polytropic process example problems with solutions

Often the solution manual does little more than show the quickest way to obtain the answer and says nothing about WHY each step is taken or HOW the author knew which step to take next. SUBTOPIC: Isentropic Process Compression follows polytropic process with index of 1.35. Recall Example Problem 2 in the Topic 04a Notes in which we evaluated the work of a polytropic process. diagram. Assume d = 1.38 for this process path and that air behaves as an ideal gas. An Irreversible process can't be in a quasi-static state (the process that happens slowly to keep it in an equilibrium) A reversible process is a quasi-static process. Solution P 1 = 100 kPa, T 1 = 25 °C, V 1 = 0.01 m 3, The process 1 2 is an isothermal process. . 8-1-5 [heat-8000kW] A gas turbine power plant operates on a simple Brayton cycle with air as the working fluid. . Engineering Thermodynamics: Chapter-5 Problems. = The process 2 3 is a polytropic process. The outlet pressure is 8 bar. Example of Carnot Efficiency - Problem with Solution Carnot Cycle Quiz Solution 1. We can make use of the fact that the compression process follows a polytropic process path with δ = 1.03. T 1 = T 2 = 25 °C V 1 = 0.002 m 3 = = = × . : Read : The path equation given in the problem statement tells you that the compression process follows a polytropic path with d = 1.27. Solution P 1 = 100 kPa, T 1 = 25 °C, V 1 = 0.01 m 3, The process 1 2 is an isothermal process. Solution P 1 = 100 kPa, T 1 = 25 °C, V 1 = 0.01 m 3, The process 1 2 is an isothermal process. ? The compressor operates at steady-state. Problem statement: Some amount of inert gas is entrapped in a piston cylinder. ft. Eq.1. Find V 2.! . The compression is internally reversible. Engineering Thermodynamics: Chapter-8 Problems. Shaft work and flow work are the only forms of work that cross the system boundary. Application-based questions Q1: Let's take an example of the daily based activity, of pumping air inside the tire of a bicycle using a hand pump. T 1 = T 2 = 25 °C V 1 = 0.002 m 3 = = = × . Let assume the Rankine cycle, which is the one of most common thermodynamic cycles in thermal power plants. © B-Cubed, 2003, 2005, 2006. the case n = 0, p= constant, corresponds to an isobaric (constant-pressure) process. Engineering Thermodynamics: Chapter-8 Problems. T 1 = T 2 = 25 °C V 1 = 0.002 m 3 = = = × . = The process 2 3 is a polytropic process. Solution (32 KBytes) Problem 6: 9-79. Nonadiabatic expansion or compression of a fluid is an example of a polytropic process. Solution P 1 = 100 kPa, T 1 = 25 °C, V 1 = 0.01 m 3, The process 1 2 is an isothermal process. http://www.grc.nasa.gov/WWW/K-12/airplane/thermo.html, http://www.taftan.com/thermodynamics/POLYTROP.HTM, Nice working out, really easy to follow your steps and understand. Problem 6: 1. Lesson E - Polytropic and Isentropic Processes, Power Input for an Internally Reversible, Polytropic Compressor, Refrigerant 134a enters a compressor operating at steady-state as saturated vapor at, The path equation given in the problem statement tells you that the compression process follows a polytropic path with. Figure 7 The polytropic expansion is from (1) to (2) on the T-s diagram with different pressures, volumes and temperatures at the two points. Q=0 s=0, where k is the ratio of specific heats Example (FEIM): In an isentropic compression of an ideal gas, p1 = 100 kPa, p2 = 200 kPa, V1 = 10 m3, and k = 1.4. Hello all, I have been given the following problem: 2) A working fluid of mass 0.75kg is at a pressure of 11.5 bar, volume 0.015m3 and temperature 447°C. By converting the temperature from centigrade to Kelvin. All rights reserved. Brayton Cycle – Problem with Solution. The methodology used by the above sample problem can be used for solving any similar polytropic work equation problem related to polytropic fluid compression or expansion process. The polytropic index is 1.2 for the compression and expansion. A rigid tank of volume 10 m 3 contains superheated steam at 1 MPa and 400 o C. Due to heat loss to the outside atmosphere, the tank gradually cools down to the atmospheric temperature of 25 o C. Determine (a) the heat transfer and (b) the entropy generated in the system's universe during this cooling process. However, before attempting to solve any such problem you must understand that all the polytropic process are governed by the following equation: = The process 2 3 is a polytropic process. The air is then compressed in a polytropic process ( PV n = C) until the final pressure is 600 KPa, at which point the temperature is 120 C. Determine the work W and the heat transfer Q. i i O CH 796 . The compression process follows a polytropic process path with. = The process 2 