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UNIVERSIT DEGLI STUDI DI ROM
“L S PIENZ
”
Analysis of the Indian Maintenance center for WAG-9 Electric
Locomotives and improve for new railways service
THESIS
Submitted for the degree of Master in Transport System Engineering
For the Faculty of Civil and Industrial Engineering
Index
ELECTRIC LOCOMOTIVE SHED WAG-9 KAZIPET
1. Introduction.
2. Block Diagram of Electric Locomotive WAG-9.
3. Components of Electric Locomotive WAG-9.
4. Electric Power Supply to WAG-9.
5. Kazipet Electric Loco Shed.
5.1 General Layout.
5.2 Movements to reach Kazipet Junction.
6. Indian Railway Network Map.
6.1. Around Kazipet Junction.
7. Organisation of Kazipet loco shed.
8. Activities of the Kazipet loco shed.
8.1. Unique features of Kazipet loco shed.
9. Hypothesis of a new Indian Railway Service.
9.1. Khammam to Kazipet to Hyderabad.
9.2. Graph of Speed vs Distance space, Speed vs Time, Distance vs Time.
9.3. Maintenance Program of the Locomotives.
10. Electric Loco Shed Kazipet Maintenance.
11. Suggestions to people.
2
12. Conclusion.
13. Acknowledgement.
14. Reference.
3
INDIAN RAILWAY ELECTRIC LOCOMOTIVE WAG-9 KAZIPET
In Indian railway electric locomotive WAG-9 was the new version of the electric
locomotive and it located in view states. Kazipet junction railway station is located
in Warangal Urban district of Telangana It is an important railway junction
connecting north and south India. We have Electric Locomotive WAG-9 in kazipet
Loco Shed.
Figure-1 Indian railway electric locomotive WAG-9 kazipet
Figure-1 Indian railway electric locomotive WAG-9 the picture was taken from
inside the electric locomotive shed Kazipet.
4
1. Introduction
This locomotive is referred to as the "Heavy Haul" freight locomotive of the Indian
Railways (IR).
This locomotive was conceived owing to the extreme growth in the rail freight
transportation sector.
The growth in this sector is considered to be of great importance in the growth of
the economy of India.
This need had arisen the need for more electrification and electric locomotives in
India. Around 60-65% of the freight haulage of IR takes place on the electrified
section of the Golden Quadrilateral (Indian Railways) & diagonals (which account
for 25% of the route).
These routes are very busy routes, so clearance is a necessity. This power Give it a
great sectional clearance Ability. Thus these locomotives are important for the
Indian Railways.
2. Block Diagram of Electric Locomotive WAG-9
The block diagram was showing every part located in electric locomotive WAG-9.
The parts names and Description are show in below the block diagram (figure 2).
5
Figure-2-Block Diagram of modern AC Electric Locomotive
In this figure-2 the parts are named and clearly indicates by the arrow marks of
block diagram modern AC electric locomotive. There are:
¾ Main Transformer.
¾ Auxiliary Inverter.
¾ Auxiliary Rectifier.
¾ Axle brush.
¾ 3-phase AC motor (total 4 motors).
¾ Motor blowers.
¾ Compressor.
¾ Cooling fans.
¾ Main rectifier.
¾ Circuit breaker.
¾ Pantograph.
¾ Main inverter.
6
¾ Main transformer
A transformer is a static electrical device that transfers electrical energy
between two or more circuits. A varying current in one coil of the
transformer.
¾ Auxiliary inverter
The Auxiliary Power Converter supplies the auxiliary AC-power needs of the
diesel-electric locomotive.
It charges also the batteries. The unit is installed inside the locomotive. The
unit enables use of maintenance free AC-motors for the auxiliary drives.
¾ Auxiliary rectifier
Power from the motor comes from the on-board electrical supply or,
sometimes, directly from the traction supply.
On electric locomotives, the supply can come from the transformer, via
a rectifier and on a diesel locomotive, from the auxiliary alternator.
¾ Axis brush
A brush or carbon brush is a device which conducts current between
stationary wires and moving parts, most commonly in a rotating shaft.
