WO2018185124A1 - Utilisation d'un ensemble supraconducteur et système de transport comprenant un ensemble supraconducteur - Google Patents

Utilisation d'un ensemble supraconducteur et système de transport comprenant un ensemble supraconducteur Download PDF

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Publication number
WO2018185124A1
WO2018185124A1 PCT/EP2018/058539 EP2018058539W WO2018185124A1 WO 2018185124 A1 WO2018185124 A1 WO 2018185124A1 EP 2018058539 W EP2018058539 W EP 2018058539W WO 2018185124 A1 WO2018185124 A1 WO 2018185124A1
Authority
WO
WIPO (PCT)
Prior art keywords
superconducting conductor
magnetic field
transport
conductor arrangement
capsule
Prior art date
Application number
PCT/EP2018/058539
Other languages
German (de)
English (en)
Inventor
Wolfgang Reiser
Stefan Huwer
Original Assignee
Vision Electric Super Conductors Gmbh
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Vision Electric Super Conductors Gmbh filed Critical Vision Electric Super Conductors Gmbh
Priority to DE112018001839.3T priority Critical patent/DE112018001839A5/de
Publication of WO2018185124A1 publication Critical patent/WO2018185124A1/fr

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B60VEHICLES IN GENERAL
    • B60LPROPULSION OF ELECTRICALLY-PROPELLED VEHICLES; SUPPLYING ELECTRIC POWER FOR AUXILIARY EQUIPMENT OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRODYNAMIC BRAKE SYSTEMS FOR VEHICLES IN GENERAL; MAGNETIC SUSPENSION OR LEVITATION FOR VEHICLES; MONITORING OPERATING VARIABLES OF ELECTRICALLY-PROPELLED VEHICLES; ELECTRIC SAFETY DEVICES FOR ELECTRICALLY-PROPELLED VEHICLES
    • B60L13/00Electric propulsion for monorail vehicles, suspension vehicles or rack railways; Magnetic suspension or levitation for vehicles
    • B60L13/04Magnetic suspension or levitation for vehicles
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02GINSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
    • H02G15/00Cable fittings
    • H02G15/34Cable fittings for cryogenic cables