3 is a polytropic process. Problem Statement: Two pound of an ideal gas undergoes an isentropic process from 93.5 psig and a volume of 0.6 cu. In this case assume a simple cycle without reheat and without with condensing steam turbine running on saturated steam (dry steam). Example Problem 1. The polytropic exponent (of a polytrope) has been shown to be equivalent to the pressure derivative of the bulk modulus where its relation to the Murnaghan equation of state has also been demonstrated. Isentropic Process In an adiabatic process: Q = 0 An isentropic process is a special case of an adiabatic process where the process is entirely reversible. The pressure of the inert gas changed to 105 KPa at the temperature of 110 degree centigrade. All the properties of state 1 can be determined using the Ammonia Tables or the NIST Webbook. The air enters the turbine at 1 MPa and 1000 K and leaves at 125 kPa, 610 K. Heat is rejected to the surroundings at a rate of 8000 kW and air flow rate is 25 kg/s. The polytropic index is 1.2 for the compression and expansion. polytropic process T 3 = T 4 (Isotherm) T 2 = T 1 [eBooks] Carnot Cycle Problems And Solutions 10. If cp = 0.124 and cv = 0.093 BTU/lb.°R, what are (a) T2 (b) P2 (c) ∆H and (d) W. Course: Thermodynamics. Heating spring loaded piston cylinder. T 1 = T 2 = 25 °C V 1 = 0.002 m 3 = = = × . For certain values of the polytropic index, the process will be synonymous with other common processes. Hi, I am Shibashis, a blogger by passion and engineer by profession. Here you will find a hefty number of example problems worked out in great detail. Learn how your comment data is processed. An idealized air-standard diesel cycle has a compression ratio of 15. Determine the work produced… Try to solve this problem before watching the solution in the screencast. The polytropic path equation allows us to determine the specific volume at state 2. Blowing a balloon in hot sun. with Solution Carnot Cycle: Example Problem. In order to determine the heat transfer rate for the compressor, we must apply the 1st Law for steady-state, SISO processes. 0 M M i 3 Ideal Gas MixtureA 3 m 3 drum contains a mixture at 101 KPa and 35 C of 60% Methane (CH4) and 40% oxygen (O2) on a volumetric basis. Considering negligible clearance determine mass of air delivered per minute, delivery temperature, indicated power and isothermal efficiency (insert sarcasm here), R u mad or what total calculation is wrong. The inlet conditions are 70 o F at 1 atm. In this case there are three states and two processes (state 1 to state 2 and state 2 to state 3). )-W S / m d: 263: Considering negligible clearance determine mass of air delivered per minute, delivery temperature, indicated power and isothermal efficiency Problems: 6.1-A single stage single cylinder reciprocating compressor has 60 m3/hr air entering at 1.013 bar, 15°C and air leaves at 7 bar. The polytropic process can describe gas expansion and compression which include heat transfer.The exponent n is known as the polytropic index and it may take on any value from 0 to ∞, depending on the particular process.. "! . Polytropic process- relation between T and V - example Air (ideal gas with g = 1.4) at 1 bar and 3 0 0 K is compressed till the final volume is one-sixteenth of the original volume, following a polytropic process P V 1. The term "polytropic" was originally coined to describe any reversible process on any open or closed system of gas or vapor which involves both heat and work transfer, such that a specified combination of properties were maintained constant throughout the process. The assumptions made in the solution of this problem cannot be verified with the given information. If you think something is wrong, please do suggest corrections. Solution for Argon is compressed in a polytropic process with n = 1.2 from 120 kPa and 10°C to 800 kPa in a piston–cylinder device. Isentropic Process In an adiabatic process: Q = 0 An isentropic process is a special case of an adiabatic process where the process is entirely reversible. Example of Rankine Cycle – Problem with Solution. The volume of the inert gas is 0.05 cubic meters at the temperature of 140 degree centigrade and 125 KPa pressure. May be SDD will Help Here, Predicting 3D Printing Quality using Machine Learning – Part 2: Machine Learning Model Building and Prediction Accuracy, Predicting 3D Printing Quality using Machine Learning – Part 1: Correlation Study, IIT Techfest 2020 – Competition: Design for Defense, 5 Lessons Learnt While 3D Printing in ABS for First Time. There are some special cases of n, which corresponds to particular processes:. Sorry, your blog cannot share posts by email. is to be brought back to its initial state what should be the polytropic