Homework Answers
Add Answer to:
1 MPa pressure and 500 oC temperature and 200 m/s air enters a turbine. 150 kPa...
1 MPa pressure and 500 oC temperature and 200 m/s air enters a turbine. 150 kPa...
1 MPa pressure and 500 oC temperature and 200 m/s air enters a turbine. 150 kPa pressure rises at 150 oC temperature and 250 m/s speed. Since the sectional area is 80 square centimeters. a. Mass flow of air b. The power produced by the turbine c. Find the adiabatic efficiency of the turbine.
9 5.1 MPa pressure and 500 oC temperature and x m/s air enters a turbine. 150...
9
5.1 MPa pressure and 500 oC temperature and x m/s air enters a turbine. 150 kPa pressure rises at 150 oC temperature and 250m/s speed. Since the sectional area is 80 square centimeters; (x is the percentage of each student's number based on the last digit. For example, for 20171061 it is 100 °C. If your number is greater than 3, multiply by 10.) a. Mass flow of air b. The power produced by the turbine c. Find the...
x=90 5.1 MPa pressure and 500 oC temperature and x m/s air enters a turbine. 150...
x=90
5.1 MPa pressure and 500 oC temperature and x m/s air enters a turbine. 150 kPa pressure rises at 150 oC temperature and 250m / s speed. Since the sectional area is 80 square centimeters; (x is the percentage of each student's number based on the last digit. For example, for 20171061 it is 100 °C. If your number is greater than 3, multiply by 10.) a. Mass flow of air b. The power produced by the turbine c....
MY NUMBER IS 201772052 , SO YOU WILL MULTIPLY IT WITH 100 5.1 MPa pressure and...
MY NUMBER IS 201772052 , SO YOU WILL MULTIPLY IT WITH
100
5.1 MPa pressure and 500 oC temperature and x m/s air enters a turbine. 150 kPa pressure rises at 150 oC temperature and 250m/s speed. Since the sectional area is 80 square centimeters; (x is the percentage of each student's number based on the last digit. For example, for 20171061 it is 100 °C. If your number is greater than 3, multiply by 10.) a. Mass flow of...
5-30 Air enters an adiabatic nozzle steadily at 300 kPa, 200°C, and 30 m/s and leaves...
5-30 Air enters an adiabatic nozzle steadily at 300 kPa, 200°C, and 30 m/s and leaves at 100 kPa and 180 m/s. The inlet area of the nozzle is 80 cm². Determine (a) the mass flow rate through the nozzle, (b) the exit temperature of the air, and (c) the exit area of the nozzle. Answers: (a) 0.5304 kg/s, (b) 184.6°C, (c) 38.7 cm P = 300 kPa T, = 200°C Vi = 30 m/s A = 80 cm AIR...
Air enters an adiabatic turbine at 2.8 MPa and 400oC and expands to a lower pressure...
Air enters an adiabatic turbine at 2.8 MPa and 400oC and expands to a lower pressure of 150 kPa. Assume an isentropic efficiency of 90% for the turbine. Determine the actual outlet temperature of the turbine.
Steam enters an adiabatic turbine steadily at 7 MPa, 500 °C, and 45 m/s
Steam enters an adiabatic turbine steadily at 7 MPa, 500 °C, and 45 m/s, and leaves at 100 kPa and 75 m/s. If the power output of the turbine is 5 MW and the isentropic efficiency is 77 percent, determine: A. the mass flow rate of steam through the turbine, B. the temperature at the turbine exit, and C. the rate of entropy generation during this process.
Steam with the mass flow rate of 0.75 kg/s enters an adiabatic turbine steadily at 19 MPa, 600°C and 150 m/s
Steam with the mass flow rate of 0.75 kg/s enters an adiabatic turbine steadily at 19 MPa, 600°C and 150 m/s, and leaves at 150 kPa and 350 m/s. The isentropic efficiency of the turbine is 85%. Neglect potential energy. (I) Determine the exit temperature of the steam, and its quality (if saturated mixture) (ii) Calculate the actual power output of the turbine, in kW (iii) Illustrate a T-s diagram with respect to saturation lines for the isentropic process by clearly indicating all pressure, temperature,...
Air enters an adiabatic nozzle at 500 kPa and a temperature of 200 °C with a...
