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Ashutosh Kar
Ashutosh Kar

Maglev Train Presentation

Engineering
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Maglev TrainTRAIN THAT FLOATS IN THE AIR…..
A Technical Seminar On MAGLEV TRAIN Presented by Ashutosh Regd. No: 5472555368 Under the esteemed guidance of Prof. Devraj (Department Of Electrical & Electronics Engineering) Vignan Institute Of Technology & Management,Berhampur-761008
CONTENT  ABSTRACT  INTRODUCTION  1.1-INTRODUCTION  1.2-TECHNOLOGY AND TYPES  WORKING PRINCIPLE  2.1- LEVITATION  2.2-PROPULSION  2.3-STABILITY  2.4-GUIDANCE  3:-EVACUATED TUBES AND POWER AND ENERGY  4:-COMPARISON WITH AIRCRAFT AND CONVENTIONAL TRAINS  5:-ECONOMICS  7:-EXISTING MAGLEV SYSTEMS  8:-CONCLUSION  9:-REFERENCE
ABSTRACT  Maglev concept was based on using lightweight, very high current superconducting loops suitably positioned on a streamlined vehicle.  As the vehicle moves along a guideway containing loops of ordinary aluminium wire at ambient temperature, the superconducting loops induce small electric currents in the guideway loops that are directly underneath them.  The magnetic interaction of the permanent currents in the superconducting loops with the induced currents in the guideway loops automatically levitates the vehicle.  If an external force (e.g. a wind gust, curve, or change in grade) acts on the vehicle, a magnetic force automatically and immediately develops to oppose the external force
 The magnetic force pushes the vehicle back toward its normal equilibrium suspension point. Since Maglev vehicles do not contact the guideway, their speed is not constrained by mechanical stresses, friction, or wear.  The speed is limited only by aerodynamic drag or straightness of route.  Passengers will then be able to travel between New York and Los Angeles, for example, in a little over an hour, with virtually no energy required
Introduction:  Maglev=Magnetic + Levitation  Maglev runs on the principle of magnetic levitation.  Maglev is noiseless ,friction less , and require no maintenance.  Maglev is the best alternative for means of transport.
The Maglev Train History  In the 1960s in Britain Eric Laithwaite developed a functional maglev train. His maglev had 1.6 km of track and was in detail tested. His research was stopped in 1973 because lack of money and his progress was not enough. In the 1970s, Germany and Japan also began research and after some failures both nations developed mature technologies in the 1990’s…………………………………… ... Eric Laithwaite
MAGNETIC LEVIATION  It is a method by which an object is suspended with no support other than magnetic fields. MagLev Technology; -levitates objects in air - electromagnetic propulsion - caused by electro magnets
Types of Maglev Trains Based on the technique used for Leviation the are two types of Maglev trains 1. Electromagnetic Suspension -Attractive 2. Electrodynamic Suspension -repulsive
Electromagnetic Suspension(EMS)  Electromagnetic Suspension uses electromagnets to leviate the train
Electrodynamic Suspension(EDS)  Electrodynamic Suspension uses Superconductors for leviation,propulsion and lateral guidance
Basic Principle of Maglev Trains 1.Leviation 2.Propulsion 3.Lateral Guidance
Leviation o Electromagnets attached to the train. o Has guidance magnets on the sides. o A computer changes the amount of current to keep the train 1 cm from the track. o Max speed -438km/hr o Has on-board battery power supply.
o The superconducting magnets by figure eight levitation coils on the side of the track induces a current in the coils and creates a magnetic field. o The repulsive forces between the magnets and coils lift the train, on average, about 4 to 6 inches above the track.
Propulsion  The principle of electromagnetic propulsion is : “opposite poles attract each other and like poles repel each other”  Major components of this propulsion system. They are:  A large electrical power source  Metal coils that line the entire guideway  Guidance magnets used for alignment
 The propulsion coils located on the sidewalls on both sides of the guideway are energized by a three-phase alternating current.  The on-board superconducting magnets are attracted and pushed by the shifting field, propelling the Maglev vehicle.  Braking is accomplished by sending an alternating current in the reverse direction.
STABILITYSTABILITY  EMS system rely on active electronic stabilisation..  All EDS systems are moving systems.  Since these vehicles fly, stabilisation of pitch , roll and sway is required  In addition to rotation , surge , sway and or heave can be problematic.
