is desired to pass water from point 1 to point 3 to run a fluid engine, pressure p1= 700kpa and pressure p3=500kpa, the pipe diameter is uniform. The external diameter has a value of 28mm with a thickness of 2mm. The fluid velocity in the pipe is 3 m/s. If the friction losses due to the elbow and the valve are estimated to be 4N.m/N, what is the power in kW it should have at the output if it has an efficiency of 85 %

is desired to pass water from point 1 to point 3 to run a fluid engine, pressure p1= 700kpa and pressure p3=500kpa, the pipe diameter is uniform. The external diameter has a value of 28mm with a thickness of 2mm. The fluid velocity in the pipe is 3 m/s. If the friction losses due to the elbow and the valve are estimated to be 4N.m/N, what is the power in kW it should have at the output if it has an efficiency of 85 %

Automotive Technology: A Systems Approach (MindTap Course List)

6th Edition

ISBN:9781133612315

Author:Jack Erjavec, Rob Thompson

Publisher:Jack Erjavec, Rob Thompson

Chapter46: Suspension Systems

Section: Chapter Questions

Problem 3RQ: What are two reasons for using an air spring?

See similar textbooks

Related questions

Q: Water flowing in a horizontal pipe is at a pressure of 1.40 x 10^5 Pa at a point where its cross…

Q: Water flows through a pipe, which is 30 mm in diameter and 55 m long, ab 2,75 m/s. Using Darcy's…

Q: For which flowrates through the Venturi meter shown in the figure below will cavitation occur it P1…

Q: It is desired to pass water from point 1 to point 3 by means of a hydraulic pump, both tanks are…

A: Given: the external diameter of pipe, D = 28 mm The thickness of pipe, t = 2 mm The friction losses…

Q: A venturi meter is introduced in a 300 mm diameter horizontal pipeline carrying a liquid under a…

Q: what will be the pressure gradient (kpa/m) at L=30 cm through the nozzle? At L=0, the liquid flows…

Q: A reservoir supplies water as shown in Fig. 1. The pipe system consists of 6 m of pipe and two 90°…

Q: A centrifugal pump operating at sea level develops 50 m of head at 1,200 rpm. It is used to pump…

A: Given data:

Q: 6. A pump is located 4.5 m to one side of, and 3.5 m above a reservoir. The pump is designed for a…

A: kinematic viscosity of water at 5 °C is, v=1.519×10-6 m2/sec,Reynolds number,…

Q: Oil (SG=0.82) entering a pump through an 8-inch diameter pipe at 4 psi has a flow rate of 3.5 cfs.…

Q: Q.5 a) In a 80 mm diameter pipeline an oil of specific gravity 0-8 is flowing at the rate of 0-0125…

A: The given values are - D1=0.08m , Specific Gravity S=0.8 , Q=0.125m3sDue to sudden expansion rise in…

Q: An oil of kinematic viscosity 0,5 stoke is flowing through a pipe of diameter 300 mm at the rate of…

Q: The following data refers to a centrifugal pump: Inlet diameter =3 in. Outlet diameter =7 in. Blade…

A: Since you have posted a question with multiple sub-parts, we will solve the first three subparts for…

Q: A duct 0.4 m high and 0.8 m wide, suspended from a ceiling in a corridor, makes a right-angle turn…

A: Given Data : Inner radius = 0.2 m Outer radius = 0.4 m Width W = 0.8 m Height H = 0.4 m Now the…

Q: A large pressurized tank is filled with air discharges into the atmosphere The flow path is a short…

A: Given Data : dnozzle=0.015mTatm=200cPatm=101…

Q: (Problem 3) A horizontal water pipe is reduced in size from 18 inches in diameter from point A to 6…

Q: Water is flowing through 150 mm pipe diameter and exist to atmosphere through a horizontal couple…

Q: The head-discharge characteristic relationship of a pump is given by: H = 40 - 200*Q^2 , where H is…

A: Head-discharge characteristic relationship of pump H=40-200Q2 d=.3 mL=1000 mf=.03Static head Hs=25…

Q: Q1: Water flows in a circular pipe. At one section the diameter is 0.3 m the static pressure is 260…

Q: Q3/ Hydraulic oil ISO 68 is flowing through a hydraulic line with an inside diameter of 1.4 inches…

Q: What pressure, pi, is needed to produce a flowrate of 0.09 ft/s from the tank shown 3). in the…

Q: A horizontal pipe of (40cm) dia. expanded suddenly to (60cm) dia. with a flow rate of water equals…

A: Given data: - The initial diameter of the pipe is d1 = 40 cm. The final diameter of the pipe is d2…

Q: A 12′′ pipe line carries oil of specific gravity 0.811 at a velocity of 80.0 ft/sec. At points A and…

Q: If a pump with a manometric head of 12 m is designed to deliver a flow rate of 7500 liters / minute.…

