For the figure shown below, what flow rate is required to produce 4,700 HP if the turbine is 72% efficient?D = 3 ftL 3,600 ftf=.02611 MGDO 16 MGD20 MGDO 25 MGDAz = 2,300 ftTMinor LossKent = 0.8Kvalve = 5Kelbow = 0.66 x 3Kbend = 0.47Kvalve = 2.2Kexit = 1.0

Given:Turbine power = P = 4700 HPTubine efficiency = Diameter of pipe = D = 3 ftLength of pipe = L =…

For the figure shown below, what flow rate is required to produce 4,700 HP if the turbine is 72% efficient? D = 3 ft L=3,600 ft f=.026 O 11 MGD O 16 MGD O 20 MGD O 25 MGD Az = 2,300 ft T Minor Loss Kent=0.8 Kvalve = 5 Kelbow = 0.66 x 3 Kbend = 0.47 Kvalve = 2.2 Kexit = 1.0

For the figure shown below, what flow rate is required to produce 4,700 HP if the turbine is 72% efficient? D = 3 ft L=3,600 ft f=.026 O 11 MGD O 16 MGD O 20 MGD O 25 MGD Az = 2,300 ft T Minor Loss Kent=0.8 Kvalve = 5 Kelbow = 0.66 x 3 Kbend = 0.47 Kvalve = 2.2 Kexit = 1.0

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: What is the flow rate of water through the system shown for the turbine to produce 20 kW. Neglect…

A: Given Data Height, h= 30m density =1000 Kg/m3.

Q: The efficiency at the best operating point is:

A: The best operating point is that point at which a pump is least prone or least probable to failure…

Q: Discuss Brayton and Rankine cycles

A: Brayton cycle, It consist of 4 process, 1. 1-2 process-Isentropic compression process 2. 2-3…

Q: A pump has the following parameters N= 2133.5 RPM, Ns = 40 RPM, D = 37.1 cm and is used to pump…

A: As per the guidelines, I can solve only 1st three sub-parts. For rest parts, please re-post again.…

Q: The discharge pressure of an air compressor is 6 times the suction pressure. If the volume flow at…

Q: Water is supplied to a pump at a pressure of 200 kPa. The power transferred to the water is…

A: Given data:- Water is supplied to a pump at a pressure=200 kPa. The power transferred to the water =…

Q: Using data given below, determine the main dimensions and blade angles of a Francis turbine. Net…

Q: 3:-An IC engine have a bore of 80 mm and crank radius 50 mm 10.27 and a P-V diagram as shown beside,…

A: The IC engine is a heat engine in which the air-fuel combination is burned inside the combustion…

Q: he air is measured at 20 deg. C and 679mm Hg. The duct diameter is 744 mm while the discharge…

A: Given, Air temperature , T =20 deg C Pressure - P1 = 679 mm hg volume flow rate , Q = 4m3/s.…

Q: Example 2.2: A four cylinder, a 2.4L engine that operates on a four-stroke cycle at 3200 RPM. The…

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

Q: An existing turbine has the following data: D = 95 cm, H = 27 m, Q = 69.9 m3/s, ρ = 998 kg/m3, N =…

Q: the jet ratio is approximately 12. Find the size of the jet, mean diameter of runner, synchronous…

Q: The diagram above shows the set up for a pump and water turbine unit at a power generation company…

A: Given:Water temperature, T=25oCHead losses accumulated by the valve and fittings between A and B,…

Q: 4. The main feedwater pump of a PWR delivers water to the steam generator at a rate of 15,000 GPM…

A: Given: The rate of water delivery, Q = 946.3 liter/s = 0.9463 m^3/s The steam generator pressure, P…

Q: MECHANICAL ENGINEERING POWER PLANT ENGINEERING 2 A single stage, single acting air compressor…

Q: A 1inch diameter nozzle there is water flows under 400ft head to operate a turbine. There is 90%…

A: Write the diameter of a nozzle. d=1 in=1 in×1 m39.37 in=25.4×10-3 m Write the head of the water…

Q: 6. Find the motor HP and the displaced Delivered discharge =50.65 L-min1, p = 13.7 MPa, N =2000 rpm,…

Q: Q/ Size the duct system as shown in the figure below using velocity method then select Suitable…

A: To Find:The power of the fan.Given:The airflow for the entire system is the main duct velocity is…

Q: what is the efficiency? what is the NPSHR? what is the motor power requirement?

A: (1):EFFICIENCY- The term efficiency can be characterized as the capacity to accomplish a ultimate…

Q: This is thermodynamics subject. I need complete solution (step by step process) with given. Thanks…

Q: A single acting reciprocating air compressor has a clearance volume of 8%. Air is received at…

Q: Calculate the displacement, the real power and the real torque of an hydraulic power engine with a…

Q: 5. Wet steam is throttled from 1000 kPa to 10 kPa and 130 °C. Find the dryness fraction at state 1.…

Q: Q5) A pump of 20 kW power is discharge oil to the over tank as shown in fig. (5). If efficiency of…

A: A manometer is a device that measures the pressure (static pressure) exerted by a still liquid or…

Q: 4. An air compressor is supplied with air at 101.3 kPa and a specific volume of 0.804 m3/kg. The air…

