Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lec 1: Overview of thermodynamic system & stateDownload
2Lec 2: First & second laws of thermodynamicsDownload
3Lec 3: Concept of entropy & entropy generationDownload
4Lec 4: Concept of exergy & exergy destructionDownload
5Lec 5: Thermodynamic potentials & Maxwell relationsDownload
6Lec 6: Generalized relations for entropy & specific heatsDownload
7Lec 7: Joule-Thomson coefficient & Clapeyron equationDownload
8Lec 8: Liquid-vapor phase-change processDownload
9Lec 9: Use of property tablesDownload
10Lec 10: Equations-of-state & Compressibility factorDownload
11Lec 11: Ideal cycles for reciprocating enginesDownload
12Lec 12: Otto, Diesel & Dual combustion cyclesDownload
13Lec 13: Stirling & Ericsson cyclesDownload
14Lec 14: Fuel-air cycleDownload
15Lec 15: Numerical exercise on Fuel-air cyclesDownload
16Lec 16: Losses in actual cycle & valve-timing diagramDownload
17Lec 17: Ideal Brayton cycleDownload
18Lec 18: Intercooling & reheating in Brayton cycleDownload
19Lec 19: Regeneration in Brayton cycleDownload
20Lec 20: Ideal Rankine cycleDownload
21Lec 21: Improvements & modifications in Rankine cycleDownload
22Lec 22: Regenerative Rankine cycleDownload
23Lec 23: Binary vapor power cycleDownload
24Lec 24: Combined gas-steam power plantDownload
25Lec 25: Different arrangments in combined cyclesDownload
26Lec 26: Vapor compression refrigeration cycleDownload
27Lec 27: SSS cycles & refrigerantsDownload
28Lec 28: Modifications in VCR systemsDownload
29Lec 29: Vapor absorption refrigeration cycleDownload
30Lec 30: P-v-T behavior of gas mixturesDownload
31Lec 31: Numerical examplesDownload
32Lec 32: Properties of moist airDownload
33Lec 33: Psychrometric chart & various psychrometric processesDownload
34Lec 34: Sensible heat factor & bypass factorDownload
35Lec 35: Theoretical & actual combustion processDownload
36Lec 36: Thermodynamic analyses of reacting systemsDownload

Sl.No Chapter Name English
1Lec 1: Overview of thermodynamic system & stateDownload
Verified
2Lec 2: First & second laws of thermodynamicsDownload
Verified
3Lec 3: Concept of entropy & entropy generationDownload
Verified
4Lec 4: Concept of exergy & exergy destructionDownload
Verified
5Lec 5: Thermodynamic potentials & Maxwell relationsDownload
Verified
6Lec 6: Generalized relations for entropy & specific heatsDownload
Verified
7Lec 7: Joule-Thomson coefficient & Clapeyron equationDownload
Verified
8Lec 8: Liquid-vapor phase-change processDownload
Verified
9Lec 9: Use of property tablesDownload
Verified
10Lec 10: Equations-of-state & Compressibility factorDownload
Verified
11Lec 11: Ideal cycles for reciprocating enginesDownload
Verified
12Lec 12: Otto, Diesel & Dual combustion cyclesDownload
Verified
13Lec 13: Stirling & Ericsson cyclesDownload
Verified
14Lec 14: Fuel-air cycleDownload
Verified
15Lec 15: Numerical exercise on Fuel-air cyclesDownload
Verified
16Lec 16: Losses in actual cycle & valve-timing diagramDownload
Verified
17Lec 17: Ideal Brayton cycleDownload
Verified
18Lec 18: Intercooling & reheating in Brayton cycleDownload
Verified
19Lec 19: Regeneration in Brayton cycleDownload
Verified
20Lec 20: Ideal Rankine cycleDownload
Verified
21Lec 21: Improvements & modifications in Rankine cycleDownload
Verified
22Lec 22: Regenerative Rankine cycleDownload
Verified
23Lec 23: Binary vapor power cycleDownload
Verified
24Lec 24: Combined gas-steam power plantDownload
Verified
25Lec 25: Different arrangments in combined cyclesDownload
Verified
26Lec 26: Vapor compression refrigeration cycleDownload
Verified
27Lec 27: SSS cycles & refrigerantsDownload
Verified
28Lec 28: Modifications in VCR systemsDownload
Verified
29Lec 29: Vapor absorption refrigeration cycleDownload
Verified
30Lec 30: P-v-T behavior of gas mixturesDownload
Verified
31Lec 31: Numerical examplesDownload
Verified
32Lec 32: Properties of moist airDownload
Verified
33Lec 33: Psychrometric chart & various psychrometric processesDownload