 Some systems use Null Current system  In EDS when the vehicle is in straight line , no current flows  When it moves off the line this creates changing flux ,generating a field that pushes and pulls it back to the line.  Some systems use coils that try to remain in the null flux point between repulsive magnets and reduces eddy current losses
Different Guideway types  Steel  Concrete  Hybrid
Installation of guideway
This increases the speed and efficiency greatly . But the passengers may suffer from the risk of cabin depressurization in the event of a train malfunction. Hence require tunnel monitoring system for repressurization
Working  Stators of the Maglev system are usually in the guiderails.  Rotors are located within the electromagnetic system on the train.  The alternating current allows a pull from the magnetic field in front of the train, and a push from the magnetic field behind the train  Train reaches maximum velocitiy of 300 miles per hour.
Energy for maglev trains used to accelerate the train. Also used to make the train levitate and to stabilise the movement. Main part of the energy used to overcome the air drag. For very short distances the energy for accelerating is considerable. But the power used to overcome the air drag increases with cube of velocity and hence dominates at high speed.
Platform
FEATURE MAGLEV TRAIN CONVENTIONAL TRAIN Speed Allow higher top speeds since they don’t rely on wheels for propulsion. Speed is limited by the use of wheels for propulsion.
Maintenance Require insignificant guide way maintenance. Their electronic vehicle maintenance is minimal Hence more reliable Rail is subjected to wear & tear due to friction ,increases exponentially with speed. This increases running cost. All weather operation Unaffected by snow , severe cold , rain or high winds. Can accelerate & decelerate regardless of slickness of guide way May encounter problems due to degradation of guide way caused by weather conditions. Efficiency No rolling resistance due to lack of Efficiency is affected by rolling resistance due to
Weight Weight of magnets in many EMS and EDS is a serious issue. Does not use magnets Noise Major source of noise is displaced air. But they are found to more annoying at lower loudness Though they produce more loudness , they are less annoying than maglev noise , hence have a 5-10 dB bonus Design Comparisons Maglev design eliminates the need for braking and overhead wires Design includes braking and overhead wires causing wear Control systems Requires no Has a human
Many maglevs have lift-to-drag ratio that exceed that of aircraft. But jet transport aircraft take advantage of low air density at high altitudes to reduce drag during cruise. Airlines cannot come close to the reliability or performance of maglev trains in all weather conditions. Maglev fares are less susceptible to the volatile price swings in oil markets. Has significant safety margin as they are designed not to crash into other.
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. The linear generators produce electricity for the cabin of the train.
Advantages  A Maglev is way faster than your usual bullet train. Maglevs can reach speeds up to 500 kilometres per hour. (Mumbai-Delhi in 2-3 hrs)  Due to its lack of wheels, MagLevs are quieter than normal trains, or sometimes even traffic.  Maglevs use 30% less energy than normal trains.  In theory, a Maglev and its track would require very little maintenance since the train never touches the track there is virtually no wear and tear.
Disadvantages  The Maglev's track is much more expensive than railroad tracks.  Whole new sets of tracks would have to be built for the Maglev to run. Many Transportation vehicles in Europe run on existing track, like the TGV trains in France.  Although Maglevs are pretty quiet, noise caused by air disturbance still occurs.
Latest maglev train
Other Applications  NASA plans to use magnetic levitation for launching of space vehicles into low earth orbit.  Boeing is pursuing research in MagLev to provide a Hypersonic Ground Test Facility for the Air Force.  The mining industry will also benefit from MagLev.  There are probably many more undiscovered applications!
Conclusion  The MagLev Train: Research on this ‘dream train' has been going on for the last 30 odd years in various parts of the world.  The chief advantages of this type of train are:  Non-contact and non-wearing propulsion, independent of friction, no mechanical components like wheel, axle.  Maintenance cost is less.  A country like India could benefit very much if this were implemented here.
REFERENCEREFERENCE  B. Ning, T. Tang, H. Dong, D. Wen, D. Liu, S. Gao, and J. Wang, “An introduction to parallel control and management for high-speed railway systems,” IEEE Trans. Intell. Transp. Syst., vol. 12, no. 4, pp. 1473– 1483, Dec. 2011  R.S.He,Z.D.Zhong,B.Ai,J.Ding,Y.Yang,andA.F.Molisch,“Short- term fading behaviour in high-speed railway cutting scenario: Measurements, analysis, and statistical models,” IEEE Trans. Antennas Propag., vol. 61, no. 4, pp. 2209–2222, Apr. 2013  S. Atev, G. Miller, and P. Papanikolopoulos, “Clustering of vehicle trajectories,”  IEEE Trans. Intell. Transp. Syst., vol. 11, no. 3, pp. 647–657
ANY QUERY
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Maglevtrainsnew 150401040530-conversion-gate01

  • 1. Maglev TrainTRAIN THAT FLOATS IN THE AIR…..