Definitions

  • the invention relates to a use of a superconducting conductor arrangement and a transport system with a superconducting conductor arrangement.
  • SL Superconductors
  • TTSL low temperature superconductors
  • HTSCs high-temperature superconductors
  • busbars which are used as direct current connection for high current consumers, in particular aluminum, copper or zinc electrolyses, graphitization, chemical electrolysis, such as chlorine or fluorine electrolysis , DC networks or in data centers with DC-based servers.
  • busbars must carry direct current in the order of magnitude of approximately 10 to several 100 kA.
  • grid expansion to the less populated areas with increased wind or photovoltaic power supply is necessary, as well as a controversial north-south connection.
  • Conventional technology would require a massive use of suitable conductive materials, especially copper or aluminum. which also have to be held and laid by complex mechanics and structures. Infrastructure measures are regularly met with fierce resistance from local residents and the public. On longer distances, high electrical losses result, which can be avoided by the use of superconductors. However, cooling must be used whose construction and operation requires high cost and energy.
  • electromagnetic levitation systems are used, for example in the maglev, a track-guided land transport, which is held by magnetic forces in suspension, guided in the track, driven and braked.
  • the technology allows high speeds, accelerations and gradients.
  • Magnetically levitated orbits use magnetic fields to levitate vehicles.
  • the electromagnetic levitation system electromagnet suspension, EMS
  • electrodynamic suspension, EDS electrodynamic suspension
  • EMS a DC-excited electromagnet magnetizes the ferromagnetic material on the other side of an air gap, causing an attractive force. Since the attractive process would be unstable without regulation, an active air gap control must be used here. Fast and efficient dynamic controls are crucial for this.
  • the chassis of the Transrapid system encompasses the road, as in the case of the Transrapid.
  • EDS alternating magnetic fields are generated which on the opposite side in non-magnetic electrical conductors, mostly aluminum, cause eddy currents which prevent the deeper penetration of the magnetic field, with the result of a repulsive force, for example JR-Maglev.
  • EDS is less energy efficient at low and medium speeds. At high speeds, the motion of a uniform excitatory field induces eddy currents, which reduces the energy expenditure of EDS, which EMS increases.
  • Hyperloop discusses a concept for a high-speed transport system, in particular by solar energy electrically driven transport capsules with travel speeds of up to about 1 125 km / h by means of an electromagnetic levitation system floating through a heavily evacuated tube to transport.
  • the concept envisages traveling at speeds of up to 1,500 kilometers much faster than by plane and at the same time much cheaper than traveling by train.
  • the partial vacuum allows travel speeds to just above the speed of sound at normal pressure, without having to pierce the sound barrier.
  • Drive and braking can be done for example via asynchronous long stator linear motors, which have been installed, inter alia, in magnetic levitation trains such as the Transrapid.
  • a mechanical brake and an electric wheel drive are additionally provided.
  • the superconducting conductor arrangement also serves to conduct an electrical current through the superconducting conductor arrangement from a current feed point along the length of the superconducting conductor arrangement to an electrical consumer.
  • This corresponds to a normal power supply to supply the load with electricity
  • the superconducting conductor arrangement is suitable for very long distances or virtually lossless power line and highest currents.
  • the current in particular the very high currents of at least 20 kA which are typical here, form a correspondingly strong magnetic field, which the person skilled in the art has hitherto considered disturbing, since the magnetic field above a certain level causes the transition temperature to drop.
  • the special feature of the invention lies in the fact that the actually disturbing magnetic field is used as an electromagnetic levitation system for a means of transport.
  • the ladder assembly therefore “casually” forms a support and / or guide rail for a transport capsule durable and free-floating along the length of the superconducting conductor assembly by the magnetic field by means of the magnetic field
  • the principles of "electromagnetic levitation system” and “superconductive levitation” are well known in the art basically known and not deepened here. It does not matter which concrete transport system is used, as long as a superconducting conductor arrangement extends along the route, in which the current also flows along the plug. The conductor arrangement does not have to run straight, but may have loops, coils, meanders or the like.
  • transport capsule movable by means of the magnetic field does not necessarily mean that the magnetic field is the driving force for the movement, but simply expresses that the capsule can be moved in a floating manner along the superconducting conductor arrangement, ie can be displaced Refrigeration extending over the length of a superconducting power line, whose operation also requires high costs and energy, thus arises only once, so that the urgently needed power lines also become a modern transport system at the same time.
  • This transport system initially has a guide path for carrying and guiding a transport capsule adapted thereto for persons and / or goods, which can be moved along the guide path.
  • This guideway can be free as in the Transrapid or integrated into a transport tube like the Hyperloop.
  • the guide path has an electromagnetic levitation system with at least one carrier and / or guide rail extending along the guide path with a superconducting conductor arrangement for keeping the transport capsule body-contact-free along the transport tube by means of a magnetic field.
  • a cooling system is necessarily provided for cooling the superconducting conductor assembly below its transition temperature and a current injection point for introducing the current into the superconducting conductor assembly for generating the magnetic field.
  • the particular feature according to the invention resides in the fact that an electrical load outside the guide path is arranged at a distance from the current feed point to the superconducting conductor arrangement which is operated by the current.
  • the high infrastructure cost for extending over the length of an electromagnetic levitation system with superconducting line arrangement cooling, their operation also requires high costs and energy, thus falls only once.
  • the modern transport system is thus also a power line.
  • the transport system is designed as a Hyperloop system is formed with the corresponding features, namely a guide path, as a pressure-tight under vacuum driving tube; and / or a pressure-tight transport capsule, which is movable in the interior of the driving tube; and / or a carrier and / or guide rail, running along and inside the transport tube.
  • the utility of the invention is economically advantageous if the superconducting conductor arrangement has a current carrying capacity of at least 20 kA, preferably 200 kA. Of course, several conductor arrangements with these currents can be provided in parallel.
  • the support rail forms the forward conductor and a plurality of guide rails together form the return conductor, the support rail can thereby build up a particularly large magnetic field for carrying the weight of the capsule, while the weaker magnetic fields of the plurality of guide rails only have a centering effect.
