Maglev trains qfiles the online library of knowledge. The big difference between a maglev train and a conventional train is that maglev trains do not have an engine. How high does the train levitate above the guideway. The goal of the magnetic levitation train maglev project is to develop a small scale magnetic levitation train based on inductrack technology developed by dr. Dec 20, 2014 this is a very simple explanation on the physics behind a maglev train. The operating principle of magnetic sustentation maglev turbine the movement of. The shanghai maglev appears to be the only true commercial maglev train. The key difference between japanese and german maglev train technology is that the japanese. It would take four 10 unit maglev trains running 24 hours a day straight for 6 days discounting loading and unloading time to equal the performance of one coal train set. Maglev trains move more smoothly and somewhat more quietly than wheeled mass transit systems. Trains based on the technique used for leviation the are two types of maglev trains 1. Maglev systems are currently in use for applications such as bearings, highspeed trains, and manufacturing. Maglev trains short form of magnetic levitation are a very fast type of highspeed rail. This speed is twice as fast as a conventional commuter train and.
The most efficient way to produce the most powerful magnetic field we know of today, with a reasonable energy cost, is the use of superconducting coils, as in mris. Japan repeats history with recordbreaking maglev train cnn. In it, railroading technology will away with moving components, permitting vehicles to maneuver additional swimmingly and more. Maglev, or magnetic levitation, is a kind of technology used for many different purposes. Since the invention of steampowered trains in the 1800s, trains have been the. Highspeed maglev trains promise dramatic improvements for human travel if widespread adoption occurs.
Richard post from lawrence livermore national labs llnl. Magnetic levitation trains are becoming a popular transportation topic all around the globe. With the maglev, a vehicle is levitated a short distance away from a guideway by using magnets to create both lift and thrust. The common point in all applications is the lack of contact and thus no wear and friction. A high speed maglev train uses noncontact magnetic levitation, guidance and propulsion systems and has no wheels, axles and transmission. Maglevs uses less energy upto 30% than normal trains. The shanghai maglev train, also known as the transrapid, is the fastest commercial train in the world with top speed of 430 kilometres per hour.
Maglev short for magnetic levitation trains can trace their roots to technology pioneered at brookhaven national laboratory. The maglev trains would have to travel 180,000 miles to deliver one coal train worth of coal. For example, while every highspeed rail passenger pays one dollar for each mile traveled, maglev passengers could pay as little as 5 cents per mile, says james powell, director of the company maglev 2000 and a coinventor of superconducting maglev trains. Magnetic levitationbased transport might be about to enter our lives, providing for. The engine for maglev trains is rather inconspicuous. This speed is twice as fast as a conventional commuter train and comparable to the tgv train a grande vitesse in use in france, which travels between 300 and 320 km 186 and 199 miles per hour. Less expensive to operate and maintain than traditional highspeed trains or even planes, and as a consequence lower cost per passenger per mile. The name maglev is derived from magnetic levitation. At very short distances as gothenburg landvetter where neither a maglev or. This increases efficiency, reduces maintenance costs, and increases the useful life of the system. Types of maglev trains based on the technique used for levitation the are two types of maglev trains 1. The magnetic levitation technology can be used as an efficient technology in.
Maglev train in shanghai, china maglev short for magnetic levitation is a way of propelling a vehicle along using magnets rather than wheels and axles. In other words, by this speed, it will only take two hours to travel from paris to rome. James powell and gordon danby of brookhaven received the first patent for a magnetically levitated train design in the late 1960s. A maglev system uses magnetic fields to levitate and accelerate a vehicle along a track.
Variety of such systems including maglev has been introduced to the industry. Apr 30, 2015 basic principle of maglev trains maglev trains have to perform the following functions to operate in high speeds 1. Maglev vehicles could operate from the terminals of existing airports, just as. Maglev is a term used to describe magnetic levitation. Maglev trains use the physical forces of magnetism and electromagnetism to not only levitate the train, but to push and pull. Learn about the maglev track and see a diagram of a magelev track. Magnetic levitation maglev is an innovative transportation technology. We could use normal magnets, but their magnetic power is limited. Magnetic levitation is a highly advanced technology. In these locations, maglev trains are functional to the public. This lack of friction means that they can reach higher speeds than conventional trains. Review of maglev train technologies article pdf available in ieee transactions on magnetics 427. Simple magnetic levitation train seminar reportpdf ppt.
The maglev train isnt like an ordinary train that one would see driving throughout the united states carrying coal, cargo, and much more. The lack of friction that is inherent in the operation of a maglev train, plus its aerodynamic design, means that such trains can travel in excess of 310 miles an hour, twice as fast as the fastest conventional train. Maglev trains work on the principle of electromagnetic propulsion, wherein the cars are suspended, guided, and propelled using powerful magnets. Maglev trains travel at faster speeds then buses and regular trains. These principles govern the levitation of maglev trains. If maglev trains do not use fossil fuels, explain how the train is propelled. The new japanese maglev became the fastest train in the world after traveling at 374 miles per hour 603 kilometers per hour on a test run near mount fuji last year, breaking its own world record. Instead of using fossil fuels, the magnetic field created by the electrified coils in the guideway walls and the track combine to propel the train. Lufthansa operates a train system between its frankfurt airport and dusseldorf.
Some interesting facts about the fastest train of the world that will amaze you. Japan repeats history with recordbreaking maglev train. Maglev trains operating at slower speeds are currently in use in china and south korea. Maglev trains are therefore quieter and smoother than conventional trains and have the potential for much higher speeds. Maglevs eliminate a key source of frictionthat of train wheels on the railsalthough they must still overcome air resistance. The engine used for conventional trains provide power to pull a chain of compartments along steel tracks. Maglev trains work due to the magnet force, the force created by magnets. These fields lift the train a small distance above the tracks and move the train. Due to lack of physical contact between train and track, very efficient for maintenance.
