ZuoTi.Pro
Question

Question # 1 (20%) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K an
engineering   Mechanical-Engineering   
0 0
Add a comment Improve this question Transcribed image text
Next > < Previous
Sort answers by oldest

Homework Answers

Answer #1

M=.17 kg / see с 323 К à = ri (h2-hl) tai Ricros T2580k T2= Pa 185 Waf 38 KC) Бk coРЅС о - -оз % BİRK ♡ Alcto SFEE ri ( 4 ) -

0 0
Add a comment
Know the answer?
Add Answer to:
Question # 1 (20%) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The...
Your Answer:

Post as a guest

Your Name:

What's your source?

Earn Coins

Coins can be redeemed for fabulous gifts.

Log In

Sign Up

Not the answer you're looking for? Ask your own homework help question. Our experts will answer your question WITHIN MINUTES for Free.
Similar Homework Help Questions

  • Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine...

    Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K and it exits at 195 kPa, 323 K. The power delivered by the turbine is measured to 38 kW. Neglect potential and kinetic energies. For Nitrogen, Cp = 1039 j/Kg.k 1. Calculate the amount of heat transfer. 2. Determine if the heat is added to the system or lost from the system. 3. Plot the TV diagram showing all...

  • Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine...

    Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K and it exits at 195 kPa, 323 K. The power delivered by the turbine is measured to 38 kW. Neglect potential and kinetic energies. For Nitrogen, Cp = 1039 j/Kg.k 1. Calculate the amount of heat transfer. 2. Determine if the heat is added to the system or lost from the system. 3. Plot the TV diagram showing all...

  • Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine...

    Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K and it exits at 195 kPa, 323 K. The power delivered by the turbine is measured to 38 kW. Neglect potential and kinetic energies. For Nitrogen, Cp = 1039 j/Kg.k 1. Calculate the amount of heat transfer. 2. Determine if the heat is added to the system or lost from the system. 3. Plot the TV diagram showing all...

  • Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine...

    Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K and it exits at 195 kPa, 323 K. The power delivered by the turbine is measured to 38 kW. Neglect potential and kinetic energies. For Nitrogen, Cp = 1039 i/Kg.k 1. Calculate the amount of heat transfer. 12% 2. Determine if the heat is added to the system or lost from the system. 4% 3. Plot the TV diagram...

  • 1.) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the...

    1.) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K and it exits at 195 kPa, 323 K. The power delivered by the turbine is measured to 38 kW. Neglect potential and kinetic energies. For Nitrogen, Cp = 1039 j/Kg.k - Calculate the amount of heat transfer. Determine if the heat is added to the system or lost from the system. - Plot the TV diagram showing all...

  • 1.) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the...

    1.) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K and it exits at 195 kPa, 323 K. The power delivered by the turbine is measured to 38 kW. Neglect potential and kinetic energies. For Nitrogen, Cp = 1039 j/Kg.k - Calculate the amount of heat transfer. Determine if the heat is added to the system or lost from the system. - Plot the TV diagram showing all...

  • if possible early, thank you Question # 1 (20%) Nitrogen expands in a turbine at a...

    if possible early, thank you Question # 1 (20%) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K and it exits at 195 kPa, 323 K. The power delivered by the turbine is measured to 38 kW. Neglect potential and kinetic energies. For Nitrogen, Cp = 1039 J/Kg.k 1. Calculate the amount of heat transfer. 12% 2. Determine if the heat is added to the system or lost...

  • 1.) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the...

    1.) Nitrogen expands in a turbine at a rate of 0.17 kg/s. The nitrogen enters the turbine at 750 kPa, 580 K and it exits at 195 kPa, 323 K. The power delivered by the turbine is measured to 38 kW. Neglect potential and kinetic energies. For Nitrogen, Cp = 1039j/Kg.k - Calculate the amount of heat transfer. Determine if the heat is added to the system or lost from the system. Plot the TV diagram showing all the states...

  • Air enters the compressor of a gas-turbine engine at 51 kg/min at 128 kPa and 316...

    Air enters the compressor of a gas-turbine engine at 51 kg/min at 128 kPa and 316 K and exits at 722 kPa and 555 K. Heat is lost from the compressor at 13 kJ/kg. Determine the power input (in kW to 1 decimal place) required assuming that kinetic energy can be neglected. Take the specific heat of air to be 1.05 kJ/kg.K.

  • 2. Methane at 27°C, 10 MPa and mass flow rate of 10 kg/s enters a turbine...

    2. Methane at 27°C, 10 MPa and mass flow rate of 10 kg/s enters a turbine operating at a steady flow process and expands adiabatically through a 5:1 pressure ratio, and exits at -48°C Methane data: R 0.8153 kJ/kg.K Tcr 191.1 K Pcr4.64 MPa Cp 18.89 0.055 T (Cp in kJ/kMol, T in K) (a) The power developed by turbine, in KW (b) Compare your result in part (a) with the value obtained using the ideal gas model

ADVERTISEMENT
Free Homework Help App
Download From Google Play
Scan Your Homework
to Get Instant Free Answers
Need Online Homework Help?
Ask a Question
Get Answers For Free
Most questions answered within 3 hours.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT