Applied Fluid Mechanics (7th Edition)
7th Edition
ISBN: 9780132558921
Author: Robert L. Mott, Joseph A. Untener
Publisher: PEARSON
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Textbook Question
Chapter 12, Problem 12.2PP
Using the system shown in Fig. 12.2 and the data from Example Problem 12.1 determine (a) the volume flow rate of water in each branch and (b) the pressure drop between points 1 and 2 if the first gate valve is one-half closed and the other valves are wide open.
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Describe a simplified hypothetical industrial oxygen piping system, which contains at least two branches with diameters different from the diameter of the main branch, listing and quantifying the energy source equipment (tanks, reservoirs, pump, compressor...), the energy consuming equipment (vessels, heat exchangers, tanks, machines, processes...), flow valves, pressure relief valves, drains, traps and vents.
In addition, define the basic operating conditions (temperature, maximum and minimum operating pressures) and the basic physical conditions (material specification, pipe diameter)
Also define the MAOP
____ are installed in supply-water piping to prevent water hammer. Bypass valves, air chambers, pressure reducing valves, relief valves
Small by-pass lines are sometimes installed to a. Control the flow rate b. Reduce pump power consumption c. Control the pump delivery head d. Prevent the pump from running at zero flow
Chapter 12 Solutions
Applied Fluid Mechanics (7th Edition)
Ch. 12 - Figure 12.7 shows a branched system in which the...Ch. 12 - Using the system shown in Fig. 12.2 and the data...Ch. 12 - In the branched pipe system shown in Fig. 12.8...Ch. 12 - In the branched-pipe system shown in Fig. 12.9...Ch. 12 - A 160mm pipe branches into a 100mm and a 50mm pipe...Ch. 12 - For the system shown in Fig. 12.11 the pressure at...Ch. 12 - Solve Problem 12.4 using the Cross technique.Ch. 12 - Solve Problem 12.3 using the Cross techniqueCh. 12 - Find the flow rate of water at 60Fin each pipe of...Ch. 12 - Figure 12.13 represents a spray rinse system in...
Ch. 12 - Figure 12.14 represents the water distribution...Ch. 12 - Figure 12.15 represents the network for delivering...Ch. 12 - Work Problem 12.4 using PIPE-FLO software. Display...Ch. 12 - 2. Enhance the program from Assignment 1 so that...Ch. 12 - Write a program or a spreadsheet for analyzing...
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- Draw a simple flowchart of a hypothetical oxygen piping system, which has two branches with diameters different from the diameter of the main branch, containing the following components: 1 pressure swing adsorption (PSA) generator. 1 compressor to pressurize the oxygen that will be transported in the tubes. 1 storage tank to retain oxygen before use. 1 industrial combustion process to serve as an energy consumer 2 heat exchangers to control the oxygen temperature. 4 pumps to move oxygen through the piping system. Required quantity of pressure relief valves, flow valves, drains and vents.arrow_forwardDraw a simple flowchart of a hypothetical oxygen piping system containing the following components: 1 pressure swing adsorption (PSA) generator. 1 compressor to pressurize the oxygen that will be transported in the tubes. 1 storage tank to retain oxygen before use. 1 industrial combustion process to serve as an energy consumer 2 heat exchangers to control the oxygen temperature. 4 pumps to move oxygen through the piping system. Required quantity of pressure relief valves, flow valves, drains and vents.arrow_forwardIdentify the limitations that exist within different types of water turbine.arrow_forward
- Explain how an incorrect flow rate setting (too high or too low) on a pressure-limited time-cycled ventilator affects the volume delivered in terms of neonanatal/pediatric ventilation.arrow_forwardturbine control (governor) valves are located at:arrow_forwardFor a simple and hypothetical industrial oxygen piping system, what equipment is needed for its operation? Example: Energy source equipment (boilers, tanks, compressors, reservoirs...) Energy-consuming equipment (heat exchangers, machines, etc.) Pressure relief valves, flow valves, drains, traps, vents...arrow_forward
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- Water is drawn from a reservoir, in which the water level is 240 m above datum, at the rate of 0.13 m3/sec. The outlet of the pipeline is at datum level and is fitted with a nozzle to produce a high-speed jet to drive a turbine of the Pelton wheel type. If the velocity of the is 66 m/sec, calculate a) The power of the jet, b) The power supplied from the reservoir, c) The head used to overcome losses, d) The efficiency of the pipeline and nozzle in transmitting power.arrow_forwardAssume the bore and rod diameters of the single-rod double-actuating cylinder in the differential two-speed cylinder circuits depicted in fig below are 120 and 90 mm, respectively. If the line-relief valve sets the maximum system operating pressure at 10 MPa and the pump supplies a maximum flow of 100 L/min flow, what are the cylinder speed and the load-carrying capacity int he regular and differential extension strokes?arrow_forwardIn single operations, characterize a single double-acting pump.arrow_forward
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