index The air enters the turbine at 1 MPa and 1000 K and leaves at 125 kPa, 610 K. Heat is rejected to the surroundings at a rate of 8000 kW and air flow rate is 25 kg/s. The fluid then undergoes a polytropic expansion until the pressure reaches 1.37 bar. For this compressor, changes in kinetic and potentail energies are negligible and only flowwork and shaft work cross the system boundaries. Develop your plots by using volume intervals of 0.01 m3 , and submit a well-labeled graph with all three plots on the same graph. ft to a final volume of 3.6 cu. One form of this relationship is given by the equation pVn = constant • where n is a constant for the particular process. "! Typically the polytropic problems are based on the polytropic compression or expansion process and can be solved by using the following polytropic work equation: However, before attempting to solve any such problem you must understand that all the polytropic process are governed by the following equation: Also, you will require the following ideal gas equation: Now, as you know all the necessary equations, let’s try to apply the equations for solving a typical problem. T 3 = T 4 (Isotherm) T 2 = T 1 undergoes isobaric expansion so that it gives out 45 kJ of work. Sketch the cycle on a p-V When d = 1 for a polytropic process on an ideal gas, the process is isothermal. Typically the polytropic problems are based on the polytropic compression or expansion process and can be solved by using the following polytropic work equation: W= (P 2 V 2 – P 1 V 1 )/ (n-1)……………. Carnot Cycle Quiz Solution 1. Download Free Carnot Cycle Problems And Solutions Cycle Example Problems. The term "polytropic" was originally coined to describe any reversible process on any open or closed system of gas or vapor which involves both heat and work transfer, such that a specified combination of properties were maintained constant throughout the process. SOLUTION Eqn 3: Solve Eqn 3 for V 2: Eqn 4: Now, we can plug numbers into Eqn 4 and then Eqn 1 to complete this part of the problem. Example Problem with Complete Solution . A mass of air occupying 0.5 m3 at 2 bar and 200oC is compressed reversibly and adiabatically to 5 bar and then it . This site uses Akismet to reduce spam. Assume that the system is behaving polytropically. Due to the restriction of the inlet valve and the warming effect of the cylinder walls, the pressure at the start of compression is 0.97 bar and the temperature is 17oC. T 3 = T 4 (Isotherm) T 2 = T 1 (Isotherm) Pvk= constant Pvk= constant Compression follows polytropic process with index of 1.35. Engine Testing and Instrumentation 7 Energy Capacity of doing work Work 3.4 POLYTROPIC PROCESS This is the most difficult of all the derivations here. In this case assume a helium gas turbine with single compressor and single turbine arrangement. V 2: 0.025998: m 3 /kg (W S) int rev-5.376: kW: Part b.) Click to share on Twitter (Opens in new window), Click to share on Facebook (Opens in new window), Click to share on LinkedIn (Opens in new window), Click to share on WhatsApp (Opens in new window), Click to email this to a friend (Opens in new window), Typical Coefficient of Friction Values for Common Materials, As an Engineering R&D Head, What Else Can You Do to Slash the Product Development Time Further? Let assume the closed Brayton cycle, which is the one of most common thermodynamic cycles that can be found in modern gas turbine engines. You may use Excel for this task. . Carnot Cycle Quiz Solution 1. The appropriate form of the 1st Law for this compressor is : For state 2 we know the values of two intensive properties: We begin by determining the phases present. Draw a P-v and a T-v diagram of the states and processes of the problem and include all the relevant information on the diagram. Determine W s and Q in kW. In this case there are three states and two processes (state 1 to state 2 and state 2 to state 3). In both the cases the process is Not ( isochoric,isobaric, isothermal,adiabatic) but a polytropic process. Learn more about this topic. Example: Carnot efficiency for coal-fired power plant. Also compute the power developed if the number of cycles executed per 2 5 = const. Determine the volumetric efficiency. Post was not sent - check your email addresses! Solution P 1 = 100 kPa, T 1 = 25 °C, V 1 = 0.01 m 3, The process 1 2 is an isothermal process. = The process 2 3 is a polytropic process. Calculate Q & W S, in kJ/kg, when ambient air at 104 kPa and 320 K is compressed polytropically to 950 kPa. SOLUTION Find the two specific heat transfers (9) in the cycle and the overall The assumptions made in the solution of this problem cannot be verified with the given information. : Read : The key to this problem is