Notional MADV on the surface of Mars (Credit: Lockheed Martin) |
At the 68th International Astronautical Congress, held in Australia last September, Lockheed Martin unveiled a remarkable new extraterrestrial spacecraft concept. The single staged space vehicle would be capable of landing either unmanned or crewed on the surfaces of the Moon or Mars. The MADV (Mars Ascent/Descent Vehicle) would be a propellant depot dependent spacecraft fueled with liquid oxygen and liquid hydrogen. And the MADV would be capable of transporting four member crews to the surfaces of the Moon or Mars.
MADV (Mars Ascent/Descent Vehicle)
Propellant: 80 tonnes of LOX/LH2
Inert weight: 30 tonnes
Engines: 6 RL-10 engines
Maximum delta v capability: 6.0 km/s
Crew: Up to four astronauts
Notional MADV on the polar surface of the Moon (Credit: Lockheed Martin) |
However, the MADV's high delta-v capability (6 km/s) could also allow the spacecraft to be used as a crew transport within cis-lunar space. Utilizing pre-deployed propellant manufacturing water depots at LEO and EML1, the MADV could easily transport crews between LEO to EML1-- even with the addition of a crew hab (10 to 20 tonnes in mass) with protective shielding against heavy ions.
Notional MADV on top of an SLS Block IB (Credit: Lockheed Martin) |
1. Unmanned lunar lander for deploying mobile robotic vehicles and unmanned sample returns
2. A crewed lunar lander capable of traveling to the lunar surface and back to the propellant depots and Deep Space Habitats located at EML1-- on a single tank of fuel
3. Unmanned Mars lander for deploying mobile robotic vehicles for unmanned sample returns from the martian surface.
4. A crewed Mars lander capable of traveling from low Mars orbit to the martian surface and back to low Mars orbit-- on a single tank of fuel.
5. If fueled from a depot in high Mars orbit, it could land directly on the martian surface for Mars outpost operations.
6. If refueled from a depot near an outpost on the martian surface, the MADV could transport its crew all the way to a permanent habitat stationed in high Mars orbit.
7. A crewed orbital transfer vehicle capable of transporting astronauts from propellant depots located at LEO to propellant depots located at any of the Earth-Moon Lagrange points or in low lunar orbit.
8. The SLS Block IB could be utilized to transport the MADV to LEO with enough fuel to deploy itself anywhere within cis-lunar space (EML1, EML2, EML4, EML5, Low Lunar Orbit).
9. An SLS launched MADV could also arrive at LEO with enough propellant to transport itself all the way to propellant manufacturing water depots located in high Mars orbit.
Notional landing and take-off of the MADV to and from the surface of Mars (Credit: Lockheed Martin) |
Cis-Lunar Space Delta-V
LEO to EML1 (~2 days) - 4.41 km/s
LEO to EML1 (~4 days) - 3.77 km/s
EML1 to or from LLO - (~2 days) - 0.75 km/s
EML1 to or from LLO - (~3 days) - 0.64 km/s
LEO to LLO (~2 days) - 4.5 km/s
LEO to LLO (4 days) - 3.97 km/s
LLO to or from the Lunar surface - 1.87 to 2.2 km/s
Mars Delta-V
LMO (500 km circular orbit) EDL to Martian surface - 1.27 km/s
Mars surface to LMO (500 km circular orbit) - 4.2 km/s
HMO to or from LMO - 1.4 km/s
HMO to Martian surface via 500 km circular orbit - 2.67 km/s
Mars surface to HMO - 5.6 km/s
LEO to HMO - 5.2 km/s
LEO- Low Earth Orbit, EML1 - Earth-Moon Lagrange Point 1, LLO- Low Lunar Orbit, HMO - High Mars Orbit, LMO - Low Mars Orbit, EDL - Entry, Descent, and Landing
The development and deployment of the MADV still wouldn't negate the need for large unmanned cargo landing vehicles for the Moon and Mars. Such landing craft would be needed to deploy large and heavy habitats, vehicles and other large structures to the surfaces of the Moon and Mars and, eventually, to other worlds within the solar system.
But a single stage extraterrestrial landing vehicle such as the MADV should be faster and cheaper to develop than previous two stage crew concepts for the Moon and Mars. So Lockheed Martin's MADV could be a game changer as a reusable extraterrestrial vehicle capable of using a propellant depot architecture within cis-lunar space and beyond. And with its high delta-v capability, the MADV could also be the landing vehicle of choice for conveniently transporting humans to the surfaces of the Moon, Mars, Mercury, Callisto, and possibly even Saturn's moon, Titan, during the rest of the 21st century.
Links and References
Mars Base Updates and New Concepts
Lockheed Martin Mars Lander Ship Concept (Video)
Lockheed Martin Adds Lander to Mars Base ConceptOn Orbit Refueling: Supporting a Robust Cislunar Space Economy
Mars Base Camp (Video)
What is the HMO? Is it an elliptical orbit resulting from TMI with just enough aerobraking to capture into the Mars system or is it a circular orbit at some high km?
ReplyDeleteIs there a YouTube video of the LM IAC 2017 presentation? Thx.
ReplyDeleteA video simulation of the MADV landing on the Moon can be found towards the end of the Lockheed Martin Mars Base Camp video.
ReplyDeletehttps://players.brightcove.net/5483960636001/B1l6owAlYZ_default/index.html?videoId=5592519786001
Marcel
Lockheed Martin presented two orbital scenarios for the Mars Base Camp mission. One was a highly elliptical orbit and the other, a low circular Mars orbit.
ReplyDeleteI believe in a simple permanent, adequately radiation shielded, rotating artificial gravity (0.5 g) habitat orbiting Mars. So I prefer a-- high Mars orbit-- beyond that of Deimos. While such an orbit would exceed 1 sol (one martian day), its orbit should provide astronauts with much better navigational assistance when attempting to land on the martian surface. Telecommunications to the martian surface will be assisted by two networking telecommunications satellites in the same orbit, positioned to provide coverage of most martian regions beyond the polar caps.
Never been a fan of interplanetary aerobraking maneuvers for crewed missions to Mars. Interplanetary missions are risky enough already, IMO.
Thanks for your input.
Marcel
Hi Marcel,
ReplyDeleteI am wondering if you would be interested in reviewing an architecture which I have developed focused first upon the development of a cost-effective transportation system to the Moon. It goes on to describe the process towards early, small-scale settlement. I recently developed a website describing it: SpaceDevelopment.org. Might you like to write-up a review of it on your blog?
Thanks, Doug