Our Product.
Over the past 60 years, outer space exploration has inspired humankind, who has developed cutting-edge technology to perform experimental research. However, student-led research groups still struggle to successfully send research payloads to space, due to high costs or extended timeline.
Renaissance Rocket Payload Bay is a cost-effective mechanical device which hosts small-scale biological experiments that fly on rockets to space to make student-led space biological experimentation more accessible.
Our user-friendly design employs active temperature control to maximize research reliability and success, as well as extensive modularity to adapt to the dimensional constraints of space payloads. We hope that our project will make space research more ubiquitous and cut the high-cost barriers to small space research groups.
Cutting Edge Engineering
SYstem Architecture
The System Features Structural Struts, and mating interfaces to the rocket, an electronics bay, and a thermally-controlled payload bay to ensure success of the experiment.
Seamless User Experience
Insert Payload in the Thermal Cage
Insert Module in the Payload Bay and Fasten Bolts
Mount Structural Strut and Fasten
Mount Renaissance on to the Sounding Rocket
Our Prototypes
Storytelling
Structural Struts Mated to the Rocket
Close-Up of the Payload Interface and Thermal Control System
Consulting
Close-up of the Heat Distribution System and Forced Convective Cooling
Our Mission
We are on a mission to make small-scale biological space research more ubiquitous through our modular rocket payload bay, which cuts costs and timeline of operations, effectively putting down the barriers to the pursuit of small-scale space research.
Core Values
Innovation
We are on a mission to be innovative and pursue mankind's bigger goal of aerospace scientific research
Transparency
Our analysis package is carefully reviewed by our Chief Analysis Officer Talha Ozemre to make sure that your experiment and your work is safe in Space.
Accessibility
We are on a mission to make aerospace research cheaper and faster, thus improving accessibility to resources for small research groups.