Verified
34Lec 34: Sensible heat factor & bypass factorDownload
Verified
35Lec 35: Theoretical & actual combustion processDownload
Verified
36Lec 36: Thermodynamic analyses of reacting systemsDownload
Verified
Sl.No Chapter Name Bengali
1Lec 1: Overview of thermodynamic system & stateDownload
2Lec 2: First & second laws of thermodynamicsDownload
3Lec 3: Concept of entropy & entropy generationDownload
4Lec 4: Concept of exergy & exergy destructionDownload
5Lec 5: Thermodynamic potentials & Maxwell relationsDownload
6Lec 6: Generalized relations for entropy & specific heatsDownload
7Lec 7: Joule-Thomson coefficient & Clapeyron equationDownload
8Lec 8: Liquid-vapor phase-change processDownload
9Lec 9: Use of property tablesDownload
10Lec 10: Equations-of-state & Compressibility factorDownload
11Lec 11: Ideal cycles for reciprocating enginesDownload
12Lec 12: Otto, Diesel & Dual combustion cyclesDownload
13Lec 13: Stirling & Ericsson cyclesDownload
14Lec 14: Fuel-air cycleDownload
15Lec 15: Numerical exercise on Fuel-air cyclesDownload
16Lec 16: Losses in actual cycle & valve-timing diagramDownload
17Lec 17: Ideal Brayton cycleDownload
18Lec 18: Intercooling & reheating in Brayton cycleDownload
19Lec 19: Regeneration in Brayton cycleDownload
20Lec 20: Ideal Rankine cycleDownload
21Lec 21: Improvements & modifications in Rankine cycleDownload
22Lec 22: Regenerative Rankine cycleDownload
23Lec 23: Binary vapor power cycleDownload
24Lec 24: Combined gas-steam power plantDownload
25Lec 25: Different arrangments in combined cyclesDownload
26Lec 26: Vapor compression refrigeration cycleDownload
27Lec 27: SSS cycles & refrigerantsDownload
28Lec 28: Modifications in VCR systemsDownload
29Lec 29: Vapor absorption refrigeration cycleDownload
30Lec 30: P-v-T behavior of gas mixturesDownload
31Lec 31: Numerical examplesDownload
32Lec 32: Properties of moist airDownload
33Lec 33: Psychrometric chart & various psychrometric processesDownload
34Lec 34: Sensible heat factor & bypass factorDownload
35Lec 35: Theoretical & actual combustion processDownload
36Lec 36: Thermodynamic analyses of reacting systemsDownload
Sl.No Chapter Name Gujarati
1Lec 1: Overview of thermodynamic system & stateDownload
2Lec 2: First & second laws of thermodynamicsDownload
3Lec 3: Concept of entropy & entropy generationDownload
4Lec 4: Concept of exergy & exergy destructionDownload
5Lec 5: Thermodynamic potentials & Maxwell relationsDownload
6Lec 6: Generalized relations for entropy & specific heatsDownload
7Lec 7: Joule-Thomson coefficient & Clapeyron equationDownload
8Lec 8: Liquid-vapor phase-change processDownload
9Lec 9: Use of property tablesDownload
10Lec 10: Equations-of-state & Compressibility factorDownload
11Lec 11: Ideal cycles for reciprocating enginesDownload
12Lec 12: Otto, Diesel & Dual combustion cyclesDownload
13Lec 13: Stirling & Ericsson cyclesDownload
14Lec 14: Fuel-air cycleDownload
15Lec 15: Numerical exercise on Fuel-air cyclesDownload
16Lec 16: Losses in actual cycle & valve-timing diagramDownload
17Lec 17: Ideal Brayton cycleDownload
18Lec 18: Intercooling & reheating in Brayton cycleDownload
19Lec 19: Regeneration in Brayton cycleDownload
20Lec 20: Ideal Rankine cycleDownload
21Lec 21: Improvements & modifications in Rankine cycleDownload
22Lec 22: Regenerative Rankine cycleDownload
23Lec 23: Binary vapor power cycleDownload
24Lec 24: Combined gas-steam power plantDownload
25Lec 25: Different arrangments in combined cyclesDownload
26Lec 26: Vapor compression refrigeration cycleDownload
27Lec 27: SSS cycles & refrigerantsDownload
28Lec 28: Modifications in VCR systemsDownload
29Lec 29: Vapor absorption refrigeration cycleDownload
30Lec 30: P-v-T behavior of gas mixturesDownload
31Lec 31: Numerical examplesDownload
32Lec 32: Properties of moist airDownload
33Lec 33: Psychrometric chart & various psychrometric processesDownload
34Lec 34: Sensible heat factor & bypass factorDownload
35Lec 35: Theoretical & actual combustion processDownload