Q: Plate 30m V, Rx= Given z Rx = 890 Y %3D water

A: Given that, Rx=890 N,head of water, h=30 m,θ=90°ηt=90 % v=2ghv=2×9.81×30v=24.261 m/sec The…

Q: he date for a certain installation are as follows Net Head = 454 m, BP = 57,200 bkw, n = 750 rpm,…

A: Given:H=454 mP=57200 KWN=750 rpm

Q: 2. Areciprocating compressor draws in 500 cubic feet per minute of air whose density is 0.079…

Q: the hydraulic cycle in figure -consist of:6

Q: 1. A pump delivers gasoline (SG = 0.74) at 20°C and 12 m/h. At the inlet pa= 100 kPa, z =1 m, and V…

Q: Water is pumped at a rate of 60 GPM through a 2 inch diameter pipe at an elevation of 100 ft and a…

A: Given Data in Question :-

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

For the figure shown below, what flow rate is required to produce 4,700 HP if the turbine is 72% efficient?
D = 3 ft
L 3,600 ft
f=.026
11 MGD
O 16 MGD
20 MGD
O 25 MGD
Az = 2,300 ft
T
Minor Loss
Kent = 0.8
Kvalve = 5
Kelbow = 0.66 x 3
Kbend = 0.47
Kvalve = 2.2
Kexit = 1.0

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: Determining the given variables

VIEW

Step 2: Calculating the total head loss in the pipe

VIEW

Step 3: Calculating the velocity of flow

VIEW

Step 4: Calculating the volume flow rate

VIEW

Solution

VIEW

Step by step

Solved in 5 steps with 10 images

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

B) The air flow to a four cylinder four-stroke engine is 2.15 m³/min. During a test on the engine the following data were recorded: Bore 10.5cm; stroke 12.5cm; engine speed 1200 rpm, torque 150 N.m, fuel consumption 5.5 kg/hr, calorific value of fuel, 43124 kJ/kg, ambient temperature 1-The brake thermal efficiency. and pressure are 20°C and 1.03 barş. Calculate: 2-The brakes mean effective pressure. 3-The volumetric efficiency.
(2) a fou-cylinder, 2.4 liter engine operates on a four-stroke cycle at 3200 r.p.m. the compression ratio is 9.4:1, the connecting rod length r = 18 cm, and the bore and stroke are related as S = 1.06 B. calculate :- 3 (a) clearance volume of one cylinder in cm³,L, and in ³. (b) Bore and stroke in cm and in. (c) Average piston speed in m/seca 1 ft/sec
B2
Q.8 A turbine is working under a head of 200 m. The power developed by the turbine is 100 kW and discharge through the turbine is 0.125 m/s. In such a case, the ratio of unit power to unit discharge for the turbine will be A 2000 в 4000 C 6000 D 8000
Example 3-6 A mixed type reaction turbine has D1= 3m and D1= 2.1m. Inlet and outlet Vane angle 60° & 150° respectively and thickness of 30 cm parallel to axis of rotation with guide vanes angle of 15° and a flow rate of 10 m/s . a) Calculate the required speed of the runner for smooth flow at inlet. b) If the velocity of flow remains constant and the discharge is radial find the power developed and the work done, also find the hydraulic losses, total head, and overall efficiency.
Using data given below, determine the main dimensions and blade angles of a Francis turbine. Net head=65 m, speed%3D 700 rpm, BHP= 400. Actual hydraulic efficiency3D 94%, overall efficiency= 85%, flow ratio= 0.18, wheel width at inlet/ wheel diameter at inlet-D0.1, inner diameter/ outer diameter= 0.5. Assuming constant velocity of flow and radial discharge. Neglect area blocked by blades.
I need the answer quickly
Show schematic diagram and complete solutions.
I just need part 4 from the question please
A Kaplan turbine has the following specifications: H =25 ft., N=400 rpm; power = 650 hp. If the efficiency of the unit is 90%, estimate (a) the flow rate, (b) approxi-mate diameter of the runner, (c) turbine setting to avoid cavitation if the location is at sea level, and (d) turbine setting to avoid cavitation if the location of the unitis at an elevation of 5000 ft. The local temperature is 60°F.Ans: (a) Q=254 cfs; (c) Hs=5.8 ft.; (d) 0.12 ft.
I want you to draw the HGL and EGL using the second picture.
Each project should be presented in written and oral forms. A written individual report should contain a summary, introduction, short literature review, objectives, methodology, results and discussion and conclusion. Project 1 A vortex tube is a mechanical-thermal device that separates a compressed flow of air (or any inert gas) into hot and cold streams and has no mechanical moving parts. Cold Air Compressed Air Supply Vortex Spin Chamber (2 cold outlet f = 0.25 P₁ = 100 kPa d. e. Develop the main equations f. Estimate the COP with and without the vortex tube. https://blog.exair.com/2018/10/31/the-theory-of-the-vortex-tube/ a. Start by solving using the simple problem (problem 1) described below. b. Derive the basic equations allowing its performance evaluation. c. Develop an EES model and conduct an analysis on the thermal performance of this device. Consider three working fluids. Consider the integration of the vortex tube with a refrigeration system. Control Valve Hot Air 6 Problem…