  • 2. A Technical Seminar On MAGLEV TRAIN Presented by Ashutosh Regd. No: 5472555368 Under the esteemed guidance of Prof. Devraj (Department Of Electrical & Electronics Engineering) Vignan Institute Of Technology & Management,Berhampur-761008
  • 3. CONTENT  ABSTRACT  INTRODUCTION  1.1-INTRODUCTION  1.2-TECHNOLOGY AND TYPES  WORKING PRINCIPLE  2.1- LEVITATION  2.2-PROPULSION  2.3-STABILITY  2.4-GUIDANCE  3:-EVACUATED TUBES AND POWER AND ENERGY  4:-COMPARISON WITH AIRCRAFT AND CONVENTIONAL TRAINS  5:-ECONOMICS  7:-EXISTING MAGLEV SYSTEMS  8:-CONCLUSION  9:-REFERENCE
  • 4. ABSTRACT  Maglev concept was based on using lightweight, very high current superconducting loops suitably positioned on a streamlined vehicle.  As the vehicle moves along a guideway containing loops of ordinary aluminium wire at ambient temperature, the superconducting loops induce small electric currents in the guideway loops that are directly underneath them.  The magnetic interaction of the permanent currents in the superconducting loops with the induced currents in the guideway loops automatically levitates the vehicle.  If an external force (e.g. a wind gust, curve, or change in grade) acts on the vehicle, a magnetic force automatically and immediately develops to oppose the external force
  • 5.  The magnetic force pushes the vehicle back toward its normal equilibrium suspension point. Since Maglev vehicles do not contact the guideway, their speed is not constrained by mechanical stresses, friction, or wear.  The speed is limited only by aerodynamic drag or straightness of route.  Passengers will then be able to travel between New York and Los Angeles, for example, in a little over an hour, with virtually no energy required
  • 6. Introduction:  Maglev=Magnetic + Levitation  Maglev runs on the principle of magnetic levitation.  Maglev is noiseless ,friction less , and require no maintenance.  Maglev is the best alternative for means of transport.
  • 7. The Maglev Train History  In the 1960s in Britain Eric Laithwaite developed a functional maglev train. His maglev had 1.6 km of track and was in detail tested. His research was stopped in 1973 because lack of money and his progress was not enough. In the 1970s, Germany and Japan also began research and after some failures both nations developed mature technologies in the 1990’s…………………………………… ... Eric Laithwaite
  • 8. MAGNETIC LEVIATION  It is a method by which an object is suspended with no support other than magnetic fields. MagLev Technology; -levitates objects in air - electromagnetic propulsion - caused by electro magnets
  • 9. Types of Maglev Trains Based on the technique used for Leviation the are two types of Maglev trains 1. Electromagnetic Suspension -Attractive 2. Electrodynamic Suspension -repulsive
  • 10. Electromagnetic Suspension(EMS)  Electromagnetic Suspension uses electromagnets to leviate the train
  • 11. Electrodynamic Suspension(EDS)  Electrodynamic Suspension uses Superconductors for leviation,propulsion and lateral guidance
  • 12. Basic Principle of Maglev Trains 1.Leviation 2.Propulsion 3.Lateral Guidance
  • 13. Leviation o Electromagnets attached to the train. o Has guidance magnets on the sides. o A computer changes the amount of current to keep the train 1 cm from the track. o Max speed -438km/hr o Has on-board battery power supply.
  • 14. o The superconducting magnets by figure eight levitation coils on the side of the track induces a current in the coils and creates a magnetic field. o The repulsive forces between the magnets and coils lift the train, on average, about 4 to 6 inches above the track.
  • 15. Propulsion  The principle of electromagnetic propulsion is : “opposite poles attract each other and like poles repel each other”  Major components of this propulsion system. They are:  A large electrical power source  Metal coils that line the entire guideway  Guidance magnets used for alignment
  • 16.  The propulsion coils located on the sidewalls on both sides of the guideway are energized by a three-phase alternating current.  The on-board superconducting magnets are attracted and pushed by the shifting field, propelling the Maglev vehicle.  Braking is accomplished by sending an alternating current in the reverse direction.
  • 17. STABILITYSTABILITY  EMS system rely on active electronic stabilisation..  All EDS systems are moving systems.  Since these vehicles fly, stabilisation of pitch , roll and sway is required  In addition to rotation , surge , sway and or heave can be problematic.