Typical applications include electric motors, alternators and electric
generators.
¾
3-phase AC motors
A traction motor is an electric motor used for propulsion of a vehicle, such
as an electric locomotive.
An AC induction motor only generates useful amounts of power over
usually, the traction motor is three-point suspended between the bogie, Air
cooling, Electric vehicle battery. Induction motor & Three-phase AC.
¾ Motor blowers
An electric locomotive consists of various equipment.
Traction motor cooling blower and its motor is one of the important
auxiliary machine.
There are two traction motor cooling blowers fitted in a locomotive. Each
for cooling of one group of three traction motors.
¾ Compressor
The compressor itself consists of a pump driven by an electric motor.
7
¾ Cooling fans
Locomotive radiators keep engines cool. The radiator system is intended to
keep the engine operating at nearly the same temperature, regardless of
the ambient air outside the locomotive.
¾ Main rectifier
Rectifier, A converter consisting of thyristors and diodes which is used to
convert AC to DC. A modern locomotive will usually have at least two, a
"Main Rectifier" for the power circuits and one or more for the auxiliary
circuits. Relay a remotely controlled switch which uses a low voltage
control circuit.
¾ Circuit breaker
An electric train is almost always provided with some sort of circuit
breaker to isolate the power supply when there is a fault, or for
maintenance. On AC systems they are usually on the roof
near the pantograph. There are two types - the air blast circuit
breaker and the vacuum circuit breaker or VCB.
¾ Pantograph
A pantograph is an apparatus mounted on the roof of an electric train, tram
or electric bus to collect power through contact with an overhead line. It
is a common type of current collector. Typically, a single or double
wire is used, with the return current running through the track.
¾ Main inverter
An electric locomotive is a locomotive powered by electricity from
overhead lines, a third rail or on-board energy storage such as a battery or
a super capacitor. Newer electric locomotives use AC motor-inverter drive
systems that provide for regenerative braking.
8
3. Components of Electric Locomotive WAG-9
In this Table-1,we are showing electric locomotive WAG-9 components and
weight as well as units, volume, electric components and mechanical components
are clearly mention below.
The components are taken and the weights are calculated, units are taken,
Volume are approximately And also electric and mechanical components are
taken, the values are calculated accurately and the Volume are approximately.
Components
Weight
Numbers
Total
Volume
Electrical
Mechanical
weight
[t]
(Approx.)
[t]
[m3]
Traction
2.3
6
13.8
0.9
yes
motor
Yes
Transformer
10.4
1
10.4
3.7
yes
Pantograph
0.8
1
0.8
1.5
yes
Sandboxes
0.05
1
0.05
0.4
Yes
Auxiliary
0.1
1
0.1
1
reservoir
Yes
Main
0.3
1
0.3
1.1
reservoir
Yes
Filter cubicle
0.4
1
0.4
1.2
Yes
Oil cooling
1.0
1
1.0
1
unit
9
Scavenge
0.04
1
0.04
0.5
yes
blower to
yes
machine
room blower
Cubicle
0.2
1
0.2
0.4
yes
auxiliary
circuits 1
Cubicle
0.11
1
0.11
0.6
yes
auxiliary
circuits 2
Cubicle
0.17
1
0.17
0.7
yes
control
circuits 1
Cubicle
0.18
1
0.18
yes
control 2
Central
0.03
1
0.03
0.3
yes
electronics 1
Central
0.03
1
0.03
yes
Electronics 2
2 HCBO-605-
0.4
1
0.4
0.5
yes
115 type
Yes
Traction
Motor
Blowers by
Flakt and ABB
10
2 2A3200
0.6
1
0.6
0.4
yes
C13-T32 type
Yes
Main
Compressors
by D&M
2 HCBO-415-
0.1
1
0.1
yes
60 type
Yes
Machine
Room
Blowers by
Flakt and ABB
FF 3145 type
0.05
1
0.05
0.4
yes
Auxiliary
Yes
Compressor
by D&M and
Bristol
Scavenge
0.04
1
0.04
0.3
yes
blower to
Yes
traction
motor blower
General
49
1
49
5
coach
Wheels
1
8
8
0.5
yes
Total
87.8
Table-1 Components of electric locomotive WAG-9
11
From Table-1, this all are the components, weight, units, volume and electric &
mechanical components, and the total electric locomotive WAG-9 weight was 88t.