  • the superconducting conductor arrangement is used in a Hyperloop system as a carrier and / or guide rail and the transportable by means of magnetic force levitating and movable transport capsule is a pressure-tight passenger or goods transport capsule for low-drag fast movement of the capsule. If the superconducting conductor arrangement comprises high-temperature superconductors, the cost of providing, filling and cooling the cooling system is reduced.
  • the superconducting conductor arrangement and the transport capsule are accommodated in a pressure-tight vacuum system; and / or a drive system is provided for moving the mass along the length; and / or pressure locks provided by means which the mass to ambient pressure or at least one compared to the vacuum system higher pressure can be brought.
  • the superconducting conductor arrangement has a length of at least 10 km, preferably 50 km, in particular preferably 100 km, in particular preferably 1000 km. It does not mean the length of the conductor itself, which can also pass through loops, coils, meanders or the like, but the length of the path of the electromagnetic levitation system or the means of transport.
  • connection according to the invention of a desired electrical load is delimited by a random, technically conditioned power consumption in the sense of a power loss of the electromagnetic levitation system in that the connected load decreases or can decrease an electrical power, which by a factor of 1, 000, preferably 10,000, in particular preferably 100,000 is above the power dissipation occurring in the superconducting conductor arrangement.
  • the invention synergistically combines power transport with modern passenger and freight transport.
  • the strong magnetic fields generated by high currents are used, with which magnetic levitation and driving without rolling or sliding friction is almost lossless possible.
  • the ideal conductors for these high electrical currents are high temperature superconductors (HTS).
  • HTS are comparatively easy to cool under the relatively high transition temperature.
  • HTS conduct high DC currents without electrical resistance completely lossless.
  • HTS allow magnetic levitation without losses.
  • the propulsion of the capsule can be done electrically or on any other method, for which reference is made to the extensive state of the art.
  • the transport capsule itself can store the drive energy and / or provide the driving force, for. B .: by means of a propeller or recuperative linear motor.
  • the drive energy and / or force of the transport capsule can be supplied from the outside, for example in the form of overpressure according to the principle of the pneumatic tube or by means of a linear motor.
  • electrical power in the order of magnitude of the new planned for the energy transition power lines can be transmitted.
  • the current can be kept constant with a current control for hovering or the load be adapted accordingly.
  • the energy transport can be adapted to the volatile demand via voltage regulation.
  • the transport capsule has a device for the construction of a counter magnetic field whose counter magnetic field can interact with the magnetic field of the carrier rail, so that the transport capsule is durable and movable along the carrier rail in suspension.
  • the device is adjustable, which allows an adjustment of the flying height.
  • the device for setting up a countermagnetic field comprises at least one second superconducting conductor arrangement for generating the countermagnetic field. With conventional coils and conductors, the necessary magnetic fields could not be carried in the transport capsule, just as little as the necessary energy supply. Further, a control device for changing the counter magnetic field by varying a current in the second superconducting conductor arrangement is provided.
  • the control system can monitor, for example, the flying height by means of sensors and regulate the current and, consequently, the strength of the counter magnetic field.
  • the control system may include for generating or regulating the high currents and instead of power electronics, for example, a Unipolardynamo, which operates on the inverse principle of the known unipolar motor.
  • a cooling device for cooling the second superconducting conductor arrangement is necessarily below its transition temperature. Further, it is possible to drive the device for setting up a reverse magnetic field so that the transport capsule is lowered for braking purposes by reducing the current in the device for establishing a counter magnetic field and provided on the capsule and / or on the route braking elements can be effective. It is even possible by current reversal attraction ie pressing the transport capsule against the brake system possible.
  • variable current 12 of the transport capsule has a significant contribution to the force F or distance a, which corresponds to the flying height of the capsule.
  • a prior art permanent magnet device for constructing a counter magnetic field can not be varied since the magnetic field has only a certain strength.
  • the magnetic fields obtainable with superconductors are several times stronger than current permanent magnets made of rare earth materials.
  • the device for the construction of a counter magnetic field and its advantages with respect to the control of the floating of the transport capsule generally relate to the transport system described here, wherein it does not depend on the existence of an electrical consumer, the outside of the guide track in a Distance from the power feed point is operated by the power.
  • a transport system with a guide track for carrying and guiding an adapted transport capsule for people and / or goods, which is movable along the guide track; an electromagnetic levitation system having at least one carrier and / or guide rail extending along the guide path and having a superconducting conductor arrangement for holding the transport capsule along the guide path in a body contact-free fashion by means of a magnetic field; a cooling system for cooling the superconducting conductor assembly below its transition temperature; a Stromeinspeiseddling for introducing the current into the superconducting conductor assembly for generating the magnetic field, wherein the transport capsule comprises a device for establishing a counter magnetic field whose counter magnetic field can interact with the magnetic field of the carrier rail, so that the transport capsule along the carrier rail in levy durable and movable, wherein the counter magnetic field contrivance apparatus comprises: a second superconducting conductor assembly for generating the counter magnetic field; a regulating device for varying the reverse magnetic field by varying a current in the second superconductive
  • the magnetic field in the interior of the transport capsule by design is close to zero and thus for passengers (with eg pacemaker) no impairment.
  • FIG. 1 an embodiment of the invention is greatly simplified sketched. It is a Hyperloop system, which is used according to the invention for combined power and material or passenger transport. It is combined with a HTS high-current system and thus represents an extremely energy-efficient realization.
  • the carrier rail 1 is also the forward conductor and generates the supporting magnetic field which the transport capsule 2, also called Hyperloop pod, floats. After the current has left the forward conductor and has flowed through the electrical load, not shown, it is distributed to the two return conductors, which are part of the two guide rails 3. These provide for the lateral guidance within the transport tube 4, which is under negative pressure.
  • Fig. 2 an embodiment of the invention is also sketched greatly simplified. 1, in which, however, the controllable device 21 is provided for the construction of a countermagnetic field whose countermagnetic field can interact with the magnetic field of the carrier rail 1, so that the transport capsule can be kept in suspension with adjustable height along the carrier rail is.

