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4 Stages Of Carnot Cycle Improving Thermal Efficiency

What is Carnot Cycle?


Carnot cycle is an ideal cycle as adopted for an ideal heat engine.It consists of two isothermal process (expansion and compression) and two adiabetic process (expansion and compression).The cylinder and piston of the engine are considered as perfect non-conductor of heat but the cylinder cover head is a good conductor of heat.The hot body at a higher temperature is brought in contact with the bottom 'B' of the cylinder.The cylinder is fitted with a weightless and a frictionless piston.

The french engineer Nicolas Leonard Sadi Carnot was the first scientist who realize the problem of the efficiency of heat engine and invented the carnot cycle.The pressure-volume (p-v) and temperature-entropy (T-S) graph are shown in the fig.

carnot cycle graph

From the above two p-v and T-S graph, the horizontal axis represents volume 'v' and entropy 'S' and the vertical axis represents pressure 'p' and temperature 'T'.Let,engine cylinder contains m kg of air at its original condition represented by point 1 on the p-v and T-S diagrams.At this point,let p1,v1 and T1 be the pressure,temperature and volume.

First Stage (Isothermal Expansion)



Let,unit mass of perfect gas is admitted into the cylinder at the beginning of the outward moment of the piston and the pressure,temperature,volume of the gas at a point 1 is p1,v1 and T1 respectively.The bottom 'B' of the cylinder can be covered by an insulating cap .During the movement of the piston, the heat Q1 is supplied to the perfect gas and the gas expands isothermally keeping temperature T1 constant until the volume v2 and pressure p2AV影片,欧美一级做人爱c版免费.The heat supplied by the hot body is fully absorbed by the air and is utilised by doing external work.So,heat is supplied during this process is equal to the work done during this process.This isothermal expansion is represented by the curve 1-2 on p-v and T-S diagram.

So, work done by the air



Since,there is no change of temperature from point 1 to 2,so,(T1=T2) and as per first law of thermodynamics internal energy is also zero (E=0).

Then the heat supplid


Then change of entropy


Second Stage (Isentropic Expansion)



As the piston moves outward,the gas expands adiabatically till the pressure p3,volume v3 and temperature T2 and the hot body is removed from the bottom of the cylinder 'B' and the insulating cap is brought in contact.In this process, there is no interchange of heat of the surrounding gasses (Q = 0)The reversible adiabatic expansion is represented by the curve 2-3 on pv diagram.

AV影片,欧美一级做人爱c版免费So, work done by the air


The change of internal energy E = - W and there is a no change of entropy, so S2 = S3.


Third Stage (Isothermal Compression)



Now the piston moves inward the gas and insulating cap I.C. is also removed from the bottom of the cylinder and bring the cold body in its contact.The air pressure is compressed isothermally keeping temperature constant T3 from v3 to v4.It means at a point 4 temperature T4 is equal T3.That's why heat is rejected to the cold body is equal to the work done on the air.The isothermal compression curve is represented by 3-4 on p-v curve.

AV影片,欧美一级做人爱c版免费So, work done bythe air


Here change of entropy E = 0 and change of entropy


Fourth Stage (Isentropic Compression)



As the piston moves inwards the gas insides the cylinder is compressed adiabatically till the pressure p1,volume v1, and temperature T1 such that the gas returns to its original condition to complete the carnot cycle and insulated cap I.C. is brought in contact with the bottom of the cylinder B.The temperature of air increases from T4 to T1 and not heat is absorbed or rejected by the air.The reversible adiabatic compression is represented by the curve 4-1 on p-v and T-S diagram

So, work done by the air for adiabetic compression


From the above discussion, it is seen that the total internal energy decrease in reversible adiabatic expansion shown in curve 2-3 is equal to the increase in internal energy during reversible adiabatic compression 4-1.So, the net effect of the whole carnot cycle is zero.

AV影片,欧美一级做人爱c版免费Net work done,


And carnot efficiency

carnot efficiency


From the carnot cycle efficiency equation,T1 is greater than T3AV影片,欧美一级做人爱c版免费.For the smaller value of T3,the thermal efficiency will be maximum.That's why carnot cycle has highest thermal efficiency of all heat engine.


Why carnot cycle can't be used in actual practice?


During the isothermal process, the piston should move very slowly within the cylinder.So that insufficient time is available for the transfer of heat to the working medium within the cylinder during expansion or from the working medium within the cylinder during isothermal compression.

AV影片,欧美一级做人爱c版免费But during the adiabatic process, the piston moves very fast within the cylinder.So that no time is available for the transfer of heat.

So, sudden change of speed (from low speed to high speed) of the piston is required to make the cycle efficient.But this is not possible due to direction of the cylinder and the piston is none conductor of heat and cover head of the cylinder is good conductor.Again there is a weightless and frictionless piston fitted on a cylinder which is pracically impossible.That's why carnot cycle can not be used in actual practice.





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