From table-1, we are taking the graph of weight are shown below
50
t
45
40
35
30
25
20
15
10
5
Traction motor
General coach
Auxiliary reservoir
Cubicle auxiliary circuit 2
Transformer
Main reservoir
Auxiliary
Cubicle control circuit 1
compressor by
Pantograph
Filter cubicle
D&M and bristol
Cubicle control circuit 2
Sandboxes
Central electronic 1
Traction motor
Oil cooling unit
blower
Machine room blower
Central electronic 2
wheels
Cubicle auxiliary circuit 1
Motor blowers ABB
Graph-1 Weight
Main compressors by
D&M
12
Machine room blowers by
flakt and ABB
In this graph-1, we shown all components weight from this components the
higher weight general coach, and the lower weight are central electronic 1,
central electronic 2.
From table-1, we are taking the graph of volume shown below.
5.0
m3
4.5
4.0
3.5
3.0
2.5
2.0
1.5
1.0
Graph-2 volume
Transformer
General coach
Pantograph
Central electronic
1&2
From graph-2, we are notes that the volume was higher in general coach, and the
least are in central electronic 1&2, as well as this volume are taken from the
table-1.
13
Then, from table-1 we are taken the graph of weight and volume, now we are
taking the graph of the weight vs volume are shown in the below.
Weight vs Volume
60
t
50
40
30
20
10
0
m3
0
5
10
15
20
25
Graph-3 weight vs volume
From graph -3, we are showing the weight vs volume accurately located in the
graph-3.
From this graph-3 the higher tons are the general coach.
14
4. Electric Power Supply to WAG-9
In this Table-2, we are showing the electric power supply to WAG-9, the electric
power produce to the components and as well as the units are mention below the
table-2.
Electric locomotive WAG 9 power
Supply
Components
Power
Units
produce
Traction motor
850
kW
Transformer
1000
Voltage
2 power drives
2800
Voltage
Transformer oil
Pump motor
415
Voltage
Main compressor
motor
415
Voltage
Auxiliary
converter by ABB
415
Voltage
Blower motor
415
Voltage
Heater capacity
2.2
kW
Table-2 Electric Power Supply to WAG-9
15
From Table-2, the electric power supply are shown. In that, traction motor was
consume higher kW and the lower power consume by the main compressor,
Auxiliary converter, blower motor, transformer oil pump motor.
From table-2, we are taking the graph-4, electric locomotive WAG-9 voltage.
V
voltage
3000
2500
2000
1500
voltage
1000
500
0
1
2
3
4
5
6
7
8
9
10
11
Gragh-4 voltage
From graph-4, we are observed the power was consume very higher in
transformer motor and heater capacity in kW and the lower power consume in
transformer oil pump motor, main compressor motor, blower motor, auxiliary
converter by ABB.
16
5. Kazipet Electric Loco Shed.
From Kazipet electric loco shed, we have taken some pictures by the cam. The
Side view of the electric loco shed of Kazipet and as well as front view of shed and
the inside view of electric loco shed Kazipet picture are shown below(Figure-3,
Figure-4, Figure-5).
Figure-3, The side view of the Kazipet electric loco shed.
Figure-4, The entry gate of the Kazipet electric loco shed.
Figure-5, Inside view of electric loco shed Kazipet, and we can see how there are
repair the locos.
Figure-3 The side view of the Kazipet electric loco shed
17
Figure-4&5
Figure-4, The entry gate of the Kazipet electric loco shed.
Figure-5, Inside view of electric loco shed Kazipet, and we can see how there are
repair the locos.
18
5.1. General Layout
Therefore, The planning layout of electric loco shed Kazipet and in this layout the
total view of the electric loco shed in a manner wise shown in the below figure-6.
