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Prepared By:
Tahera Mirza
MODES OF TRANSPORTATION
1. RAIL relatively slow and expensive
2. ROAD relatively slow
3. WATER relatively slow
4. AIR fast...
What is HYPERLOOP?
 Hyperloop is a new mode of transportation?
 A high speed train that promises travel at twice the
spe...
WHOSE IDEA?
 It is proposed by
ELON MUSK
American Business
magnate, investor,
and inventor. He is
currently the CEO &
CTO...
CONCEPT OF HYPERLOOP
 Elon Musk proposed the Hyperloop as an alternative to
the costly California “high speed” rail
 A H...
 Hyperloop consists of a low pressure tube with
capsules that are transported at both low and high
speeds throughout the ...
 Hyperloop will serve as a form of greenn
transportation as the energy requirements will be met
through Solar energy whic...
Components of HYPERLOOP
CAPSULE
 The maximum width of the capsule is 4.43 ft (1.35 m) and
maximum height is 6.11 ft (1.10 m). With rounded corner...
TUBE
 The tube is made of steel.
 Solar arrays will cover the top of the tubes in order to
provide power to the system.
...
TUBE CONSTRUCTION
 The tube will be supported by pillars.
 Average spacing is 30m between each pillar.
 There will be r...
PROPULSIONS
 Linear accelerators are constructed along the length of
the tube at various locations to accelerate the caps...
PROPULSIONS
SWOT Analysis
STRENGTHS
Economical to build and operate
made using extant technologies
safe and eco-friendly.
WEAKNESS
Inv...
SAFETY
 Capsule Depressurization
 Capsule stranded in Tube
 Earthquakes
 Reliability
BENEFITS
 Safer
 Fast (air)
 Lower cost at this kind of speed
 More convenient
 Immune to weather
 Sustainable (uses...
LIMITATIONS
 When we use less pressure instead of vacuum then we
need to increase the diameter of tube or go slow or
real...
SUMMARY
 A high speed transportation system known as Hyperloop
introduced here.
 The concept of Hyperloop.
 Its basical...
Hyperloop project
Hyperloop project
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Hyperloop project

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Project Hyperloop by Elon Musk.

Publicado en: Tecnología
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Hyperloop project

  1. 1. Prepared By: Tahera Mirza
  2. 2. MODES OF TRANSPORTATION 1. RAIL relatively slow and expensive 2. ROAD relatively slow 3. WATER relatively slow 4. AIR fast and expensive
  3. 3. What is HYPERLOOP?  Hyperloop is a new mode of transportation?  A high speed train that promises travel at twice the speed of commercial aircraft, transporting passengers from Los Angeles to San Francisco in just 30 minutes.
  4. 4. WHOSE IDEA?  It is proposed by ELON MUSK American Business magnate, investor, and inventor. He is currently the CEO & CTO of SpaceX and CEO & Chief Product Architect of Tesla Motors.
  5. 5. CONCEPT OF HYPERLOOP  Elon Musk proposed the Hyperloop as an alternative to the costly California “high speed” rail  A Hyperloop would be ‘an elevated, reduced-pressure tube that contains pressurized capsules driven within the tube by a number of linear electric motors.  The system can achieve an average speed of 598 mph (962 km/h), and a top speed of 760 mph (1,220 km/h).
  6. 6.  Hyperloop consists of a low pressure tube with capsules that are transported at both low and high speeds throughout the length of the tube.
  7. 7.  Hyperloop will serve as a form of greenn transportation as the energy requirements will be met through Solar energy which will make it energy efficient.
  8. 8. Components of HYPERLOOP
  9. 9. CAPSULE  The maximum width of the capsule is 4.43 ft (1.35 m) and maximum height is 6.11 ft (1.10 m). With rounded corners, this is equivalent to a 15 ft² (1.14m²) frontal area, not including any propulsion or suspension components.  One important feature of the capsule is the onboard compressor, which serves two purposes . This system allows the capsule to traverse the relatively narrow tube without choking flow that travels between the capsule and the tube walls.  By compressing air that is bypassed through the capsule. It also supplies air to air bearings that support the weight of the capsule throughout the journey.
  10. 10. TUBE  The tube is made of steel.  Solar arrays will cover the top of the tubes in order to provide power to the system.  The tube cross-sectional area is 42.2 ft² (3.91 m2) giving a capsule/tube area ratio of 36% or a diameter ratio of 60%.
  11. 11. TUBE CONSTRUCTION  The tube will be supported by pillars.  Average spacing is 30m between each pillar.  There will be roughly 25000 pillars for a distance of 680 kilometers • Built using reinforced concrete .  Tunneling mountains to kept the route straight.
  12. 12. PROPULSIONS  Linear accelerators are constructed along the length of the tube at various locations to accelerate the capsules.  Stators are located on the capsules to transfer momentum to the capsules via the linear accelerators.  Capsules are accelerated by linear magnetic induction and decelerated by regenerative braking similar to magnetic levitation trains.  The Hyperloop uses a linear induction motor to accelerate and decelerate the capsule. This provides several important benefits over a permanent magnet motor
  13. 13. PROPULSIONS
  14. 14. SWOT Analysis STRENGTHS Economical to build and operate made using extant technologies safe and eco-friendly. WEAKNESS Inventor cannot complete alone no working prototype for testing. Infrastructure will take time. OPPORTUNITIES More efficient than air under 900 ml ideal frequent travelers open source model, collaboration. THREATS Societal resistance to change California’s high speed rail established modes of transit. S W O T P O S I T I V E INTERNAL N E G A T I V E EXTERNAL
  15. 15. SAFETY  Capsule Depressurization  Capsule stranded in Tube  Earthquakes  Reliability
  16. 16. BENEFITS  Safer  Fast (air)  Lower cost at this kind of speed  More convenient  Immune to weather  Sustainable (uses solar power)  Resistant to earthquakes  Decrease the traffic  Decrease the frictional losses that occur at subsonic speed
  17. 17. LIMITATIONS  When we use less pressure instead of vacuum then we need to increase the diameter of tube or go slow or really , really fast.  But increasing speed that high will become very much expensive.  A battery can’t store enough energy to power fan over whole journey so a linear electric motor, a round induction motor rolled flat is provided.
  18. 18. SUMMARY  A high speed transportation system known as Hyperloop introduced here.  The concept of Hyperloop.  Its basically magnetic levitation train in vacuum tubes helping in achieving high speeds. Using conventional magnetic levitation systems.  Whose idea!  Components of Hyperloop  SWOT analysis of Hyperloop  It has various advantages over traditional transport system.  Thus it also has some limitations.

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