Hyperloop
by Raghvendra Agarwal
1. Capsule
1.1. 28 passengers
1.2. 3 automobiles
1.3. Air bearings support
1.4. Compressor
2. Route
2.1. SF to LA
3. Safety and Reliability
3.1. On board passenger emergency
3.2. Power outage
3.3. Capsule Depressurization
3.3.1. Included
3.3.2. Included
3.3.3. Excluded
3.4. Reliability
3.5. Human Related Incidents
3.6. Earthquakes
3.7. Structural Integrity of the Tube in Jeopardy
3.8. Capsule Stranded in Tube
4. Tube
4.1. Steel
4.1.1. Project specifications
4.1.2. End User requirements
4.1.3. Action points sign-off
4.2. Pylons 30 m appart
4.2.1. Define actions as necessary
5. Propulsion
5.1. Linear accelerators
5.2. Rotors on capsule
6. Cost
6.1. Passenger
6.1.1. $6 billion
6.2. Passenger + Vehicle
6.2.1. $7.5 billion
7. Advantages
7.1. Safer
7.1.1. Dependencies
7.1.2. Milestones
7.2. Faster
7.2.1. Schedule
7.2.2. Budget
7.3. Lower cost
7.3.1. KPI's