Figure-6 General Layout
From figure-6,we are showing total view of the electric loco shed and the process
was when the train was repair its goes from entry track then to railway track then
19
to railway repair then to railway welding, railway washing, then after the loco was
exist from the electric loco shed kazipet.
Therefore, in this view we are showing the entry gate and security hall, and then
after main entry of public and staff department. In this we clearly shown the plan
details in figure-6.
5.2 Movements to reach Kazipet Junction.
We are showing the layout of movement to reach Kazipet junction plan from
figure-7.
From figure-6,we shows only the plan view of the electric loco shed, and in figure-
7, It was connected to the electric loco shed Kazipet to movement to reach
Kazipet junction, we shown very clearly by indicates arrow marks, while entry to
the electric loco shed Kazipet and exit to the Kazipet junction. we already talk
about the figure-6.
The process was in the figure-7, but we are showing the movement to entry the
electric loco shed and to the exit to the Kazipet junction in plan are shown below.
From figure-7, any problem to the electric locomotive it was entry to the electric
loco shed by the entring to the Kazipet junction then after we have the entry track
of the electric loco shed then the same process we already talk in figure-6.
Therefore, this all are about the process of the figure-7.
20
Figure-7 Movement to reach Kazipet Junction Layout
21
And we are showing the figure-8, same from the figure-7 but we drawn in the
white chart with black pencil. And we are showing below.
Figure-8 drawn in the white chart with black pencil
22
6. Indian Railway Network Map
Therefore, From railway routes of Indian map we have the indicates by the colour
lines in the figure-9, There are:
¾ Important broad gauge line.
¾ Other broad gauge line.
¾ Meter gauge.
¾ Narrow gauge line.
¾ Under gauge conversion.
¾ Under process.
¾ Major Railway junction.
¾ Other stations.
Therefore, Indian we have 29 states and im showing the total railway network
system in Indian map below.
India railway zonal map, we have 17 zones of Indian railways and major railway
junction.
Indian Railways has been divided into 17 zones and 69 divisions.
Indian Railways is one of the world's largest railway networks comprising 115,000
km of track length over a route of 67,312 km. That means, if the tracks
of Indian railways were to be laid out, they would circle the earth almost 1.5
times.
23
Figure-9 Indian Railway Network Map
24
6.1. Around Kazipet Junction
The Kazipet Junction Around the railway networks routes are taken from the
google maps. And we are showing the railway network routes around the Kazipet
junction and it the south Indian junction part are shown below figure-10.
Figure-10 Railway Network Around Kazipet Junction
25
7. Organisation of Kazipet
From organisation of Kazipet we are showing the main department of electric
locomotive shed of engineers from Telangana government are in figure-11.
Figure-11 Organisation of kazipet
¾ Sr.DEE/TRS-Senior director of electrical engineer
¾ ADEE/TRS-Additional director of electrical engineer
¾ DEE/TRS-Director of electrical engineer
¾ AMM-Additional manager of machinery
And as well as total maintenances strength, Supervisors, Skilled, Un-Skilled,
Ministerial staff, Available man power of loco, Indian railway average are shown
in the below table-3.
Total maintenance staff strength
411+33*
Supervisors
46+4*
Skilled
254+24*
Un-skilled
111+5*
Ministerial Staff
9
Available man power per loco
2.56
Indian railway man power per loco
3.6
average
Table-3-Total staff of Kazipet loco shed
26
8. Activities of the Kazipet shed
The activities of the Kazipet shed are listed below.
¾ Minor schedules IA, IB, IC
¾ Major schedules AOH & IOH
¾ Trip schedules & yard attentions of foreign locos
¾ Tower car AOH schedules
¾ Un schedule repairs of all locos and
¾ Night stabling Inspection of two MEMU rakes.
Description of work
Minor schedules IA,IB,IC:
1. Clean the antenna mounted on the roof top and verify the antenna
connectors.
2. Check the tightness of all the connectors of CCU, DIU, BIU units on
BD Panel.
