3. In a Rankine cycle, the water enters the turbine at a pressure of L...
70.2K
Verified Solution
Link Copied!
Question
Mechanical Engineering
3. In a Rankine cycle, the water enters the turbine at a pressure of L = 15 MPa and M = 525 ° C. Condenser pressure is N = 10 kPa. At the condenser outlet, it is assumed that the water is saturated liquid and the pump inlet pressure is again N = 10 kPa. Since the isentropic efficiency of the pump is Y 80%, the isentropic efficiency of the turbine is Z = 60%,a-) Calculate the heat given to the loop in the boiler. (10 s)b-) Calculate the net work of the loop. (10 s)c-) Find the thermal efficiency of the loop. (10 s)
3. In a Rankine cycle, the water enters the turbine at a pressure of L = 15 MPa and M = 525 ° C. Condenser pressure is N = 10 kPa. At the condenser outlet, it is assumed that the water is saturated liquid and the pump inlet pressure is again N = 10 kPa. Since the isentropic efficiency of the pump is Y 80%, the isentropic efficiency of the turbine is Z = 60%,a-) Calculate the heat given to the loop in the boiler. (10 s)b-) Calculate the net work of the loop. (10 s)c-) Find the thermal efficiency of the loop. (10 s)
Answer & Explanation Solved by verified expert
3.6 Ratings (508 Votes)
See Answer
Get Answers to Unlimited Questions
Join us to gain access to millions of questions and expert answers. Enjoy exclusive benefits tailored just for you!
Membership Benefits:
- Unlimited Question Access with detailed Answers
- Zin AI - 3 Million Words
- 10 Dall-E 3 Images
- 20 Plot Generations
- Conversation with Dialogue Memory
- No Ads, Ever!
- Access to Our Best AI Platform: Flex AI - Your personal assistant for all your inquiries!
Other questions asked by students
StudyZin's Question Purchase
1 Answer
$0.99
(Save $1 )
One time Pay
- No Ads
- Answer to 1 Question
- Get free Zin AI - 50 Thousand Words per Month
Best
Unlimited
$4.99*
(Save $5 )
Billed Monthly
- No Ads
- Answers to Unlimited Questions
- Get free Zin AI - 3 Million Words per Month
*First month only
Free
$0
- Get this answer for free!
- Sign up now to unlock the answer instantly
You can see the logs in the Dashboard.