A: Given: Manometric head (Hm)=12mFlow rate=7500L/minPump speed=1800rpm

Q: Two identical pumps connected in series using a pipe 3.5 cm diameter with water flowing at velocity…

Q: 4: Water flow through a pipe at 5L/s as shown in figure. If gage pressure of 12.5kPa, 11.5kPa and…

A: The head loss can be calculated using the Bernoulli's equation which is given below as-…

Q: Water with a density of 1 g/cm³ flows through a horizontal pipe. The pipe cross-section tapers from…

Q: The water circulates throughout the building in a hot water heating system. If the water is pumped…

A: Given that,

Q: A centrifugal pump having a suction diameter of 254 mm and a discharge pipe diameter of 127 mm has…

Q: A prototype pump is designed to so that the attached dimensionless performance curves apply. (a) If…

A: Hello. Since your question has multiple parts, we will solve first question for you. If you want…

Q: pump with critical cavitation number 0,08 pumps water to a total head of 60 m and temperature of…

Q: The plunger diameter of a single acting reciprocating pump is 115 mm and the stroke is 230 mm. The…

A: Given: The diameter of the plunger is: D=115 mm=0.115 m The length of the stroke is: L=2r=230…

Q: A water with a flow rate of 0.25 m3/s flows through a pipe to the reservoir. Assume a turbulent…

A: The diagram of the pipe is given as, The diameters in section 1 and section 2 are the same. The…

Q: Calculate the available net positive section head NPSH in a pumping system if the liquid density p…

Q: Water in a main pipe at street level is at a gauge pressure of 140 kPa and is moving with negligible…

Q: O For the system shown in Fig. P4.129, estimate the downstream pressure p2 if p1 V1 = 20 m/s.…

Q: A good curve-fit to the head vs. flow for the 32-inch pump in the image shown below is:…

A: Pump curve equation, H=500-2.9*10-7Q2 Pump speed, N=1170 rev/min Pipe length, L=900 ft Pipe…

Q: Q2/ Consider the conical water tank system shown below. The flow through the valve is turbulent and…

A: We have the given data asTurbulent value related to head (H) Q=0.008HQ=Measured in m3/sH-meterHead=…

Q: A flow of 0.20 ft3/s of glycerine (sg=1.26) passes through a 4-in-ductile iron pipe. At 100 °F, the…

Q: Explain the major and minor losses? Then solve for the parallel pipes system shown below, a pump is…

Q: Water with a density of 1000 kg/m³ flows through a vertical venturimeter as shown in Figure 9. A…

A: We are authorized to answer one question at a time since you have mentioned questions 10 and 11 but…

Q: An oil of specific gravity 0.77 and viscosity 0.05 poise is flowing through a pipe of diameter…

A: GIVEN DATA- DENSITY =770 kg/m3 viscosity 0.05 poise = 0.005 Ns/m2 diameter=240mm Flow rate=50 lit/s…

Q: The liquid being lifted by the pump below is gasoline with specific weight γgasoline = 47 lb/ft3 and…

A: Given data: Specific weight of gasoline = 47 lb/ft3 Absolute vapour pressure = 9…

Q: A pipe 50 cm in diameter carries water (l0°C} at a rate of 0.5 m 3 / s. A pump in the pipe is used…

Q: Find the diameter of a circular orifice to discharge (0.015m '/ sec) under a head of (2.4m). If the…

A: Discharge through orifice=0.015 m3/s Head available, H=2.4 m Coefficient of discharge(C d) =0.6

Q: Water flows steadily through a pipe with ID 35 mm. This pipe expands suddenly to an inner diameter…

Q: Sunflower oil (SG = 0.7, viscosity = 154cP) is pumped at a rate of 85 ft^3/min (ID = 3.5in) from…

A: Specific gravity of Sunflower oil, SG=0.7Viscosity of the Sunflower oil, μ=154 cp…

Concept explainers

Applied Fluid Mechanics

A fluid is a substance that is continuously deformed by the application of shear stress. The rate of deformation of a fluid depends on its viscosity. The fluid tries to flow when it interacts with some other system.

Question

It is desired to pass water from point 1 to point 3 to run a fluid engine, pressure p1= 700kpa and pressure p3=500kpa, the pipe diameter is uniform. The external diameter has a value of 28mm with a thickness of 2mm. The fluid velocity in the pipe is 3 m/s. If the friction losses due to the elbow and the valve are estimated to be 4N.m/N, what is the power in kW it should have at the output if it has an efficiency of 85 %?

Expert Solution

This question has been solved!

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

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

major frictional loss

VIEW

Step 3

VIEW

Step by step

Solved in 3 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.

Recommended textbooks for you

Automotive Technology: A Systems Approach (MindTa…

Mechanical Engineering

ISBN:

9781133612315

Author:

Jack Erjavec, Rob Thompson

Publisher:

Cengage Learning

Automotive Technology: A Systems Approach (MindTa…

Mechanical Engineering

ISBN: