|
Course outline |
|
|
18 February - 24 February |
Expected Learning Outcome |
|
|
1.1.Heat |
|
|
1.2.Modes of Heat transfer |
|
|
1.3.Types of heat involved in Refrigeration |
|
|
1.4.Specific heat |
|
|
1.5.Temperature |
|
|
1.6.Pressure and Volume |
|
|
1.7.Enthalpy and Entropy |
|
|
1.8.Thermodynamics and Thermodynamics Laws |
|
|
1.9.Thermodynamic cycles |
|
|
25 February - 3 March |
Expected Learning Outcome |
|
|
2.1.Introduction |
|
|
2.2.Refrigeration and Air conditioning |
|
|
2.3.Applications of refrigeration and Air-conditioning |
|
|
2.3.1.Classification of Refrigeration |
|
|
2.4.Principle of Refrigeration |
|
|
2.5.Vapour compression refrigeration system |
|
|
2.5.1.Principal parts of the system |
|
|
2.5.2.Advantages & Disadvantages |
|
|
2.6.Refrigeration effect and coefficient of performance |
|
|
2.7.Vapour absorption refrigeration system |
|
|
2.8.The function of an absorption refrigeration system |
|
|
2.9.Difference between vapour compression system and vapour absorption system |
|
|
4 March - 10 March |
Expected Learning Outcome |
|
|
3.1.Compressor |
|
|
3.1.1.Necessity of compressor in a vapour compression system |
|
|
3.1.2.Classification of compressor |
|
|
3.1.2.1.Reciprocating compressors |
|
|
3.1.2.1.1.Working principle of Reciprocating compressor |
|
|
3.1.2.1.2.Different parts of the Reciprocating compressor |
|
|
3.1.2.1.3.Important terms used in reciprocating compressor |
|
|
3.1.2.2. Rotary Compressors |
|
|
3.1.2.2.1.Single stationary blade type rotary compressor |
|
|
3.1.2.2.2.Rotating blade type rotary compressor |
|
|
3.1.2.3.Centrifugal Compressors |
|
|
3.1.2.3.1.Advantages and disadvantages of Centrifugal Compressors |
|
|
3.2.Evaporator |
|
|
3.2.1.Classification of evaporators |
|
|
3.2.1.1.Bare tube, Plate and Finned evaporator |
|
|
3.2.1.2.Flooded type evaporators |
|
|
3.2.1.3.Dry expansion type evaporator |
|
|
3.3.Condenser |
|
|
3.3.1.Working of condenser |
|
|
3.3.2.Factors Affecting the Condenser Capacity |
|
|
3.3.3.Types of the condenser |
|
|
3.3.3.1. Air-cooled condensers |
|
|
3.3.3.2. Water cooled condenser |
|
|
3.3.3.2.1.Tubes in tube or double tube condenser |
|
|
3.3.3.2.2.Shell and coil condenser |
|
|
3.3.3.3. Evaporative Condenser |
|
|
3.3.3.4.Comparison between Air cooled and water cooled condensers |
|
|
3.4.Expansion devices |
|
|
3.4.1.Hand operated expansion valve |
|
|
3.4.2.Automatic Expansion valve |
|
|
3.4.3.Thermostatic expansion valve |
|
|
3.4.4.Capillary Tube |
|
|
11 March - 17 March |
Expected Learning Outcome |
|
|
4.1.Refrigerants |
|
|
4.2.Classification of Refrigerants |
|
|
4.2.1.Primary refrigerants |
|
|
4.2.1.1.Halo carbon refrigerant |
|
|
4.2.1.2.In-organic Refrigerants |
|
|
4.2.2.Thermodynamic properties |
|
|
