pipe b. Determine the velocity of flow in m/s. c. Determine the rate of discharge in liter per second.
please solve problem in detail including needed FBD 19. Two cross sections, A and B, are 7.0 km apart along a 0.90-m-diameter commercial steel pipe in its best condition. A is 83.5 m higher than B. If the water temperature is 20°C and the pressure heads measured at A and B are 12.3 m and 88.7 m, respectively, what is the flow rate from A to B? Assume minor losses are negligible. Answer: Q=0.76 m/s.
2.2 A 250 mm diameter pipe is 1500 m long. When the discharge is 0.095 m3/s in this pipe, the pressure drop between the ends of the pipe is measured as 98.06 kPa. The elevation at the end of the pipe is 10 m below its beginning. What type of flow is this? What is the equivalent sand-grain roughness of the pipe wall? What is the Hazen-Williams roughness coefficient? How much energy is dissipated by fluid friction during each hour...
Water flows through a 30-cm-diameter pipe that is 60 m long and made from commercial steel ssure is 240 kPa. The pi downward such that the downstream point has an elevation of 2 m and the pressure is 135 kPa a) Using an iterative scheme, what is the flowrate through the pipe? Show at least an initial guess and one iteration by hand calculations, See the in-class Type Ill problem for an example of what these hand calculations should look...
Question #1. Ambient temperature water (20 °C) is flowing through the horizontal piping system shown below (not drawn to scale). There is a leak occurring in the reducing bushing that connects the larger (4" internal diameter) wrought iron pipe to the smaller (2" internal diameter) wrought iron pipe. Upstream from the leak on the larger pipe, two pressure gauges that are 15 m apart show a pressure difference of (P,-) = 2,445 kPa. Downstream from the leak on the smaller...
A light oil is flowing through a commercial steel pipe of diameter D1. The head available to produce flow is independent of the flow rate. It is decided to utilise this head to increase the oil flow rate fourfold by installing a second pipe in parallel with the first pipe and of the same length. What should the diameter of the second pipe be, if: (i) flow in each of the two pipes is highly turbulent and the same roughness...
Water at 15-Celsius flowing through 25 meters of 100mm- diameter galvanized iron pipe, causes a head loss (due to pipe friction) of 75mm. Find the flow rate
3. (20%) Water of 15°C temperature is pumped at a rate of 0.01 m/s through the 800-m long and 10-cm diameter drawn tubing from the upstream reservoir at an elevation of 10 m to the downstream reservoir at an elevation of 30 m. The pump is located at an elevation of 10 m below the datum and at a distance of 350 m from the upstream reservoir as shown. (a) Find the values of the Reynolds number and the friction...
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 of the pipe is equal to 30 cm. Water is to be pumped by a 72% efficient motor-pump combination that draws 33 A of...