Thermodynamic Otta Rankin System Project

User Generated

Wrffuwx

Engineering

Description

you know what it is lol

I will put 3 days because I prefer to have it early to check

please finish the first one first

Unformatted Attachment Preview

ENES232 Project #1 Due: May 8, 2019 _a n In an ideal Rankine cycle with reheat, superheated steam vapor enters the turbine at 10 MPa and 480 °C, while the condenser pressure is 6 kPa. Steam expands through the first-stage turbine to 0.7 MPa and then is reheated to 480 °C. All answers should have 4 significant digits. Without using special software (Excel and calculators are acceptable.), perform the following tasks: 1. Calculate the total heat addition, net work of the cycle, heat extraction through condenser, and thermal efficiency of this ideal Rankine cycle with reheat. [50] 2. From scratch, calculate the same quantities assuming that the pump and each turbine stage have an isentropic efficiency of 80%. [50] 3. Draw the T-s diagrams for both cycles on the same plot. [50] 4. Draw the p-v diagrams for both cycles on the same plot. [50] 5. For a pressure of 7 bar right after the first stage turbine in the ideal Rankine cycle, create two plots: thermal efficiency as a function of the reheat temperature from 200 °C to 500 °C; and the net work, heat addition, and heat extraction on the same graph as a function of the reheat temperature from 200 °C to 500 °C. [35] 6. Is there a local maximum or minimum thermal efficiency for 200 °C < Treheat < 500 °C? Explain why or why not? If so, what is it, at what reheat temperature does it occur, and how does one determine such an efficiency? [15] 7. What did you learn from this exercise? [5] Work by yourself. Fill out this page and include it in your report. For extra credit: • • Use a software program (Matlab, Mathcad, or thermodynamics analysis programs, but not Excel) to check your answers. Email me your attached programs and results. (10) Type up cover page and report. (20) Name: _____________________________ Number of hours spent on project: ______ Evaluation (For instructor use only; do not write in this area.) Element Ideal Real T-s p-v Plots Max/Min SW TY Σ Score /250 ENES232 Extra Credit Project #1 Due: May 8, 2019 2 In an ideal Otto cycle, before the compression process, the pressure is 14.7 psi and the temperature is 530 °R. Without using special software (Excel and calculators are acceptable.), perform the following tasks: 1. Calculate the thermal efficiency and the mean effective pressure for a compression ratio of 8 and a maximum cycle temperature of 2000 °R. Specific heat is not constant. [50] 2. Draw the T-s and p-v diagrams for this cycle. [50] 3. For compression ratios of 4, 6, 8, 10, and 12, calculate in a table and plot thermal efficiency and mean effective pressure as a function of maximum cycle temperatures from 1000 °R to 4000 °R in increments of 1000 °R. [90] 4. Is there a local maximum or minimum thermal efficiency for any compression ratio in the temperature range 1000 °R < Tcycle,max < 4000 °R? If so, what is it, at what maximum cycle temperature does it occur, and how would you determine it? [10] 5. Is there a local maximum or minimum mean effective pressure for any compression ratio in the temperature range 1000 °R < Tcycle,max < 4000 °R? If so, what is it, at what maximum cycle temperature does it occur, and how would you determine it? [10] 6. Is there a value of the maximum cycle temperature, in which the mean effective pressure is least dependent on compression ratio? If so, how would you determine the best estimate for this value? [10] 7. What conclusions can you draw from your results? [10] Work by yourself. Fill out this page and include it in your report. For extra credit: • • Use a software program (Matlab, Mathcad, or thermodynamics analysis programs, but not Excel) to check your answers. Email me your attached programs and results. (10) Type up cover page and report. (20) Name: _____________________________ Number of hours spent on project: ______ Evaluation (For instructor use only; do not write in this area.) Element η, mep T-s p-v Plots Max/Min η Max/Min mep Conclusions SW TY Σ Score /100
Purchase answer to see full attachment
User generated content is uploaded by users for the purposes of learning and should be used following Studypool's honor code & terms of service.

Explanation & Answer

Attached.

Otto Cycle Questions
Student’s Name
Institution
Date

Attached.

THERMODYNAMICS

1

Thermodynamics
Student’s name
Institution
Due date

THERMODYNAMICS

2

Introduction
The steam generator is designed to generate water vapor. To do this, natural organic fuel
(coal, gas, fuel oil, etc.) is burned in its firebox. Due to the heat released during this process,
water is first transformed into saturated, and then, in a superheater, into superheated water
vapor. Superheated steam is sent to the turbine, where, expanding, it does useful work rotates the turbine rotor and the electric generator, which is designed to generate electric
energy. From the turbine, the exhaust steam is sent to a condenser, where it is condensed and
pumped again to the boiler. This pump is called nutrient, because not raw water is supplied to
the boiler, but specially prepared (nutritious) water. At the heart of the work of such a steam
power plant is an ideal Rankine cycle. It was proposed in the 50s. Hhv. Almost
simultaneously Scott. Engineer and physicist U. Renkin and the outstanding German
physicist R. Clausius. It is usually called the Ra...


Anonymous
I was stuck on this subject and a friend recommended Studypool. I'm so glad I checked it out!

Studypool
4.7
Trustpilot
4.5
Sitejabber
4.4

Related Tags