1. KHUSHI RAM BHARDWAJ D.A.V.I.E.T(JALANDHAR) JUNE 2011 KAPSONS INDUSTRIES LTD.

2. Established in 1981 ESTABLISHED AS KRISHNA LAMINATIONS PRIVATE LTD. JALANDHAR

3. KAPSONS TODAY KAPSONS INDUSTRIES TODAY SPREADING IN 4 MAJOR PLANTS IN JALANDHAR AND PUNE.

4. Quality ISO 16949:2000, ISO 14001:1996, is/ISO 9001:2000, ISO 9001-2000 certified.

5. Infrastructure Covered Area-:: Unit I 62,568 Sq. Ft. Unit-II & III 72732 Sq. Ft. Unit IV 85000 Sq Ft(pune)

7. Annual turnover 2007 rs. 350 crore 2008 rs. 395 crore 2009 rs. 432 crore 2010 rs. 500 crore

8. Equipment List Presses (1) Gauging Machine (2) Sorting Machine (3) Lapping Machine (4) Roll Forming Machine (5) Steel Ball Plant (5) Wire Forming Machine (6) Double Disk Grinding Machine (7) Blade Grinding Machine (8) Rough Grinding Machine (9) Surface Grinding Machine

9. Gauging & Sorting Machine

10. Lapping Machine

11. Rolling machine

12. Products and services

13. Clientele M/S. Asea Brown Boveri Ltd. Faridabad. M/S. Bharat Bijlee Ltd. , Thane. M/S. Alstom Ltd. (AEI Works), Calcutta. M/S. Crompton Greaves Ltd M/S. Alstom Ltd. (Paharpur Works), Calcutta.

14. GENERATORS MAINTENANCE

15. Typical Generator Maintenance

17. Generators

19. System controls

33. REASONS WHY GENERATORS FAIL FOREIGN OBJECT DAMAGE Problem: Objects can come from external sources or failure of internal components, they can pick up energy from the spinning rotor and do extensive damage Prevention: Inspect on a regular basis all internal parts that are prone to failure or can be dislodged. Inspection tests can be a combination of visual inspection along with ultrasonic or magnetic particle tests on rotating components

34. STATOR WINDING VIBRATION Problem: Primarily a design related problem that affects large (>300Mw) generators which have insufficient end winding bracing to limit the movement of end turns. Prevention: Proper bracing of the end winding is required to limit motion caused by steady state and transient electromagnetic forces.

35. ROTOR WINDING DISTORTION Problem: Rotor winding distortion caused by poor end turn blocking support design or by foreshortening of the rotor coils. Foreshortening is caused by thermal forces which compress rotor coils. Prevention: Proper design of rotor coils and bracing to support the coils under axial load is essential. Rotors should be tested for turn to turn shorts at operating speed.

36. STATOR WINDING VIBRATION Problem: Primarily a design related problem that affects large (>300Mw) generators which have insufficient end winding bracing to limit the movement of end turns. Prevention: Proper bracing of the end winding is required to limit motion caused by steady state and transient electromagnetic forces.

37. OVERHEATING Problem: Overheating of the rotor or stator can lead to insulation failure, shorting of turns and ground faults. Overheating can result from blocked ventilation passages caused by shifting insulation components or slot wedges. Prevention: Inspect on a regular basis to ensure all rotor wedges are "locked" in place preventing migration and thus blocking of cooling passages.

38. CONTAMINATION Problem: For air cooled machines, dirt and dust cause tracking which can lead to electrical ground faults. Prevention: Inspect air filterson a regular basis , the filters must be checked and cleaned regularly. Polarization index (PI) tests give a good indication of overall cleanliness of the rotor winding.

39. ROTOR VIBRATION Problem: There are many causes, turn-to-turn shorts, rotor coil foreshortening, electrical grounds, mechanical imbalances, overheating, etc. Prevention: Comprehensive vibration measuring is effective combined with a regular maintenance program.

40. STATOR WEDGE LOOSENESS Problem: When stator wedges become loose, coils can vibrate causing insulation wear leading to ground faults or turn-to-turn shorts. Prevention: Inspect on a regular basis tightness of wedge blocks.

41. STATOR CORE DAMAGE Problem: Stator core looseness can occur over time as pre-tensioned through bolts relax. A loose core results in insulation wear to coils and laminations resulting in hot spots and core-to-coil failures. Prevention: Inspect bolt tightness on a regular basis.

42. GENERATOR MAINTENANCE The following tests which should be carried out annually in addition to vendor recommended maintenance.

43. A) INITIAL GENERATOR TEST • “Megger” rotor winding • “Megger” exciter armature winding • “Megger” exciter field winding • Complete polarization index (pi) on main stator • Check bearing insulation

44. B) INSPECTION ON STATIC EXCITER • Remove exciter end cover • Examine condition of diode carrier • Examine exciter armature/stator for contamination • Examine exciter armature/stator for winding wear • Check pmg magnets for contamination

45. C) ELECTRICAL CONTROL/PROTECTION PANEL • Visually inspect external surfaces of panel • Complete insulation resistance checks of panel wiring • Check function of all relays • Check all fuses • Check all lamps • Check operation of all switches • Check operation of panel heaters • Run generator; recalibrate avr • Secondary inject all protective relays

46. E) ROTOR EARTH FAULT PROTECTOR • Carry out static checks to confirm operation of detector • Carry out functional check to confirm operation of detector

47. F) SLIP-RINGS AND BRUSH-GEAR (IF FITTED) • Check all brushes for grade and length • Check condition of brush holders/mountings • Check that spring tensions are correct • Check conditions of slip-rings • Check mechanical run-out of slip-rings • Check cooler and leakage alarms