CCU-Control and communication unit
DIU-Driver interface unit
BIU-Brake interface unit
3. Check all the pneumatic connections for leakages and conditions of
pressure sensors.
4. Check the tightness of notch encoder fitted on the SMGR manual
driver inside the machine room (applicable to conventional loco
only).
5. Check the touch functionality of the DIU and calibrate if required.
6. Verify the emergency switch functionality from both DIU.
7. Update the wheel diameter of loco in software DPWCS.(Distributed
power wireless control system).
8. Downloading of logged data and clearing of memory.
27
9. Check the grouping and various working modes of lead/remote loco
(if available in shed).
Major schedules AOH & IOH:
From the minor schedules the process was same and the remaining process of
major schedules AOH & IOH are show in below:
1. Visual inspection of PCBs for its healthiness and suitable cleaning
with brushes and do conformal coating.
2. Check the battery of (Control Process Unit) CPU cards/Radio and
replace if required.
3. Cleaning of air filters of BIU, heat sinks of all modules.
4. Replacement of panel gaskets in IOH schedules.
5. Replace all the churning fans of DPWCS during IOH.
6. Check continuity IR values for all the data/electrical cables.
7. Do calibration test electronic pneumatic value of BIU.
8. Do calibration sensors.
Trip schedules & yard attentions of foreign locos
In this trip schedules & yard attentions of foreign locos are same of minor and
major schedules we explain about the paragraph.
Therefore, The main activities of the electric loco shed was the minor and the
major schedules are work in the Kazipet shed.
8.1. Unique features of Kazipet loco shed.
¾ This shed is holding unique 160 WAG-7 type locomotives which is
considered as work horse of Indian Railways.
¾ Have lowest man power ratio 2.56 Men/Loco compared to all full-
fledged working Electric Loco sheds over Indian railways.
28
9. Hypothesis of a new Indian Railway Service.
From this hypothesis we are calculating the distance from Khammam to Hyderbad
with electric locomotive WAG-9.and we are showing the example process below.
9.1. Khammam to Kazipet to Hyderabad.
Calculation of distances
¾ From Khammam to Kazipet =160Km
¾ From Kazipet to Hyderabad=140Km
(Hyderabad)
(140Km)
(Khammam)
(160Km)
(Kazipet)
29
Figure-12 distance between Khammam to Hyderabad map
¾ From Khammam to Kazipet =160Km
By the electric locomotive WAG-9
WAG-9 Power=2500kW
Mass loco
=90t
Mass car
=40t
Hypothesis of the traction characteristics before constant traction after constant
power.
Formulae
(T-Traction,V-Speed,P-Power)
T*V=P
T=Power/Speed
30
Speed[km/h]
Traction[kN]
0
178
50
178
80
112
100
89
120
76
150
59
Table-4
Therefore,
Total Mass =90+40(16)=730T
Total Weight=Total Mass*Gravity
=730*9.8=7154KN
RESISTANCE(R)
R=3N/KN=3(7154)=21462=21.5KN
Formulae
T-R=M*a
(T=Traction,R=Resistance,M=Total Mass,a=Acceleration)
a=T-R/M=178-21.5/730(1+0.08)=0.23m/s2
a=0.23m/s2
31
Speed[km/h]
Distance[m]
0-50
426
50-80
13000
80-80
146081
80-0
493
Table-5
From table-6, we are taken the values below.
V1
V2
∆V
T
R
a
d
Total
t
Total
distance
time
Units
[Km/h]
[Km/h]
[Km/h]
[KN]
[KN]
[m/s2]
[m]
[m]
[s]
[s]
Part
0
50
50
178
21.5
0.23
426
426
61
61
1
Part
50
80
30
145
21.5
0.15
13000
13426
55
116
2
Part
80
80
146081
159507
6691
6807
3
Part
80
0
80
0.5
493
160000
44
6851
4
Table-6
32
¾ From Kazipet to Hyderabad=140Km
From table-7, we are taken the values below.
