LESSON PLAN OF ADVANCED THERMODYNAMICS II
NAME OF THE FACULTY: CH.BHANU SRI
Sessional Marks: 30
Max.Marks of University Exam: 70
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SL NO. |
TOPIC PLANNED |
TOPIC ACTUAL
COVERED |
HOLIDAY/OTHER
ACTIVITY |
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1. |
UNIT –I : I.C. Engines: classification |
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2. |
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3. |
comparison of two stroke and
four stroke engines |
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4. |
comparison of S.I. and C.I. engines, Otto Cycle |
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5. |
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6. | Diesel, Dual Cycles, comparison of Otto, Diesel and Dual cycles |
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7. |
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8. |
Stirling, Ericson and Atkinson cycles |
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9. | Valve timing and port timing
diagrams |
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10. | Efficiencies |
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11. | Testing and performances of I.C. engines |
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12. |
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13. | Basic principles of carburetion and fuel injection |
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14. |
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15. |
Numerical Problems |
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16. |
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17.
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CLASS TEST-I |
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18. |
UNIT – II Combustion in I.C. Engines: Introduction |
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19. |
S.I. engines- Normal combustion
and abnormal combustion |
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20. |
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21. |
Importance of flame speed
and effect of engine variables |
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22. |
types of abnormal combustion pre- ignition and knock |
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23. |
Fuel requirements and fuel
rating, anti-knock additions |
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24. |
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25. |
Combustion chamber requirements
and Types of combustion chamber |
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26. |
Design principles of combustion
chambers |
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27. |
C.I. engines- Stages of
combustion |
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28. |
Delay period and its importance |
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29. |
effect of engine variables,
diesel knock |
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30. |
suction compression and
combustion induced turbulence |
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31. |
open and divided combustion chambers |
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32. |
CLASS TEST-II |
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33. |
UNIT-III Reciprocating compressors: effect of clearance in compressors |
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34. |
volumetric efficiency-single
stage and multi stage compressors |
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35. | effect of inter cooling in
multi stage compressors |
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36. |
Vane type blower-centrifugal
compressor |
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37. |
Adiabatic efficiency- Diffuser Axial flow compressors- Velocity diagrams |
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38. |
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39. |
degree of reaction, performance
characteristics |
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40. |
Numerical Problems |
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41. |
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42. |
CLASS TEST-III |
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43. |
UNIT-IV Gas Turbines: Simple gas turbine
plant |
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44. |
Ideal cycle, closed cycle and
open cycle for gas turbines |
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45. |
Efficiency, work ratio and
optimum pressure ratio for simple gas turbine cycle |
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46. |
Parameters of performance |
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47. |
Actual cycle, regeneration |
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48. |
Inter-cooling and reheating |
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49. |
closed and semi-closed cycle |
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50. |
Jet propulsion and Rockets |
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51. |
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52. |
CLASS TEST-IV |
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53. |
UNIT-V Nuclear power plants:
Classification of reactors |
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54. |
Thermal utilization-Fuels |
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55. |
Fuel moderator and coolant |
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56. |
Control and safety rods |
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57. |
Special properties of structural
materials required |
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58. |
Induced radio-activity-Gas
cooled reactors |
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59. |
Radiation hazards and shielding |
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60. |
Radioactive waste disposal |
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61. |
UNIT-VI Direct Energy Conversions and non conventional energy sources: Solar Energy introduction |
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62. |
Solar radiation, collectors,
wind energy, wind mills, thermo electric and MHD |
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63. |
REVISION |
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Text
Book: 1. A Treatise on Heat Engineering
by Vasandhani and kumar.
2. Applied
Thermodynamics-II by R.Yadav.
References:
1. I.C Engines by V. Ganesan, Mathur
and Nehata.
2. Thermal Engineering
by R.K.Rajput.
3. Non- Conventional
Energy sources, G.D Rai.
4.
Power Plant Engineering by P.K.Nag.
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