  • 18.  Some systems use Null Current system  In EDS when the vehicle is in straight line , no current flows  When it moves off the line this creates changing flux ,generating a field that pushes and pulls it back to the line.  Some systems use coils that try to remain in the null flux point between repulsive magnets and reduces eddy current losses
  • 19. Different Guideway types  Steel  Concrete  Hybrid
  • 21. This increases the speed and efficiency greatly . But the passengers may suffer from the risk of cabin depressurization in the event of a train malfunction. Hence require tunnel monitoring system for repressurization
  • 22. Working  Stators of the Maglev system are usually in the guiderails.  Rotors are located within the electromagnetic system on the train.  The alternating current allows a pull from the magnetic field in front of the train, and a push from the magnetic field behind the train  Train reaches maximum velocitiy of 300 miles per hour.
  • 23. Energy for maglev trains used to accelerate the train. Also used to make the train levitate and to stabilise the movement. Main part of the energy used to overcome the air drag. For very short distances the energy for accelerating is considerable. But the power used to overcome the air drag increases with cube of velocity and hence dominates at high speed.
  • 25. FEATURE MAGLEV TRAIN CONVENTIONAL TRAIN Speed Allow higher top speeds since they don’t rely on wheels for propulsion. Speed is limited by the use of wheels for propulsion.
  • 26. Maintenance Require insignificant guide way maintenance. Their electronic vehicle maintenance is minimal Hence more reliable Rail is subjected to wear & tear due to friction ,increases exponentially with speed. This increases running cost. All weather operation Unaffected by snow , severe cold , rain or high winds. Can accelerate & decelerate regardless of slickness of guide way May encounter problems due to degradation of guide way caused by weather conditions. Efficiency No rolling resistance due to lack of Efficiency is affected by rolling resistance due to
  • 27. Weight Weight of magnets in many EMS and EDS is a serious issue. Does not use magnets Noise Major source of noise is displaced air. But they are found to more annoying at lower loudness Though they produce more loudness , they are less annoying than maglev noise , hence have a 5-10 dB bonus Design Comparisons Maglev design eliminates the need for braking and overhead wires Design includes braking and overhead wires causing wear Control systems Requires no Has a human
  • 28. Many maglevs have lift-to-drag ratio that exceed that of aircraft. But jet transport aircraft take advantage of low air density at high altitudes to reduce drag during cruise. Airlines cannot come close to the reliability or performance of maglev trains in all weather conditions. Maglev fares are less susceptible to the volatile price swings in oil markets. Has significant safety margin as they are designed not to crash into other.
  • 29. 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. The linear generators produce electricity for the cabin of the train.
  • 30. Advantages  A Maglev is way faster than your usual bullet train. Maglevs can reach speeds up to 500 kilometres per hour. (Mumbai-Delhi in 2-3 hrs)  Due to its lack of wheels, MagLevs are quieter than normal trains, or sometimes even traffic.  Maglevs use 30% less energy than normal trains.  In theory, a Maglev and its track would require very little maintenance since the train never touches the track there is virtually no wear and tear.
  • 31. Disadvantages  The Maglev's track is much more expensive than railroad tracks.  Whole new sets of tracks would have to be built for the Maglev to run. Many Transportation vehicles in Europe run on existing track, like the TGV trains in France.  Although Maglevs are pretty quiet, noise caused by air disturbance still occurs.
  • 33. Other Applications  NASA plans to use magnetic levitation for launching of space vehicles into low earth orbit.  Boeing is pursuing research in MagLev to provide a Hypersonic Ground Test Facility for the Air Force.  The mining industry will also benefit from MagLev.  There are probably many more undiscovered applications!
  • 34. Conclusion  The MagLev Train: Research on this ‘dream train' has been going on for the last 30 odd years in various parts of the world.  The chief advantages of this type of train are:  Non-contact and non-wearing propulsion, independent of friction, no mechanical components like wheel, axle.  Maintenance cost is less.  A country like India could benefit very much if this were implemented here.
  • 35. REFERENCEREFERENCE  B. Ning, T. Tang, H. Dong, D. Wen, D. Liu, S. Gao, and J. Wang, “An introduction to parallel control and management for high-speed railway systems,” IEEE Trans. Intell. Transp. Syst., vol. 12, no. 4, pp. 1473– 1483, Dec. 2011  R.S.He,Z.D.Zhong,B.Ai,J.Ding,Y.Yang,andA.F.Molisch,“Short- term fading behaviour in high-speed railway cutting scenario: Measurements, analysis, and statistical models,” IEEE Trans. Antennas Propag., vol. 61, no. 4, pp. 2209–2222, Apr. 2013  S. Atev, G. Miller, and P. Papanikolopoulos, “Clustering of vehicle trajectories,”  IEEE Trans. Intell. Transp. Syst., vol. 11, no. 3, pp. 647–657