Net Launcher to Capture Space Debris

This is an overview. Detail design information is at the bottom of the page.

Introducing my senior design capstone project, sponsored by the University of Colorado, Boulder, and Sierra Space.

 

I worked with a team of 7 other engineering students on this project. My official role was financial manager, sucessfully keeping us on budget, managing lead times, and procuring goods. Additionally, I worked the conceptual design and CAD for the winch gearbox, launch mechanism, damping mechanism, and structural plates. I also designed and manufactured all 3D printed components (White polycarbonate). 

 

I'm incredibly grateful to have been a part of such an amazing team. My teammates allowed me to focus on what I do best by handling the PowerPoint slides, written reports, coding, custom PCB and wiring, risk analysis, testing, and so much more.

The Problem

Space debris poses an active threat to satellites, spacecraft, and future crewed space missions.​ It is in the best interest of both SV designers and LV providers to address this threat before the problem compounds.

 

Without intervention, Earth’s orbit may experience Kessler Syndrome - when debris collision creates a chain reaction, resulting in a debris cloud too dense to travel through. 

Requirement Definition

The team worked closely with Sierra to refine requirements.

 

To meet schedule and budget constraints, the scope was modified to remove GEVs, T-Vac, and Vibe. The end product was defined as an earth-based prototype capable of demonstrating mechanical functionality.

 

Concise, verifiable requirements and transparent communication established challenging yet achievable deliverables.

Con-Ops

If the debris were stationary relative to the capture vehicle, a net launcher would be overkill. You'd use an arm or a claw. Unfortunately, even if the SV can match the orbit/translation of the debris, it's still rotating about 3 axes. The challenge isn't capture, it's dissipating the angular momentum of an uncontrolled RSO (Resident Space Object).

 

The slides below walk through our concept of operations. Detail design information at the bottom of the page.

Winch

A winch is a common device used by many industries. We would have preferred a COTS winch, but couldn't find one that satisfied our size, torque, and speed constraints.

Launcher

A spring-powered, simultaneous-release mechanism that shoots 6 weights. These weights are tethered to a net large enough for RSO capture. Safety was the primary concern for this subsystem.

Damping

A rotational braking clutch mechanism. As the winch pulls in line, friction increases.