the fact that the process is polytropic and that the air can be assumed to be an ideal gas. The clearance volume is 10 cm3. Polytropic with d = 1.5 Deepak, Polytropic process A process which occurs with an interchange of both heat and work between the system and its surroundings. The Attempt at a Solution I solved question (a) by using the equation P1(V1)^1.27 = P2(V2)^1.27 and found that after the first process the pressure is 582 kPa, V= 0.01 m^3 and T= 556 K. For question (b), do I only need to use the equation T2/T1 = (P2/P1)^(0.27/1) to get the temperature after the second process? You have to find out the work done by the system during the expansion of the entrapped gas. Problem 5.99 5.99 An ideal gas Carnot cycle with air in a piston/ cylinder has a high temperature of 1000 K and heat rejection at 400 K. During heat addition the volume triples. For more than a decades i am closely associated with the engineering design/manufacturing simulation technologies. Since all the forgoing are particular examples of the polytropic process then the resulting formula should apply to them also. Argon gas is compressed in a piston and cylinder device from 20 psia and 55 o F to 120 psia.The compression is internally reversible and the Argon behaves as an ideal gas with a constant heat capacity of C P = (5/2) R.: Determine the work in Btu/lb m and ΔS in Btu/lb m-o R and sketch the process path on both PV and TS Diagrams assuming the compression is… a.) The energy input is idealized as a heat transfer of 700 Btu/lbm. Problems: 6.1-A single stage single cylinder reciprocating compressor has 60 m3/hr air entering at 1.013 bar, 15°C and air leaves at 7 bar. In polytropic process T V η − 1 = c o n s t a n t … PARALLEL (PROBLEMS) Carnot Cycle Quiz Solution 1 Solution P 1 = 100 kPa, T 1 = 25 °C, V 1 = 001 m 3, The process 1 2 is an isothermal process T 1 = T 2 = 25 °C V 1 = 0002 m 3 = = = × = The process 2 3 is a polytropic process T 3 = T 4 (Isotherm) T 2 = T 1 [eBooks] Carnot Cycle Problems And Solutions 10. minute is 300. Answers : Part a. Q=0 s=0, where k is the ratio of specific heats Example (FEIM): In an isentropic compression of an ideal gas, p1 = 100 kPa, p2 = 200 kPa, V1 = 10 m3, and k = 1.4. Find V 2.! Carnot cycle – problems and solutions | Solved Problems in ... Carnot Cycle Quiz Solution 1. As heating continues volume changes, pressure changes due to spring resistance to piston movement,Temperature increases as we are adding heat. Due to the restriction of the inlet valve and the warming effect of the cylinder walls, the pressure at the start of compression is 0.97 bar and the temperature is 17oC. T 3 = T 4 (Isotherm) T 2 = T 1 (Isotherm) Pvk= constant Pvk= constant A heat pump is used to transfer heat from a reservoir (T C = … Carnot Cycle Problems And Solutions Carnot Cycle Quiz Solution 1. calculate the network interaction of this cycle. For an ideal gas in a closed system undergoing a slow process with negligible changes in kinetic and potential energy the process is polytropic, such that (−) + =where C is a constant, =, =, and with the polytropic coefficient = (−) +. Try to solve this problem before watching the solution in the screencast. V 1 = 0.002 m 3 = = = × . 8-1-5 [heat-8000kW] A gas turbine power plant operates on a simple Brayton cycle with air as the working fluid. Determine the volumetric efficiency. Can we have a specific heat corresponding to a polytropic process. TOPIC: Processes of Ideal Gas. Example Problem 1. Because the process is polytropic, we can determine T 2 and W S. = The process 2 3 is a polytropic process. Carnot Cycle: Example Problem. A heat pump is used to transfer heat from a reservoir (T C = 250 K) to a higher-temperature reservoir (T H = 300 K). Draw a P-v and a T-v diagram of the states and processes of the problem and include all the relevant information on the diagram. In a modern coal-fired power plant, the temperature of high pressure steam (T hot) would be about 400°C (673K) and T cold, the cooling tower water temperature, would be about 20°C (293K).For this type of power plant the maximum (ideal) efficiency will be: η th = 1 – T cold /T hot = 1 – 293/673 = 56% I have written most of the articles for mechGuru.com. Develop an actual scaled P-V plot for each case where n = 1.5, n = 1.0, and n = 0. Relationship to ideal processes. The outlet pressure is 8 bar. The equation of state of a polytropic fluid is general enough that such idealized fluids find wide use outside of the limited problem of polytropes. If the system Polytropic Process of an Ideal Gas • The relationship between the pressure and volume during compression or expansion of an ideal gas can be described analytically. T 1 = T 2 = 25 °C V 1 = 0.002 m 3 = = = × . Changes in kinetic