V1
V2
∆V
T
R
a
D
Total
t
Total
distanc
Time
e
Units
[Km/h]
[Km/h]
[Km/h]
[KN]
[KN]
[m/s2
[m]
[m]
[s]
[s]
]
Part
0
50
50
178
21.5
0.23
426
426
61
61
1
Part
50
80
30
145
21.5
0.15
13000
13426
55
116
2
Part
80
80
126081
139507
5678
5794
3
Part
80
0
80
0.5
493
140000
38
5832
4
Table-7
33
From Khammam to Kazipet the Graph are taken below from table 4.
9.2. Traction vs Speed
The Traction of Locomotive vs Speed graph 5.
KN
180
160
140
120
100
traction vs speed
80
60
40
20
0
Km/h
0
50
100
150
200
Speed vs Distance
The Speed of locomotive and the Distance graph 6.
Km/h
80
70
60
50
speed vs distance
40
30
20
10
0
m
0
50000
100000
150000
200000
34
Speed vs Time
The Speed of Locomotive vs Time graph 7.
Km/h
9
80
70
60
50
v
40
speed vs time
30
20
10
0
s
0
2000
4000
6000
8000
Distance vs Time
The Distance of locomotive vs time graph 8.
180000
m
160000
140000
120000
100000
distance vs time
80000
60000
40000
20000
0
s
0
2000
4000
6000
8000
35
From Kazipet to Hyderabad the Graph are taken below from Table 5.
Traction vs Speed
The Traction of locomotive vs Speed graph 9.
200
KN
180
160
140
120
100
traction vs speed
80
60
40
20
0
0
50
100
150
200
s
Speed vs Distance
The Speed of locomotive vs distance graph 10.
speed vs distance
Km/h
90
80
70
60
50
40
speed vs distance
30
20
10
0
m
0
50000
100000
150000
36
Speed vs Time
The Speed of locomotive vs time graph 11.
Speed vs time
Km/h
90
80
70
60
50
40
Speed vs time
30
20
10
0
s
0
2000
4000
6000
8000
Distance vs Time
The distance of locomotive vs time graph 12.
distance vs Time
m
160000
140000
120000
100000
80000
distance vs Time
60000
40000
20000
0
s
0
2000
4000
6000
8000
37
From {Khammam to Kazipet to Hyderabad} And From{ Hyderabad to
Kazipet to Khammam} The Graph are taken below from Table 6 &
Table 7.
Distance vs Time
The total distance vs total time graph 13.
m
distance vs time
350000
300000
250000
200000
distance vs time
150000
100000
50000
s
0
0
10000
20000
30000
40000
TABLE -8
Name of junction
Distances (M)
Time(s)
Time(m)
Khammam-------Kazipet
160000
6851
114
Kazipet Stop
900
15
Kazipet--------Hyderabad
140000
5832
97
Hyderabad Stop
3600
60
Hyderabad-------Kazipet
140000
5832
97
Kazipet Stop
900
15
Kazipet--------Khammam
160000
6851
114
Khammam Stop
3600
60
TOTAL
3000000
34366
572
Table-8
38
From table-8, we are showing the name of junction and distances as well as time.
∆T=120Min=7200Sec
Number of LOCO =Total Time/∆T
=34366/7200
=5 LOCO.
Calculation of LOCO (Distance vs Time) Graph 14.
350000
m
300000
250000
Distance vs Time
Loco 1
200000
Distance vs Time
Loco 2
Distance vs Time
150000
Loco 3
Distance vs Time
Loco 4
100000
Distance vs Time
Loco 5
50000
0
s
0
20000
40000
60000
80000
Graph-14
From graph-14, we are showing the each loco distance and time from Khammam
to Hyderabad.
39
Maintenance Service Level-1 Graph 15.
In this maintenance service we have the five loco service in Kazipet junction and
we are showing the each loco travel time and maintenance service by three days
in the below graph 15.
Graph-15 Maintenance Service level-1.
40
From graph 15, The loco-1 start from the 6am to 24pm (day-1) and the
maintenance service are from 24pm to 6am of day-1, And the same process for
the day-2 and day-3 loco.