Air enters an adiabatic nozzle at 500 kPa and a temperature of 200 °C with a velocity of 100 m/s. It exits the nozzle at a pressure of 100 kPa. Assuming that the expansion through the nozzle occurs reversibly, determine (a) the exit temperature and (b) the exit velocity of the air. The specific heats of air can be assumed to be constant with Cv = 0.742 kJ/kg oC and Cp = 1.029 kJ/kg oC.
Please show steps. Steam at 0.3 kg/s enters an adiabatic turbine at 2 MPa and 500°C....
Please show steps. Steam at 0.3 kg/s enters an adiabatic turbine at 2 MPa and 500°C. It exits at 100 kPa. If the isentropic efficiency is 95%, how much power is produced, in units of kW? Correct Answer is 514.1 m/s Thank you.
1 MPa pressure and 500 oC temperature and 200 m/s air enters a turbine. 150 kPa pressure rises at 150 oC temperature and 250 m/s speed. Since the sectional area is 80 square centimeters. a. Mass flow of air b. The power produced by the turbine c. Find the adiabatic efficiency of the turbine.
9
5.1 MPa pressure and 500 oC temperature and x m/s air enters a turbine. 150 kPa pressure rises at 150 oC temperature and 250m/s speed. Since the sectional area is 80 square centimeters; (x is the percentage of each student's number based on the last digit. For example, for 20171061 it is 100 °C. If your number is greater than 3, multiply by 10.) a. Mass flow of air b. The power produced by the turbine c. Find the...
x=90
5.1 MPa pressure and 500 oC temperature and x m/s air enters a turbine. 150 kPa pressure rises at 150 oC temperature and 250m / s speed. Since the sectional area is 80 square centimeters; (x is the percentage of each student's number based on the last digit. For example, for 20171061 it is 100 °C. If your number is greater than 3, multiply by 10.) a. Mass flow of air b. The power produced by the turbine c....
MY NUMBER IS 201772052 , SO YOU WILL MULTIPLY IT WITH
100
5.1 MPa pressure and 500 oC temperature and x m/s air enters a turbine. 150 kPa pressure rises at 150 oC temperature and 250m/s speed. Since the sectional area is 80 square centimeters; (x is the percentage of each student's number based on the last digit. For example, for 20171061 it is 100 °C. If your number is greater than 3, multiply by 10.) a. Mass flow of...
5-30 Air enters an adiabatic nozzle steadily at 300 kPa, 200°C, and 30 m/s and leaves at 100 kPa and 180 m/s. The inlet area of the nozzle is 80 cm². Determine (a) the mass flow rate through the nozzle, (b) the exit temperature of the air, and (c) the exit area of the nozzle. Answers: (a) 0.5304 kg/s, (b) 184.6°C, (c) 38.7 cm P = 300 kPa T, = 200°C Vi = 30 m/s A = 80 cm AIR...
Most questions answered within 3 hours.
-
Investor company owns 35% of investee company voting stock and
accounts for the investment under the...
asked 1 minute ago -
The number of major faults on a randomly chosen 1 km stretch of
highway has a...
asked 26 minutes ago -
Consider the competitive environment of Starbuck's, Progressive
Insurance, a manufacturing firm with low turnover, or a...
asked 1 hour ago -
3. Gains from trade
Consider two neighbouring island countries called Euphoria and
Contente. They each have...
asked 3 hours ago -
A business executive has the option to invest money in two
plans: Plan A guarantees that...
asked 5 hours ago -
Hello, can someone please help me answer this question?
How much heat is absorbed by a...
asked 5 hours ago -
. A marketing researcher conducted a survey of 25 shoppers
randomly selected at the local mall...
asked 5 hours ago -
Create an comprehensive response to the
following:
Antimicrobial agents work on a multitude of microbes (bacteria,...
asked 5 hours ago -
6.13 LAB: Step counter. Section 6.3.
A pedometer treats walking 2,000 steps as walking 1 mile....
asked 5 hours ago -
(14.2) A block of mass m = 10 kg riding on a frictionless
horizontal plane is...
asked 5 hours ago -
Use any search engine to search for articles about Starbucks
partnership with Tata Companies in India...
asked 5 hours ago -
Let’s say that for some reason Bank Excess Reserves suddenly
increase sharply. What effect would this...
asked 5 hours ago