The maglev track allows the train to float above the track through the use of repelling magnets. Above is an image of the guideway for the yamanashi maglev test line in japan. For a refresher on the magnetic force, you can view this lesson. In addition to the higher cost, maglev trains have another major disadvantage. Maglev trains float over a guide way using magnets to replace the steel wheel and train tracks. This has resulted in the development of a variety of maglev systems that are manufactured by different countries.
This project is a continuation of work done by paul friend in 2004. The train is levitated to reduce friction among the tracks which. Mar 07, 2017 a quick video on how maglev trains work. At present maglev technology has produced trains that can travel in excess of 500 km 310 miles per hour. In general, maglev trains move more smoothly and somewhat more quietly than wheeled mass transit systems. Compared to conventional wheeled trains, differences in construction affect the economics of maglev trains. The magnetized coil running along the track, called a guideway, repels the large magnets on the trains undercarriage, allowing the train to levitate between 0. Basic maglev train and its working linkedin slideshare.
Along certain mediumrange routes usually 320 to 640 km 200 to 400 mi, maglev can compete favorably with highspeed rail and airplanes. Maglev systems use highstrength electromagnets to lift a vehicle a few inches above a track and then propel it forward with high acceleration. Not compatible with railroad track, and therefore require whole thing to be rebuilt for their entire route. The big difference between regular trains and maglev trains is that mag lev trains do not use an engine. In the long run, maglev trains offer the prospect of travelling faster than. Maglev is a method of propulsion that uses magnetic levitation to propel vehicles with. Prashant zanwar university of central florida maglev. Germanys maglev line, transrapid, is rather infamously known for its collision in 2006 that killed 25 people. These trains are faster than virgin pendolinos, currently the fastest trains in the uk with top speeds up around 125mph. Maglev train ppt, seminar report and pdf study mafia. Maglev train simple english wikipedia, the free encyclopedia. Maglevshort for magnetic levitation trains can trace their roots to technology pioneered at brookhaven. With maglev, a vehicle is levitated a short distance away from a guide way using magnets to create both lift and thrust.
Like ordinary magnets, these magnets repel one another when matching poles face each other. Maglev trains are mainly used for transportation in china, japan, germany,etc. In maglev trains, the power to propel the train is provided by the magnetic fields created by the electric coils kept in the guidance tracks which are added together to provide. This was the first major collision involving a maglev train, and. Magnetic levitation is a technology that uses magnetic fields to make the train move. This article has just briefed the basic principles and working of the maglev trains. A proposed underground 350 kmh 220 mph maglev network, proposed by transport for the north, would link up liverpool, manchester, leeds and. If a maglev wants to use this force to levitate, it needs a strong magnetic field in its wagons. Some countries have decided to make transportation even faster by the creation of maglev trains. A maglev train car is just a box with magnets on the four corners, says jesse powell, the son of the maglev inventor, who now works with his father.
The maglev project consists of two construction phases. Maglev trains are a necessity for modern time transportation needs an d vital for the future needs of railways, worldwide. A maglev vehicle is levitated a short distance using magnets to create forces of both lift and thrust. Advantages and disadvantages of maglev trains wheelzine. Japanese engineers have developed a competing version of maglev trains that use an electrodynamic suspension eds system, which is based on the repelling force of magnets. It is very formidable work to analyze the performance of the system by. Transport specialist, institution of engineering and technology. Could maglev trains be a magic bullet for uk intercity. The key difference between japanese and german maglev train technology is that the japanese trains use supercooled, superconducting electromagnets.
The big difference between a maglev train and a conventional train is that maglev trains do not have an engine at least not the kind of engine used to pull typical train cars along steel tracks. Similar systems are in use today as highspeed trains and some of the newer, radicalride roller coasters. Nov 20, 20 basic principle of maglev trains maglev trains have to perform the following functions to operate in high speeds 1. Jun 14, 2016 in maglev, superconducting magnets suspend a train car above a ushaped concrete guideway. Instead, they are propelled by a magnetic field created by electrified coils this combined with guideway walls on the track creates movement. Recently, maglev has seen an ideal use in the train industry, where it has been leveraged to make train wheels and tracks obsolete, and instead use magnets to propel trains where they need to go. Instead of using fossil fuels, the magnetic field created by the electrified coils in the guide way walls and the track combine to propel the train 3. Maglev derived from magnetic levitation is a system of train transportation that uses two sets of magnets, one set to repel and push the train up off the track, and another set to move the elevated train ahead, taking advantage of the lack of friction. Maglev derived from maglev could be a conveyance technology that uses magnetic levitation to move vehicles while not creating contact with the bottom or an electrical pickup. May 29, 2018 with no wheels and only one track, maglev trains would poohpooh bad weather, the wrong type of leaves on the line, or a points failure at cricklewood. Optimizing the controller design to guide the motion of a maglev train. Maglev train uses the electromagnetic force which is generally created between the magnets. Maglev trains are the best example of the modern transport means.
Maglev trains are pulled forward using polarities that attract each other at the front of the train. Maglev trains do not need engines like conventional trains. Learn about electromagnetic suspension, the most popular type of. Cost reduction by eliminating friction, maglev trains use less energy and can significantly reduce costs. The maglev train system has three important components the power source, the track referred to as the guideway, and the gigantic magnets that are attached to the carstrack. Highspeed maglev trains may one day revolutionize transport across the world. Linimo tobu kyuryo line, japan shanghai maglev train daejon, south korea testing tracks conducting research and development can. As the train travels, the electromagnets at the back switch the direction of the spin so that they create a magnetic field that pushes the train forward.