Hyperloop Diagram

Hyperloop diagram – The hyperloop diagram displays the fundamentals of this new transportation technology. Is Hyper loop the transportation of the future over long distances? This may well be the case given its potential. Elon Musk played a key role in invention of the hyperloop concept.

Hyperloop’s key components are as follows the capsule, compressor, vacuum tube, propulsion, air bearings and the actual payload. Compressor is a giant fan on the front of the capsule and is what makes the hyperloop possible, transferring huge volumes of air away from the nose. Without it, the pod would be pushing all the air in front of it, which would make it a lot more expensive including the need to develop a bigger tube.

Speaking of the vacuum tube, capsule will travel in a near vacuum to reduce drag significantly. Valves and pumps will keep internal air pressure at about 100 Pascals or one-thousandth the air pressure at sea level. Nitrogen could be injected into the tube as well.

Propulsion: the Hyperloop capsule speeds along a magnetic river propelled by linear induction motors spaced along the tube or installed as a continuous strip. Linear induction, used on maglev trains has no moving parts and low maintenance costs.

Air bearings – the capsule will use cushion of air pumped from the bottom of lunch-tray-size sleds. Landing gear may need to be deployed as it comes to a stop.

Hyperloop payload will be a capsule of about 70 feet long, big enough to hold standard 40 foot container. The capsule could accelerate from 0 to 750 mph in less than 60 seconds.