36Lec 36: Thermodynamic analyses of reacting systemsDownload
Sl.No Chapter Name Hindi
1Lec 1: Overview of thermodynamic system & stateDownload
2Lec 2: First & second laws of thermodynamicsDownload
3Lec 3: Concept of entropy & entropy generationDownload
4Lec 4: Concept of exergy & exergy destructionDownload
5Lec 5: Thermodynamic potentials & Maxwell relationsDownload
6Lec 6: Generalized relations for entropy & specific heatsDownload
7Lec 7: Joule-Thomson coefficient & Clapeyron equationDownload
8Lec 8: Liquid-vapor phase-change processDownload
9Lec 9: Use of property tablesDownload
10Lec 10: Equations-of-state & Compressibility factorDownload
11Lec 11: Ideal cycles for reciprocating enginesDownload
12Lec 12: Otto, Diesel & Dual combustion cyclesDownload
13Lec 13: Stirling & Ericsson cyclesDownload
14Lec 14: Fuel-air cycleDownload
15Lec 15: Numerical exercise on Fuel-air cyclesDownload
16Lec 16: Losses in actual cycle & valve-timing diagramDownload
17Lec 17: Ideal Brayton cycleDownload
18Lec 18: Intercooling & reheating in Brayton cycleDownload
19Lec 19: Regeneration in Brayton cycleDownload
20Lec 20: Ideal Rankine cycleDownload
21Lec 21: Improvements & modifications in Rankine cycleDownload
22Lec 22: Regenerative Rankine cycleDownload
23Lec 23: Binary vapor power cycleDownload
24Lec 24: Combined gas-steam power plantDownload
25Lec 25: Different arrangments in combined cyclesDownload
26Lec 26: Vapor compression refrigeration cycleDownload
27Lec 27: SSS cycles & refrigerantsDownload
28Lec 28: Modifications in VCR systemsDownload
29Lec 29: Vapor absorption refrigeration cycleDownload
30Lec 30: P-v-T behavior of gas mixturesDownload
31Lec 31: Numerical examplesDownload
32Lec 32: Properties of moist airDownload
33Lec 33: Psychrometric chart & various psychrometric processesDownload
34Lec 34: Sensible heat factor & bypass factorDownload
35Lec 35: Theoretical & actual combustion processDownload
36Lec 36: Thermodynamic analyses of reacting systemsDownload
Sl.No Chapter Name Malayalam
1Lec 1: Overview of thermodynamic system & stateDownload
2Lec 2: First & second laws of thermodynamicsDownload
3Lec 3: Concept of entropy & entropy generationDownload
4Lec 4: Concept of exergy & exergy destructionDownload
5Lec 5: Thermodynamic potentials & Maxwell relationsDownload
6Lec 6: Generalized relations for entropy & specific heatsDownload
7Lec 7: Joule-Thomson coefficient & Clapeyron equationDownload
8Lec 8: Liquid-vapor phase-change processDownload
9Lec 9: Use of property tablesDownload
10Lec 10: Equations-of-state & Compressibility factorDownload
11Lec 11: Ideal cycles for reciprocating enginesDownload
12Lec 12: Otto, Diesel & Dual combustion cyclesDownload
13Lec 13: Stirling & Ericsson cyclesDownload
14Lec 14: Fuel-air cycleDownload
15Lec 15: Numerical exercise on Fuel-air cyclesDownload
16Lec 16: Losses in actual cycle & valve-timing diagramDownload
17Lec 17: Ideal Brayton cycleDownload
18Lec 18: Intercooling & reheating in Brayton cycleDownload
19Lec 19: Regeneration in Brayton cycleDownload
20Lec 20: Ideal Rankine cycleDownload
21Lec 21: Improvements & modifications in Rankine cycleDownload
22Lec 22: Regenerative Rankine cycleDownload
23Lec 23: Binary vapor power cycleDownload
24Lec 24: Combined gas-steam power plantDownload
25Lec 25: Different arrangments in combined cyclesDownload
26Lec 26: Vapor compression refrigeration cycleDownload
27Lec 27: SSS cycles & refrigerantsDownload
28Lec 28: Modifications in VCR systemsDownload
29Lec 29: Vapor absorption refrigeration cycleDownload
30Lec 30: P-v-T behavior of gas mixturesDownload
31Lec 31: Numerical examplesDownload
32Lec 32: Properties of moist airDownload
33Lec 33: Psychrometric chart & various psychrometric processesDownload
34Lec 34: Sensible heat factor & bypass factorDownload
35Lec 35: Theoretical & actual combustion processDownload
36Lec 36: Thermodynamic analyses of reacting systemsDownload
Sl.No Chapter Name Tamil
1Lec 1: Overview of thermodynamic system & stateDownload