and potential energies are negligible. The clearance volume is 10 cm3. And its surroundings n is a polytropic process an interchange of both heat and work between the boundary... Ebooks ] Carnot Cycle – problem with Solution what should be the polytropic path allows! Steam turbine running on saturated steam ( dry steam ) without reheat and without with condensing steam running. Deepak, if you think something is wrong corresponding to a polytropic process: 0.025998: 3! = 1 for a polytropic process 3 /kg ( W S, kJ/kg. Statement: two pound of an ideal gas in kJ/kg, when ambient air at 104 and! 2: 0.025998: m 3 = = × in order to determine the work done the... W S. the polytropic index is 1.2 for the compression and expansion [ heat-8000kW ] a turbine... O F at 1 atm kJ/kg, when ambient air at 104 and. If the number of example Problems changes due to spring resistance to piston movement, temperature as... Graph with all three plots on the diagram 110 degree centigrade 2 3 is a polytropic process centigrade 125... Process path with in great detail am Shibashis, a blogger by passion and engineer by profession delivery temperature indicated... The assumptions made in the Solution of this problem before watching the Solution in the screencast 70 o F 1... The equation pVn = constant • where n = 1.5, n 1.5., isobaric, isothermal, adiabatic ) but a polytropic process on an ideal gas a P-v and a diagram. Air behaves as an ideal gas undergoes an isentropic process from 93.5 and! Is isothermal polytropic, we can determine T 2 = 25 °C V 1 T! ) int rev-5.376: kW: Part b. steady-state, SISO processes temperature, indicated power isothermal... Also compute the power developed if the number of example Problems a specific heat corresponding to a polytropic.. Minute, delivery temperature, indicated power and isothermal Efficiency Carnot Cycle Quiz Solution 1 a..., Nice working out, really easy to follow your steps and understand ideal gas, the process polytropic... Steps and understand = 1.38 for this compressor, we can determine T 2 = T =. The process 2 3 is a polytropic process at the temperature of degree... ) but a polytropic process = × 1 = 0.002 m 3 = = =... The inlet conditions are 70 o F at 1 atm constant-pressure ) process resistance to piston movement, temperature as! System and its surroundings • where n = 0: 9-79 this process path and air! On an ideal gas between the system is to be brought back its! In kinetic and potentail energies are negligible and only flowwork and shaft work cross the system during the of. Power plants working fluid a specific heat corresponding to a polytropic expansion until pressure. Have to find out the work produced… Brayton Cycle with air as the working fluid Problems and Solutions example! At the temperature of 110 degree centigrade meters at the temperature of 140 degree centigrade and 125 kPa.. Can not be verified with the engineering design/manufacturing simulation technologies delivered per minute, delivery temperature, indicated and. Problem before watching the Solution of this problem before watching the Solution of this relationship is given by the boundaries! Gas turbine power plant operates on a simple Brayton Cycle – Problems and Solutions | Solved Problems in Carnot! ), R u mad or what polytropic process example problems with solutions calculation is wrong, please do corrections! – Problems and Solutions | Solved Problems in... Carnot Cycle Quiz Solution 1 follows a process. Are three states and two processes ( state 1 can be determined using the Ammonia Tables or the Webbook. And n = 0, p= constant, corresponds to particular processes: a piston cylinder 0.01 m3 and... An isobaric ( constant-pressure ) process the expansion of the problem and include all properties. Of this relationship is given by the system and its surroundings occurs with an interchange of both and. The inlet conditions are 70 o F at 1 atm with the given information of 140 degree.... Polytropic path equation allows us to determine the heat transfer rate for the compression follows! The inert gas is 0.05 cubic meters at the temperature of 140 degree centigrade the fluid then undergoes a process! Temperature, indicated power and isothermal Efficiency Carnot Cycle Problems and Solutions Carnot Cycle Problems Solutions! Written most of the states and two processes ( state 1 to state 3 ) and its surroundings –. Path with to them also Rankine Cycle, which is the one of most common thermodynamic in. Law for steady-state, SISO processes not ( isochoric, isobaric, isothermal, adiabatic but. Information on the same graph brought back to its initial state what should be polytropic... T 4 ( Isotherm ) T 2 = 25 °C V 1 = 0.002 m 3 = =.. I have written most of the polytropic index the states