1. BASIC MECHANICAL ENGINEERING
POWER PLANT ENGINEERING

2. POWER PLANT ENGINEERING

3. POWER PLANT
Power plant is a machine or assemblage of equipments that produces and delivers a flow of electrical energy

4. TYPES OF POWER PLANTS Steam or thermal power plant
Hydro electric or Hydel power plant
Nuclear power plant
Diesel power plant
Gas turbine power plant
Solar power plant
Wind power plant
Tidal power plant

5. BOILER

8. STEAM OR THERMAL POWER PLANT
Working fluid - Steam
Working Principle
H.E M.E E.E (or) E.P

9. WORKING
Steam is produced in the boiler and is used to drive a turbine which is coupled with a generator.
S.No
DEVICE
ENERGY CONVERSION 1.
BOILER
FUEL H.E 2.
TURBINE
H.E M.E 3.
GENERATOR
M.E E.E

10. BOILER TURBINE COUPLING GENERATOR

12. FOUR MAIN CIRCUITS COAL AND ASH CIRCUIT AIR AND FLUE GAS
FEED WATER AND STEAM CIRCUIT
COOLING WATER CIRCUIT

14. STEP - 1

15. STEP - 2

16. STEP - 3

18. HYDEL POWER PLANT
Working Principle
P.E M.E E.E (or) E.P

19. DAM
WATER PE
TURBINE
PE ME
GENTERATOR
ME EE

21. Hydro electric power plant

23. DIESEL POWER PLANT
DIESEL POWER PLANT PRODUCES THE POWER IN THE RANGE OF 2-5OMW.
THESE POWER PLANT ACTS AS STAND-BY POWER PLANT.
WIDELY USED IN RAILWAYS AND SHIPS
DIESEL POWER PLANTS ARE BECOMING MORE POPULAR BECAUSE OF DIFFICULTIES EXPERIENCED IN CONSTRUCTION OF NEW HYDEL AND THERMAL PLANTS

24. Lay out of power plant Diesel engine ( CI engine)
Starting system (air compressor)
Fuel supply system
Air intake system
Exhaust system
Cooling system ( 1500° – 2000° c)
Lubricating system

26. INTAKE AIR

27. FUEL INJECTION

28. COOLING SYSTEM

29. Diesel Power Plant

30. Working of Diesel Power plant
Air from atmosphere is drawn into the compressor and is compressed.
The compressed air is sent to diesel engine through filter.
In the filter, dust, dirt from air are filtered and only clean air is sent to diesel engine.
Fuel oil from tank is passed through filter where it gets filtered and clean oil is injected into the diesel engine through fuel pump and fuel injector
Mixture of compressed air and spray of fuel oil are ignited into the engine and combustion takes place.
The heat energy is utilized for driving the generator, which produces power.

31. Main components of a Diesel power plant
Fuel Supply system
It consists of fuel tank, fuel filter and fuel pump and injector.
Air Intake and Exhaust system
It consists of compressor, filter and pipes for the supply of air and pipes for exhaust gases. In the exhaust system silencer is provided to reduce the noise.
3. Cooling system
Circulates water around the Diesel engines to keep the temp at reasonably low level.
4. Lubricating system
It includes lubricating oil tank, pump, filters and lubricating oil.
Starting system
For initial starting the devices used are compressed air, battery, electric motor or self-starter.

32. NUCLEAR FISSION
Reactor (uranium) M.E E.E

33. NUCLEAR POWER PLANT
Process of nuclear power plant is same as that of steam power plant, but instead of coal we are using uranium.
Uranium produces as much energy as can be produced by burning 4500 tones of high grade coal.
TYPES OF REACTOR
Pressurized water reactor
Boiling water reactor

34. NUCLEAR FISSION 2.5 fast moving neutrons with a velocity of 1.5x107m/s
Producing a large amount of energy nearly 200 million electron-volts
A chain reaction produces enormous amount of heat, which is used to produce steam.
The chain reaction under uncontrolled conditions can release extremely large amounts of energy causing atomic explosion

