ABOUT MAGLEV TRAN AND ITS WORKING AND EVERY THING ABOUT THIS TOPIC

1. A.D.PatelA.D.Patel
Institute ofInstitute of
TechnologyTechnology
 Sub :-Sub :- Elements Of Civil Engineering
 Topic :-Topic :- Recent Advancec in Transportation
 Dept. :-Dept. :- Food Processing Technology
Prepared ByPrepared By :- Rajyaguru Kandarp
(170010114047/T33)
Devansh Patel
(170010114027/T36)
Jemishkumar Parmar
(170010114024/T40)

2. Maglev TrainMaglev Train
 Trains that fly on air.Trains that fly on air.
 MaglevMaglev == MagMagneticnetic ++ LevLevitationitation

3. Presentation OutlinePresentation Outline
 How Transrapid works.How Transrapid works.
 Application information about TransrapidApplication information about Transrapid
magnetic lift trains.magnetic lift trains.
 Transrapid magnetic lift projects.Transrapid magnetic lift projects.
 How Chuo Shinkansen works.How Chuo Shinkansen works.
 Application information about ChuoApplication information about Chuo
Shinkansen works.Shinkansen works.
 Summary / ConclusionSummary / Conclusion

4. How Transrapid WorksHow Transrapid Works
# Support System :-
• The electromagnets on
the underside of the train
pull it up to the
ferromagnetic stators on
the track and levitate the
train.
• The magnets on the side
keep the train from moving
from side to side.
• A computer changes the
amount of current to keep
the train 1 cm from the
This means there is no friction
between the train and the track!

5. Levitation System’s Power SupplyLevitation System’s Power Supply
 Batteries on the train power the system, and
therefore it still functions without propulsion.
 The batteries can levitate the train for 30
minutes without any additional energy.
 Linear generators in the magnets on board the
train use the motion of the train to recharge the
batteries.
 Levitation system uses less power than the
trains air conditioning.

6. Propulsion System
• The system consists of
aluminum three-phase cable
windings in the stator packs
that are on the guideway
• When a current is supplied
to the windings, it creates a
traveling alternating current
that propels the train
forward by pushing and
pulling.

7. • When the alternating current is reversed, the train brakes.
• Different speeds are achieved by varying the intensity of the
current.
• Only the section of track where the train is traveling is
electrified.
.

8. Application Information
# Safety :-
• The trains are virtually impossible to derail because the train is
wrapped around the track.
• Collisions between trains are unlikely because computers are
controlling the trains movements.
# Maintenance :-
• There is very little maintenance because there is no contact
between the parts.

9. # Comfort :-
• The ride is smooth while not
accelerating..
# Economic Efficency :-
• The initial investment is similar to
other high speed rail roads. (Maglift is
$20-$40 million per mile and I-279 in
Pittsburg cost $37 million per mile 17
years ago.)
• Operating expenses are half of that of
other railroads.
• A train is composed of sections that
each contain 100 seats, and a train can
have between 2 and 10 sections.

10. • The linear generators produce electricity for the cabin of the train.
# Speed :-
• The train can travel at about 300 mph. (Acela can only go 150
mph)
• For trips of distances up to 500 miles its total travel time is equal
to a planes (including check in time and travel to airport.)
• It can accelerate to 200 mph in 3 miles, so it is ideal for short
jumps. (ICE needs 20 miles to reach 200 mph.)

11. # Environment :-
• It uses less energy than existing transportation systems. For
every seat on a 300 km trip with 3 stops, the gasoline used per
100 miles varies with the speed. At 200 km/h it is 1 liter, at 300
km/h it is 1.5 liters and at 400 km/h it is 2 liters. This is 1/3 the
energy used by cars and 1/5 the energy used by jets per mile.
• The tracks have less impact on the environment because the
elevated models (50ft in the air) allows all animals to pass, low
models ( 5-10 ft) allow small animals to pass, they use less land
than conventional trains, and they can follow the landscape better
than regular trains since it can climb 10% gradients (while other
trains can only climb 4 gradients) and can handle tighter turns.

12. # Noise Pollution :-
• The train makes little noise because it does not touch the track
and it has no motor. Therefore, all noise comes from moving air.
This sound is equivalent to the noise produced by city traffic.

13. # Magnetic Field :-
• The magnetic field created is low, therefore there are no
adverse effects.

14. Transrapid ProjectsTransrapid Projects
 China is building a 20
mile system between
Shanghai Pudong and
Pudong International
Airport. It will open in
January of 2004, and it
will reach speeds of
over 250 mph. If the
project is successful,
then China will build a
system from Beijing to
Shanghai, a journey of
over 800 miles.

15. • The United States Congress is
planning to spend $1 billion for a
test project that either connects
Pittsburgh’s suburbs with its
airport or Baltimore to the
Washington International
Airport.
• Germany was going to build a
magnetic lift system between
Berlin and Hamburg (200 miles)
in 1996, but never did because a
new political party came in and
decided that the improvements
over ICE was not worth $7
billion dollars.

16. How Chuo Shinkansen WorksHow Chuo Shinkansen Works
# Type of Magnet Uses :-
• This train uses superconducting electric magnets in the vehicle
to levitate and propel the train. These magnets are cooled by
liquid helium or liquid nitrogen. This means that once electrified
these magnets do not require additional energy.

17. # Propulsion :-
• An alternating current is ran through electromagnet coils on the
guide walls of the guide way. This creates a magnetic field that
attracts and repels the superconducting magnets on the train and
propels the train forward.
• Braking is accomplished by sending an alternating current in the
reverse direction so that it is slowed by attractive and repulsive
forces.

18. # Levitation :-
• The passing of the superconducting magnets by figure eight
levitation coils on the side of the tract induces a current in the
coils and creates a magnetic field. This pushes the train upward
so that it can levitate 10 cm above the track.
• The train does not levitate until it reaches 50 mph, so it is
equipped with retractable wheels.

19. #Lateral Guidance :-
• When one side of the train nears the side of the guideway, the
super conducting magnet on the train induces a repulsive force
from the levitation coils on the side closer to the train and an
attractive force from the coils on the farther side. This keeps the
train in the center.

20. Application InformationApplication Information
 This system is not ready for use now, but it
should be ready in a few years.
 It’s top speed with people aboard is 350 mph.
 The super conducting magnets create a strong
magnetic field that could be a problem for
some passengers.

21. • The train is earthquake proof because the greater space (10 cm) between
the track and the train leaves more room for track deformation
• Linear generators will produce all the electricity needed in the train’s
interior.
• Only the part of the track that is used will be electrified so no energy is
wasted.

22. Summery / ConclusionSummery / Conclusion
 Maglev trains use magnets to levitate and
propel the trains forward.
 Since there is no friction these trains can reach
high speeds.
 It is a safe and efficient way to travel.
 Governments have mixed feelings about the
technology. Some countries, like China, have
embraced it and others like Germany have
balked at the expense.
 The time for a new mode of transportation
is now!