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Masten’s Rocket Mining System

Artist depiction of a lander descending to the lunar surface carrying a rover housing Masten’s Rocket Mining System. Credits: Masten Space Systems

Called RocketM for Resource Ore Concentrator using Kinetic Energy Targeted Mining, Masten Space Systems has partnered with Honeybee Robotics and Lunar Outpost to design a novel system for blasting ice out of lunar regolith for ISRU under NASA’s Break the Ice Lunar Challenge program.

Lunar Outpost rover decending to the lunar surface down a ramp deployed off a Masten lander. Credits: Masten Space Systems

RocketM equipment would be housed aboard a Lunar Outpost rover delivered to lunar surface via Masten’s lunar lander. After unloading, the rover would be robotically navigated by a geologic team to an excavation site in the Aitken Basin near the Moon’s south pole. Upon arrival over the target area, the RocketM dome is extended down to the surface to create a seal over the regolith. A rocket is then ignited in a series of 1/2 second pulses fluidizing the regolith into icy grains which are conveyed out of the dome via a Honeybee Robotics PlanetVac pneumatic sampling system for processing. Beneficiation of the particles is accomplished using an Aqua Factorem process for separation into purified ice and other useful components. Aqua Factorem has been covered by SSP in a previous post. The whole process would only take 5-10 minutes.

A view of the inner workings of RocketM showing a centrally located pressure dome extending down to form a seal on the lunar surface. Credits: Masten Space Systems
Cutaway view showing a 100lb thrust rocket engine firing half-second bursts to heat the regolith to a depth of 2 meters releasing icy grains for processing to extract water. Credits: Masten Space Systems.

The stored water can subsequently be electrolyzed using solar energy into hydrogen and oxygen for lunar operations. What is so exciting about this ISRU system is that the rocket engine can be refueled by the mined products enabling an estimated useful life of 5 years.

Masten has tested the system using simulated lunar regolith providing groundwork toward optimizing conditions within the pressure dome. Further testing is needed at the system level to validate flight readiness.

As stated on Masten’s blog: “Usable as drinking water, rocket fuel, and other vital resources, lunar ice extraction is critical to maintain a sustained presence on the Moon and allow future missions to Mars and beyond. It can also be used in conjunction with other volatiles found in lunar regolith, such as oxygen and methane, to support energy, construction, and manufacturing needs. There’s a lot of promise – water excavation is just step one!”

Watch Masten’s video describing the system.

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2020 NIAC Symposium showcases cutting edge technology for space development

Illustration of SPEAR (Swarm Probe Enabling ATEG Reactor), an affordable nuclear electric propulsion spacecraft using a custom designed fission reactor. Credits: Troy Howe, Howe Industries LLC

The 2020 NASA Innovative Advanced Concepts (NIAC) Symposium just rapped up it’s virtual event. The NAIC Program supports early studies of visionary concepts in space and aeronautics that develop and assess revolutionary, yet credible, aerospace architecture, mission, and system concepts. These studies showcase ideas that will enable far-term capabilities, and spawn exciting innovations to radically improve aerospace exploration, science, and operations.

There were a wealth of new ideas presented at this year’s meeting with Phase I, II, and III posters and presentations available as PDFs on the NAIC Symposium website. To give you a taste, above is an illustration of Howe Industries’ Phase II concept for a small, affordable nuclear electric propulsion spacecraft using a custom designed fission reactor with advanced thermoelectric generators (ATEGs). The innovative design would allow private entities, universities, or other interested parties to carry out missions across the solar system at relatively low cost.

Another favorite of ours was Trans Astronautica’s Mini Bee asteroid capture concept in which they will deploy, then chase down and “swallow” a test object in LEO as a precursor to an asteroid mining mission.

Illustration of Trans Astronautica Corporation’s Mini Bee spacecraft chasing down and capturing an artificial asteroid in LEO. Credits: Joel Sercel / Trans Astronautica Corporation

Some of these NIAC grants have already been covered by SSP such as Phil Metzger’s Aqua Factorem lunar water harvesting process, Masten’s instant lunar landing pad and Trans Astronautica Corporation’s Lunar Polar Propellant Mining Outpost.

We leave you with JPL’s Enceladus Vent Explorer

Illustration of Enceladus Vent Explorer concept. Credits: Masahiro (Hiro) Ono / Jet Propulsion Laboratory
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Masten’s instant lunar landing pad

The Movave, CA company has just received a NASA Innovative Advanced Concepts (NIAC) Phase I grant to develop an innovative method to mitigate damaged due to abrasion from high-velocity regolith ejected by lunar lander exhaust. Masten’s Flight Alumina Spray Technique (FAST) injects alumina particles into the rocket plume to create a coating over the regolith at the landing site.

FAST instant landing pad deployment during lunar landing. Source: Matthew Kuhns,
Masten Space Systems Inc