4.2.3.Chemical properties of refrigerants |
|
|
4.2.4.Physical properties of refrigerants |
|
|
4.2.5.Secondary refrigerant |
|
|
4.3.Insulation |
|
|
4.3.1.Properties of insulating materials |
|
|
4.3.2.Natural insulating materials |
|
|
4.4.Defrosting |
|
|
4.5.Non condensable gas |
|
|
18 March - 24 March |
Expected Learning Outcome |
|
|
5.1.Freezers |
|
|
5.2.Type of the Freezer |
|
|
5.2.1.Air blast freezer |
|
|
5.2.2.Plate freezer |
|
|
5.2.3.Horizontal plate freezers |
|
|
5.2.4.Vertical plate freezers |
|
|
5.2.5.Liquid nitrogen freezer |
|
|
25 March - 31 March |
Expected Learning Outcome |
|
|
6.1.Introduction |
|
|
6.2.Quality of water |
|
|
6.3.1.Ice-can |
|
|
6.3.2.Ice tank |
|
|
6.3.3.Brine |
|
|
6.4.1.Block ice |
|
|
6.4.2.Tube ice |
|
|
6.4.3.Flake ice |
|
|
6.4.4.Dry ice |
|
|
1 April - 7 April |
Expected Learning Outcome |
|
|
7.1.Introduction |
|
|
7.2.Sub-divisions of theory of machines |
|
|
7.3.Kinematic link or Element |
|
|
7.4.Power transmission Elements |
|
|
7.4.1.Shaft |
|
|
7.4.2.Belt drive |
|
|
7.4.2.1.Types of flat belt drives |
|
|
7.4.2.2.āVā belt drives |
|
|
7.4.2.3.Chain drive |
|
|
7.4.3.Gears |
|
|
8 April - 14 April |
Expected Learning Outcome |
|
|
8.1.Introduction |
|
|
8.2.Working of irradiation plant |
|
|
8.3.Advantages of radiation processing of food |
|
|
8.4.Cryogenic |
|
|
8.5.Liquid nitrogen freezer |
|
|
15 April - 21 April |
Expected Learning Outcome |
|
|
9.1.Cooling load and Refrigerating effect |
|
|
9.2.Unit of Refrigeration |
|
|
9.3.Coefficient of performance of a Refrigerator |
|
|
9.4.Calculating heat quantity |
|
|
9.5.1.Example - 1 |
|
|
9.5.2.Example - 2 |
|
|
9.5.3.Example - 3 |
|
|
9.5.4.Example - 4 |
|
|
9.5.5.Example - 5 |
|
|
9.5.6.Example - 6 |
|
|
22 April - 28 April |
Expected Learning Outcome |
|
|
10.1.Introduction |
|
|
10.2.Types of Maintenance |
|
|
10.2.1.Breakdown maintenance |
|
|
10.2.2.Preventive maintenance |
|
|
10.3.Functions of Plant Maintenance Group |
|
|
10.4.Mechanical maintenance standards for refrigeration plant |
|
|
29 April - 5 May |
1. REFRIGERATION AND EQUIPMENT PLANT LAYOUT |
|
|
2. STARTING OF REFRIGERATION PLANT |
|
|
3. NON CONDENSIBLE GAS PURGING |
|
|
4. OIL DRAINING SYSTEM |
|
|
5. GAS CHARGING SYSTEM |
|
|
6. DEFROSTING |
|
|
7. FOOT REFORMER MACHINE |
|
|
8. FOOT FLANGER MACHINE |
|
|
9. SEMI TRO-SEA CLOSING MACHINE |
|
|
10. HOME SEAMER |
|
|
11. VACUUM SEAMER |
|
|
12. AUTOMATIC VACUUM SEAMER |
|
|
13. AUDRIANGE SEAMER |
|
|
14. SEMI AUTOMATIC CORER AND SIZER |
|
|
15. SEMI AUTOMATIC SLICER |
|
|
16 (A) - MEAT PICKING MACHINE |
|
|
16 (B) - MINCING MACHINE |
|
|
17 (A) - SILENT CUTTER MACHINE |
|
|
17 (B) - STUFFER MACHINE |
|
|
18 (A) - RINGER MACHINE |
|
|
18 (B) - CONTINUOUS COOKER AND COOLING MACHINE |
|
|
6 May - 12 May |
Refferences |
|