2Lec 2: First & second laws of thermodynamicsDownload
3Lec 3: Concept of entropy & entropy generationDownload
4Lec 4: Concept of exergy & exergy destructionDownload
5Lec 5: Thermodynamic potentials & Maxwell relationsDownload
6Lec 6: Generalized relations for entropy & specific heatsDownload
7Lec 7: Joule-Thomson coefficient & Clapeyron equationDownload
8Lec 8: Liquid-vapor phase-change processDownload
9Lec 9: Use of property tablesDownload
10Lec 10: Equations-of-state & Compressibility factorDownload
11Lec 11: Ideal cycles for reciprocating enginesDownload
12Lec 12: Otto, Diesel & Dual combustion cyclesDownload
13Lec 13: Stirling & Ericsson cyclesDownload
14Lec 14: Fuel-air cycleDownload
15Lec 15: Numerical exercise on Fuel-air cyclesDownload
16Lec 16: Losses in actual cycle & valve-timing diagramDownload
17Lec 17: Ideal Brayton cycleDownload
18Lec 18: Intercooling & reheating in Brayton cycleDownload
19Lec 19: Regeneration in Brayton cycleDownload
20Lec 20: Ideal Rankine cycleDownload
21Lec 21: Improvements & modifications in Rankine cycleDownload
22Lec 22: Regenerative Rankine cycleDownload
23Lec 23: Binary vapor power cycleDownload
24Lec 24: Combined gas-steam power plantDownload
25Lec 25: Different arrangments in combined cyclesDownload
26Lec 26: Vapor compression refrigeration cycleDownload
27Lec 27: SSS cycles & refrigerantsDownload
28Lec 28: Modifications in VCR systemsDownload
29Lec 29: Vapor absorption refrigeration cycleDownload
30Lec 30: P-v-T behavior of gas mixturesDownload
31Lec 31: Numerical examplesDownload
32Lec 32: Properties of moist airDownload
33Lec 33: Psychrometric chart & various psychrometric processesDownload
34Lec 34: Sensible heat factor & bypass factorDownload
35Lec 35: Theoretical & actual combustion processDownload
36Lec 36: Thermodynamic analyses of reacting systemsDownload
Sl.No Chapter Name Telugu
1Lec 1: Overview of thermodynamic system & stateDownload
2Lec 2: First & second laws of thermodynamicsDownload
3Lec 3: Concept of entropy & entropy generationDownload
4Lec 4: Concept of exergy & exergy destructionDownload
5Lec 5: Thermodynamic potentials & Maxwell relationsDownload
6Lec 6: Generalized relations for entropy & specific heatsDownload
7Lec 7: Joule-Thomson coefficient & Clapeyron equationDownload
8Lec 8: Liquid-vapor phase-change processDownload
9Lec 9: Use of property tablesDownload
10Lec 10: Equations-of-state & Compressibility factorDownload
11Lec 11: Ideal cycles for reciprocating enginesDownload
12Lec 12: Otto, Diesel & Dual combustion cyclesDownload
13Lec 13: Stirling & Ericsson cyclesDownload
14Lec 14: Fuel-air cycleDownload
15Lec 15: Numerical exercise on Fuel-air cyclesDownload
16Lec 16: Losses in actual cycle & valve-timing diagramDownload
17Lec 17: Ideal Brayton cycleDownload
18Lec 18: Intercooling & reheating in Brayton cycleDownload
19Lec 19: Regeneration in Brayton cycleDownload
20Lec 20: Ideal Rankine cycleDownload
21Lec 21: Improvements & modifications in Rankine cycleDownload
22Lec 22: Regenerative Rankine cycleDownload
23Lec 23: Binary vapor power cycleDownload
24Lec 24: Combined gas-steam power plantNot Available
25Lec 25: Different arrangments in combined cyclesDownload
26Lec 26: Vapor compression refrigeration cycleDownload
27Lec 27: SSS cycles & refrigerantsDownload
28Lec 28: Modifications in VCR systemsDownload
29Lec 29: Vapor absorption refrigeration cycleDownload
30Lec 30: P-v-T behavior of gas mixturesDownload
31Lec 31: Numerical examplesDownload
32Lec 32: Properties of moist airDownload
33Lec 33: Psychrometric chart & various psychrometric processesDownload
34Lec 34: Sensible heat factor & bypass factorDownload
35Lec 35: Theoretical & actual combustion processDownload
36Lec 36: Thermodynamic analyses of reacting systemsDownload


Sl.No Language Book link
1EnglishDownload
2BengaliDownload
3GujaratiNot Available
4HindiDownload
5KannadaNot Available
6MalayalamDownload
7MarathiDownload
8TamilDownload
9TeluguDownload