But the each loco time differents of 2hrs, time to start the loco from the starting
point. And we have indicates the travel time and the maintenance service in
colour boxes to appear clearly.
9.3. Maintenance Program of the locomotive
In this maintenance program of the locomotive was showing the traveling time
was calculated accurately and we showing below table-9.
Level
From
When (Kazipet)
Where
(Khammam)
(Hyderabad)
Level 1
1 Day (300 km)
1hr 90mins
3hr 52mins
Table-9 Maintenance Program of the locomotive
Initial From Khammam to Kazipet 1hr 90mins in 1st day with a wagon speed of 300
km, From Kazipet to Hyderabad it takes 1hr 62mins, overall wagon takes 3hr
52mins.
For every electric locomotive there are the schedules for driving the locomotive
drivers.
We have five electric locomotive that are shown in graph-14, in the schedules the
drivers are taken charge by one of one for each locomotive, therefore 12
members of drivers are taken charge by electric locomotive.
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Hyderabad
140Km (1hr 62mins)
Khammam
160km (1hr 90mins)
Kazipet
300km
(3hr 52mins)
Figure-13 label of distance from Khammam to Hyderabad
In figure-13, we clearly mention the distance and we calculate the time are shown
in table-9.
10. Electric Loco Shed Kazipet Maintenance
The workshop now handles Maintenance of 200 Locomotives. It has highest
reliability of engineers with a meagre manpower of 2.56 persons Per Loco.
The electric loco shed of the South Central Railway, Constructed Initially at a
cost of Rs.25Crore (3107039 Euros) here, Completed 20years of operations.
Starting with an initial holding of 72 Locomotives, It now handles maintenance of
200 Locomotives that Includes both passenger and good trains, Each with a Power
of a whopping 6000 horsepower.
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Also Included in the list of trains are Rajadhani, Duronto and Sampark
Kranthi Express Service , Mr.Agrawal said the shed, With a head count of about
700 persons was able to carry out maintenances of locomotives with best practies
on the Indian Railways with the highest reliability of engineers with a meagre
manpower of 2.56 person per loco.
The shed takes care of wide area multipurpose (WAM), Wide area passenger
(WAP), and wide area goods (WAG) engines with a schedule of one full
maintenance onces in three months. It was transformed into a workshop to
handle maintenance of electric engines.
These all are the maintenance of electric loco shed Kazipet.
11. Suggestions to people.
When we are enter in the electric loco shed there have highly security to check
the people and enter in to electric loco shed.
1) 30% of the respondents are not identified for new assignments so extend their
assignments by providing proper training to the employees.
2) 30% of the respondents are dissatisfied due to lack of recognition and rewards.
A positive recognition for work boosts the motivational level of employees.
Recognition can be made explicit by providing awards like best employee of the
month.
3) Provide opportunities for career personal growth through training and
education, challenging assignments and more.
4) Identify the key performance areas of the individuals and conduct training
program to develop their skills and knowledge.
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5) Immediate resolution of the grievance is necessary otherwise it will effects the
Productivity of the organization so immediate actions should be taken to resolve
the grievance of the employees.
12. Conclusion.
9 Main objective was to learn electric locomotive in railways.
9 Electricity is used to eliminate smoke and take advantage of the high
efficiency of electric motors.
9 We calculate the value of electric loco locomotive WAG-9
components, weight, volume.
9 As well as we proof the power supply of electric locomotive WAG-9.
9 We proof the calculation part about, and by showing the graphs, at
last we find the new railway service.
9 We prove the new railway service, Travel time, Time table,
Locomotives, Maintenances.
9 By the electric locomotive I learn the components of locomotive & I
got lot of experiences to research the electric locomotive by the
process.
13. Acknowledgement.
9 I am thankful to the supporting people of the electric loco shed
Kazipet.
9 I thankful to one by one who was helpful in my thesis by step by step.
9 I thankful to my prof.Gabriele Malavasi, he was support a lot me & At
last I was completed my thesis work, I got a good experiences to
understand electric locomotive as I present above.
14. Reference.
By Professor RK (Rama Krishna) KLU University.
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