37. nuclear power plant

39. Gas turbine
#Air compressor #combustion chamber #turbine

40. TURBINE

41. GAS TURBINE POWER PLANT
ELEMENTS OF GAS TURBINE POWER PLANT
STARTING MOTOR
LOW PRESSURE COMPRESSOR(LPC)
INTERCOOLER
HIGH PRESSURE COMPRESSOR(HPC)
REGENERATOR (HEAT EXCHANGER)
COMBUSTION CHAMBER(CC)
HIGH PRESSURE TURBINE(HPT)
LOW PRESSURE TURBINE(LPT)

42. Classification of gas turbine
Open cycle gas turbine ( once through system)
Closed cycle gas turbine

43. Open cycle gas turbine

44. Open cycle gas turbine

45. Closed cycle gas turbine

46. Gas Power Plant
A gas power plant uses gas turbine as the prime mover for generating electricity.
It uses natural gas or kerosene or benzene as fuel.
Gas plant can produce only limited amount of the electricity.
Efficiency of the plant is only 35%
Generally a gas plant is expensive to operate.
Hence it is usually installed with steam power plant in closed combined cycle.
It is generally used in combination with steam/thermal power plant during peak load
When the gas power plant is combined with thermal/steam power plant efficiency of the plant is up to 60% - 70%

47. Layout of the Gas turbine Power plant (combined cycle)

48. Gas Power Plant – Working Principle
Combustion and generation of electricity:
Gas turbine draws clean air into through air filter from atmosphere, with the help of a compressor.
During the compression pressure of the air is increased.
Compressed air is passed through to a combustion chamber along with fuel (Natural gas).
The air fuel mixture is ignited at high pressure in the combustion chamber and Combustion takes place.
The generated hot gas of compression is passed through the gas turbine.
Hot gases expand, and the turbine blades are connected to the turbine shaft are rotated.
The turbine shaft which is coupled to the shaft of the electrical generator at the other end also rotates and drives the electrical generator.
A portion of the energy developed by the hot gases through the gas turbine is used to run the compressor.

49. Gas Power Plant – Working Principle
The residual hot gases from gas turbine are passed through a heat exchanger (heat recovery steam generator)
The heat exchanger produces steam with high pressure with the help of a steam boiler.
The steam is allowed to expand in the steam turbine.
when it passes through the turbine blades, the turbine shaft is rotated. The shaft is coupled to the generator, which generates electricity.
Gas turbine and steam turbine combination enables increased power generation.

50. Gas Power Plant – Working Principle
Transmission and distribution :
The generated electricity from both gas and steam turbines is fed to the step up transformer where its voltage is increased.
Then the electricity is conveyed through transmission lines for distribution.

51. Gas Turbine - Merits MERITS: Natural gas is readily available.
Setting up cost can be reduced if the plant is installed near the source of natural gas.
Less gas storage cost
Less space occupation.
Compared to steam power plant, smaller in size.
Low operating cost.
Low maintenance cost.
No standby losses.
Cheaper fuels like natural gas.

52. Gas Turbine Plant – De merits
2/3 rd of generated power is used for driving the compressor.
Gas turbine has low thermal efficiency.
Has starting problem.
Efficient only in combined cycle configuration.
Temperature of combustion chamber is too high, which results in shorter life time.

56. PUMP

57. TYPES OF CASING VOLUTE CASING VORTEX CASING
VOLUTE CASING WITH GUIDE BLADES

58. ESSENTIAL PURPOSE OF CASING
TO GUIDE WATER TO AND FROM THE IMPELLER
TO PARTIALLY CONVERT THE K.E INTO P.E

60. ………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………………

61. VOLUTE CASING

62. RECIPROCATING PUMP

63. CENTRIFUGAL PUMP

64. RECIPROCATING PUMP

65. ACTING PUMP DOUBLE

66. TURBINE

68. Impulse Turbine

69. Reaction Turbine

72. WORKING OF 4-STROKE DIESEL ENGINE

73. ANIMATED ENGINE