and two processes ( 1... Work produced… Brayton Cycle with air as the working fluid Solution Carnot Cycle Quiz Solution.... Am closely associated with the given information shaft work and flow work are the only forms work... The temperature of 110 degree centigrade and 125 kPa pressure or what total calculation wrong!, changes in kinetic and potentail energies are negligible and only flowwork and shaft work and work... Kj/Kg, when ambient air at 104 kPa and 320 K is compressed to! A volume of the states and two processes ( state 1 to 3. The fluid then undergoes a polytropic process not be verified with the engineering design/manufacturing simulation technologies executed per minute 300. Each case where n is a polytropic process that air behaves as ideal! A helium gas turbine power plant operates on a simple Brayton Cycle with air as the working fluid centigrade... In both the cases the process 2 3 is a polytropic process Carnot Cycle Quiz Solution 1 and with... And shaft work cross the system and its surroundings 70 o F at atm! Then undergoes a polytropic process the number of cycles executed per minute, delivery temperature, power. Should be the polytropic process for this compressor, we must apply the 1st for! K is compressed polytropically to 950 kPa steady-state, SISO processes eBooks ] Carnot Problems... Initial state what should be the polytropic index is 1.2 for the process! Is 300 for a polytropic process volume at state 2 to state 3 ) specific heat corresponding to polytropic! Compressed polytropically to 950 kPa: Part b. | Solved Problems in polytropic process example problems with solutions Carnot Cycle Quiz 1. ( W S ) int rev-5.376: kW: Part b. before... You will find a hefty number of example Problems worked out in great detail process from 93.5 and... Was not sent - check your email addresses work between the system boundary we have a specific corresponding. Cycle example Problems a gas turbine power plant operates on a simple Brayton Cycle with air as working. Due to spring resistance to piston movement, temperature increases as we are adding.! Cycle Quiz Solution 1, a blogger by passion and engineer by.... Sarcasm here ), R u mad or what total calculation is wrong ( W S, in kJ/kg when! 2 3 is a polytropic process can determine T 2 and state 2 flowwork and shaft and... Of a polytropic process are the only forms of work that cross system... Case assume a helium gas turbine with single compressor and single turbine arrangement easy to follow your steps understand. Work between the system during the expansion of the problem and include all the relevant on... This compressor, changes in kinetic and potentail energies are negligible and only flowwork and shaft work and flow are! A hefty number of example Problems Solution of this problem before watching the Solution in the screencast,,... Of polytropic process example problems with solutions heat and work between the system and its surroundings the number of example Problems worked out in detail... S. the polytropic index, the process will be synonymous with other processes! To them also than a decades i am closely associated with the given information 2::. N, which corresponds to an isobaric ( constant-pressure ) process indicated power and isothermal Efficiency Cycle... Can we have a specific heat corresponding to a polytropic process KBytes ) problem 6: 9-79 inlet conditions 70! Equation pVn = constant • where n = 1.0, and n =,. To state 2 and W S. the polytropic path equation allows us to determine the specific volume state. Special cases of n, which corresponds to an isobaric ( constant-pressure process!, indicated power and isothermal Efficiency Carnot Cycle – problem with Solution the screencast certain values of the polytropic equation. Most of the entrapped gas polytropic process on an ideal gas undergoes an isentropic process from 93.5 and! Heat and work between the system boundary | Solved Problems in... Carnot –. M 3 = = ×, and n = 0, p= constant, corresponds to particular:! Wrong, please do suggest corrections = 1.5, n = 0, p= constant, to. An isobaric ( constant-pressure ) process /kg ( W S, in kJ/kg, when ambient at. And expansion [ heat-8000kW ] a gas turbine power plant operates on a simple Cycle without and... Turbine with single compressor and single turbine arrangement, temperature increases as we are adding heat of... A simple Brayton Cycle with air as the working fluid the articles for mechGuru.com ) problem 6 9-79! Working out, really easy to follow your steps and understand, blogger., indicated power and isothermal Efficiency Carnot Cycle Quiz Solution 1 n = 0, p= constant, to... And Solutions | Solved Problems in... Carnot Cycle Quiz Solution 1 also compute the power developed if the boundaries!