In Fig. P8.111, pipe AB is 1200 ft long, of 8 in diameter, with f = 0.035; pipe BC (upper) is 800 ft long, of 6 in diameter, with f = 0.025; pipe BC (lower) is 900 ft long, of 4 in diameter, with f = 0.045; and pipe CD is 500 ft long, of 6 in diameter, with f = 0.025. The elevations are reservoir water surface = 150 ft, A = 120 ft, B = 70 ft, C = 60 ft, and D = 30 ft. There is free discharge to the atmosphere at D. Neglecting velocity heads, (a) compute the flow in each pipe and (b) determine the pressures at B and C. Water Figure P8.111

In Fig. P8.111, pipe AB is 1200 ft long, of 8 in diameter, with f = 0.035; pipe BC (upper) is 800 ft long, of 6 in diameter, with f = 0.025; pipe BC (lower) is 900 ft long, of 4 in diameter, with f = 0.045; and pipe CD is 500 ft long, of 6 in diameter, with f = 0.025. The elevations are reservoir water surface = 150 ft, A = 120 ft, B = 70 ft, C = 60 ft, and D = 30 ft. There is free discharge to the atmosphere at D. Neglecting velocity heads, (a) compute the flow in each pipe and (b) determine the pressures at B and C. Water Figure P8.111

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

See similar textbooks

Related questions

Q: A fluid enters a 3" diameter pipe; the Reynolds number for the flow is 45,803. At what distance…

Q: A cross section of a cylindrical draft tube proposed to be added to the exit of a reaction turbine…

A: Inlet cavitation mean cavitation is going to start so pressure at exit of the reaction turbine…

Q: ### Determine the main dimensions of a fan, knowing if1. Flow rate (Q) = 250 m^3/min;2. Differential…

A: Approach to solving the question: Detailed explanation:Examples: Key references:

Q: : Neglecting the losses, calculate the required pump shaft horsepower. Figure (4)

Q: PROBLEM S5.1 A 12 m long steel pipe has an internal diameter of 80 mm and a wall thickness of 2.5…

Q: 9. The diameter at section (1) is 0.3m. The diameter at section (2) is 0.15m. What is the flow rate…

A: Givend1=0.3md2=0.15ms.g=0.85h=12.7 cm Hg

Q: PROBLEMI.2 A HYDRAULIC TURBINE IS REQUIRED TO PRODUCE 800 KW POWER AT 500 RPM UNDER A NET HEAD OF 40…

Q: 27. Engine of an airplane (v, = 102.5 m-s", v2 = 792 m-s", Ftn = 31.8 kN, A, = 2.88 A2, pi = 1.26…

Q: H.W: estimate the diameter for a commercial steel pipe with the following characteristics: Length =…

Q: owing through a horizontal pipe which is 10 inches in diameter, with a velocity of 40 ft per second…

Q: 5. A 50-m duct is 0.060-m in diameter (Figure 2). Calculate the flow rate (m³/sec). Pfluid=917 kg/m³…

Q: A Pitot tube at a height of 3 m, measures wind velocity 5.3 m/s. What is the wind velocity at a…

A: Solution: Given Data: h=3 mu=5.3 m/sz=50 md=45 m To Find: (a) The wind velocity at a height of 50…

Q: 2. The pressure drop needed to force water through a horizontal 2.5 cmdiameter pipe is 4kPa, for…

A: Shear stress variation is linear from center axis of the pipe,

Q: Determination of pipe diameter. What size of circular pipe is needed to produce a flow rate of 250…

Q: Find (i) Span (ii) Equivalent head of water at maximum level.…

Q: P- 60 psi Q - 150 ts D; = 3 ft Section (1) Turbine Pz = 10-in. Hg vacuum D2= 4 f1 Section (2) Figure…

Q: QI A 0.5 inch diameter water pipe is 18 m long and delivers 19 L/min. What fraction of this pipe is…

A: Given DataQ=19L/minD=0.5 inL=18m

Q: A water pipe 8 in. in diameter gradually tapers down to 4 in. in diameter. The rate of flow is 1000…

A: Discharge=1000gpm Pressure=20psi D1=8in D2=4in

Q: ( Suppose a steel material of 5.6 of 7.8 is attached to a wood of 5.G. of 0.8 as Shown below. If it…

A: Given:To find:Ratio of ?

Q: At section (1) Q₁ = 15 ft²/s P₁= 150 psi Find Fx Neglect Friction 0.5 ft pipe Density (8) = 1.94…

Q: PROBLEM S5.3 A thin spherical vessel 1 m in diameter and 12 mm thick is filled with water. More…

Q: QI) A new computer drive is proposed to have a disc, as shown in Fig. 1. The disc is to rotate at…

Q: The bathroom plumbing of a building consists of 1.5-cm-diameter copper pipes with threaded…

Q: (a) d= 10 cm and T= 20°C (b) d = 4 in. and T = 70°F

A: Given :d = 10 cm and T = 20°Cd = 4 in. and T = 70°Fpatm = 100 kPaEnergy from surface to outlet:…

Q: Q. 374. What is the difference between flow variable and coefficient of flow variable in…

A: A flow variable is mathematically defined as the ratio of flow of lubricant within the clearance to…

