The aim of this study is to introduce an overall methodology for re-usable space launch systems with the primary aim of space tourism.
Current Status
Currently, it is entirely on Ideation level and we have not registered the entity (Private Limited).
Problem or Opportunity
The problem regarding Human Spaceflight. We use a rocket that weighs 20 lakh Kg just to deploy a satellite that weighs around 6000 Kg. If we consider a human weight of 100 Kg, still we are capable of taking 60 people at once by using GSLV Mark 3. But the problem is, it cannot be done by the Vertical launch due to a lot of fuel requirements. Also, we have a payload capacity but not the carrying capacity. Building carrying capacity for 100 people on the vertical launch is next to impossible.
Solution (product or service)
With the advent of modern space flight, a completely new space tourism industry has been growing rapidly. A notable hurdle, however, is the few launch pads that significantly limit the spread of the industry. To this end, we propose a horizontal take-off and horizontal landing space launch system which eliminates the requirement for specialized launch facilities and equipment. The proposed spacecraft would be able to carry up to 100 passengers and would serve the primary industry of space tourism.
Competitors
Global Competitors: Seira Space, Virgin Galactic and Radian Aerospace. National Competitors: NA
Advantages or differentiators
Initiating space tourism at an affordable cost by offering people an elegant
experience of space.
Business model
Team - Prototype development on Solid works software and website building (Next 12 months) - Pre-revenue, MVP for non-human autonomous pilot test and emergency escape test (EET) (Next 24 months) - Revenue and Human Spaceflight Test with all the passengers on boarded (Next 36 months) - Space tourism begins (After 36 months), customer: Billionaire and millionaire and ticket price: $14999