Landscapes

  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Electromagnetism (AREA)
  • Power Engineering (AREA)
  • Transportation (AREA)
  • Mechanical Engineering (AREA)
  • Control Of Vehicles With Linear Motors And Vehicles That Are Magnetically Levitated (AREA)

Abstract

L'invention concerne une utilisation d'un ensemble supraconducteur et un système de transport comprenant un ensemble supraconducteur. Selon l'invention, le champ magnétique effectivement parasite d'un ensemble supraconducteur traversé par un courant est utilisé pour l'alimentation d'un consommateur servant en même temps de système de lévitation électromagnétique pour un moyen de transport. L'ensemble conducteur forme par conséquent "accessoirement" un rail de support et/ou de guidage pour une capsule de transport pouvant être déplacée et maintenue en lévitation au moyen du champ magnétique le long de l'ensemble supraconducteur sans contact sur la longueur de celui-ci. La grande complexité des infrastructures nécessaires pour un refroidissement s'étendant sur la longueur d'une ligne électrique supraconductrice, refroidissement dont le fonctionnement nécessite en outre des coûts élevés et de grands besoins d'énergie, n'est ainsi prise en considération qu'une seule fois. Les lignes électriques dont on a grand besoin deviennent ainsi en même temps un système de transport moderne et inversement.
PCT/EP2018/058539 2017-04-04 2018-04-04 Utilisation d'un ensemble supraconducteur et système de transport comprenant un ensemble supraconducteur WO2018185124A1 (fr)

Priority Applications (1)

Application Number Priority Date Filing Date Title
DE112018001839.3T DE112018001839A5 (de) 2017-04-04 2018-04-04 Verwendung einer supraleitenden Leiteranordnung und Transportsystem mit einer supraleitenden Leiteranordnung

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
LU100160A LU100160B1 (de) 2017-04-04 2017-04-04 Verwendung einer supraleitenden Leiteranordnung und Transportsystem mit einer supraleitenden Leiteranordnung
LULU100160 2017-04-04

Publications (1)

Publication Number Publication Date
WO2018185124A1 true WO2018185124A1 (fr) 2018-10-11

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DE (1) DE112018001839A5 (fr)
LU (1) LU100160B1 (fr)
WO (1) WO2018185124A1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20210316616A1 (en) * 2018-08-20 2021-10-14 Hyper Poland Electro S.A. Magnetic levitation railway system

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3926401A1 (de) * 1989-08-10 1991-02-14 Klaue Hermann Elektrisches energie- und verkehrssystem
US5513573A (en) * 1995-08-25 1996-05-07 Sutton; Gary E. Method and apparatus for global rapid transit
WO1999019195A1 (fr) * 1997-10-10 1999-04-22 Oster Daryl G Transport par tubes sous vide
WO2016126495A1 (fr) * 2015-02-08 2016-08-11 Hyperloop Technologies, Inc Système de transport

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE3926401A1 (de) * 1989-08-10 1991-02-14 Klaue Hermann Elektrisches energie- und verkehrssystem
US5513573A (en) * 1995-08-25 1996-05-07 Sutton; Gary E. Method and apparatus for global rapid transit
WO1999019195A1 (fr) * 1997-10-10 1999-04-22 Oster Daryl G Transport par tubes sous vide
WO2016126495A1 (fr) * 2015-02-08 2016-08-11 Hyperloop Technologies, Inc Système de transport

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20210316616A1 (en) * 2018-08-20 2021-10-14 Hyper Poland Electro S.A. Magnetic levitation railway system

Also Published As

Publication number Publication date
LU100160B1 (de) 2018-10-15
DE112018001839A5 (de) 2019-12-12

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