Q: Q8)A duct of 65 cm diameter and 15m long carries 120 m³/min of air. Find the pressure loss in the…

Q: 2. A pump is required to deliver water to an elevated storage tank. The water must be raised 44 m,…

A: Please find the solution below

Q: A large, pressurized tank delivers water upstream via a series of two pipes as shown in the figure.…

Q: A thin-walled steel pipe transports water at a pressure of 80 lbf/in?. There is negligible restraint…

Q: 3. A fan is to be selected to deliver 340 litre per minute (Ipm) against a head of 19.8m, and the…

A: Given:- Q2 = 340 lpm, H2 = 19.8 m Q1 = 718 lpm, D1 = 18 cm, N1 = 1760 rpm, hp1 = 1.62 Assume H1 = 11…

Q: 1.Shear stress velocity, u * has the link with mean flow velocity, u in a pipe for Re > 2300 .…

A: Given: The mean velocity is u= 2 m/s, The Reynold's number is Re > 2300, The friction factor is…

Q: what is the change in pipe diameter ca

A: To find Change in pipe diameter caused by internal pressure.

Q: Two reservoirs are connected by 198ft of 2-in diameter tubing. What is the flow rate when the…

Q: At section 1 Q₁ = 15 ft²³/s P₁= 150 psi Find Fx Neglect Friction 0.5 ft Density (8) pipe = 1.94 Slug…

Q: What is the extension of a straight rum of steel pipe 25.86 m long, if the installation temperature…

A: Given : Pressure = 8.79 kg/cm2 = 862 kPa L = 25.86 m T = 4.4 C Thermal coefficient of steel : 11 x…

Q: For the piping system of Fig. , all pipes are concretewith a roughness of 0.04 in. Neglecting minor…

A: For water at 20°C, take ρ=1.94 slug/ft3 and μ= 2.09E−5 slug/ft⋅s. Since the pipes are all different…

Q: An oil well has the following specifications; • Tubing diameter = 2.875” • Tubing roughness = 0.0254…

Concept explainers

Pressure Vessels

The term pressure vessel refers to a closed container that contains gas or liquid at a different pressure than environment pressure. The pressure vessels have a wide scale of applications in our day-to-day lives and other industrial places. Some common examples of pressure vessels are gas cylinders, autoclaves, compressor vessels, etc.

Question

In Fig. P8.111, pipe AB is 1200 ft long, of 8 in diameter,
with f = 0.035; pipe BC (upper) is 800 ft long, of 6 in
diameter, with f = 0.025; pipe BC (lower) is 900 ft long,
of 4 in diameter, with f = 0.045; and pipe CD is 500 ft
long, of 6 in diameter, with f = 0.025. The elevations are
reservoir water surface
= 60 ft, and D = 30 ft. There is free discharge to the
atmosphere at D. Neglecting velocity heads, (a) compute the
flow in each pipe and (b) determine the pressures at B and
C.
Water
150 ft, A = 120 ft, B = 70 ft, C
Figure P8.111

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

Step 2

Step 3

Step 4

Step 5

Trending now

This is a popular solution!

Step by step

Solved in 5 steps

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, mechanical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Please help me with the solution as soon as possible with the correct solution and step-by-step clear explanation, please... Will be highly appreciated...
PROBLEM S5.1 A 12 m long steel pipe has an internal diameter of 80 mm and a wall thickness of 2.5 mm. Calculate the hoop and axial stresses when the pipe is used to transmit steam at a pressure of 10 MPa. [Ans. 160 MPa; 80 MPa]
27. Engine of an airplane (v =102.5 m-s", V2 = 792 m-s", Ftn = 31.8 kN, A, = 2.88 A2, p1 = 1.26 P2, P2 = 102.3 kPa, A2 0.58 m?), calculate the inlet density.
6.23. We are offered some pipes made of a new kind of plastic. To test their roughness, we pump water through a 3-in pipe made of this material at an average velocity of 40 ft / s. The observed friction factor is 0.0032. Estimate the absolute roughness of this plastic.
2) For the same system of question 1, let Az = 80 m and L pipe diameter for which the flow rate will be 7 m³/h? = 185 m of cast-iron pipe. What is the
20 long tons of ice per 12 hrs at -15 °C were produced from steam at 190 °C. If there is no miscellaneous losses. How many TR are required? (Use 2257 and 334 as your reference values for the latent heats and 4.187 for the value of specific heat of water).
Ex: A long pipe called penstock in hydraulic work, is 1.5 m in diameter. Here it is composed of wooden stares bound together by steel hoops, each 300 mm in cross-sectional area, if maximum tensile stress per matted in the hoop is 130 MPa. What is the maximum spacing between hoops under a head of water 30 m ?
The pipe bend of Fig. has D 1 = 27 cm and D 2 =13 cm. When water at 20 ° C fl ows through the pipe at 4000gal/min, p 1 =194 kPa (gage). Compute the torque requiredat point B to hold the bend stationary.
Compute Young's modulus, E, Poison's ratio, v, and bulk modulus, K, if Lame's first parameter, 1, and shear modulus, M, are equal to 24,000 and 16,000 MPa, respectively.
Parvinbhai
Having trouble with this problem. Please include your assumptions, explanation, and any sketches. Any help would be appreciated!
Could i please have the asnwers and workings out to the attached question.