McCandless Lunar Lander explained

McCandless Lunar Lander
Manufacturer:Lockheed Martin
Designer:Lockheed Martin
Country:United States
Operator:Lockheed Martin
Applications:Commercial cargo lander
Spacecraft Type:Robotic lunar lander
Design Life:1 lunar day (14 Earth days)
Payload Capacity: [1]
Power:400 W from a single solar array on a boom
Length:Height: >
Status:Designed
Built:0
Orders:0
Stagedata:
Derivedfrom:Phoenix and InSight landers

McCandless Lunar Lander, also known as the McCandless Lunar Delivery Service, is a concept for a robotic lunar lander proposed as one of the commercial cargo vehicles for NASA's Commercial Lunar Payload Services (CLPS). The lander was proposed to NASA for funding by the aerospace company Lockheed Martin, and it is based on the successful Mars landers Phoenix and InSight.

Overview

On 29 November 2018, NASA announced the first nine companies, including Lockheed Martin, that are allowed to bid on contracts by the Commercial Lunar Payload Services (CLPS).[2] These contracts are indefinite delivery, indefinite quantity contracts with a combined maximum contract value of $2.6 billion during the next 10 years.[2] The contracted landers will transport commercial payloads focused on exploration, in situ resource utilization (ISRU), and lunar science.

The McCandless lander is named in honor of the late astronaut and former Lockheed Martin employee Bruce McCandless II, who in 1984 performed the first free-flying spacewalk without a lifeline to the orbiting Space Shuttle, using a jetpack built by the company.[3]

Spacecraft

The McCandless lander design is based on the successful Phoenix and InSight Mars landers, designed and built by Lockheed Martin for NASA.[4] The lander is being proposed to the new Commercial Lunar Payload Services program (CLPS) to deliver to the lunar surface up to of usable payload,[5] [1] including stationary scientific instruments, small deployable rovers, ISRU experiments, or even sample-return vehicles.[4] [1]

The lander's system incorporates on-board radars and a set of rocket thrusters for deceleration and soft-landing. It will not need the aeroshell and heat shield, as the Moon has no atmosphere. The lander is presently designed to operate for one lunar day (14 Earth days), but upgrades for enduring the lunar nights can be considered depending on mission requirements.[1]

Notes and References

  1. "Lockheed Martin's McCandless Lunar Lander Capabilities for ISRU Missions." Joshua B. Hopkins, David W. Murrow, Stuart Wiens, and Timothy Linn. Lunar ISRU 2019: Developing a New Space Economy Through Lunar Resources and Their Utilization. July 15-17, 2019, Columbia, Maryland.
  2. Web site: NASA Announces New Partnerships for Commercial Lunar Payload Delivery Services . NASA.GOV . 29 November 2018 . NASA . November 29, 2018.
  3. https://www.denverpost.com/2018/11/30/next-moon-lander-colorado/ Next moon lander could be made in Colorado
  4. https://finance.yahoo.com/news/lockheed-martin-selected-nasas-commercial-192300235.html Lockheed Martin Selected for NASA's Commercial Lunar Lander Payload Services Contract
  5. https://spacenews.com/nasa-selects-nine-companies-for-commercial-lunar-lander-program/ NASA selects nine companies for commercial lunar lander program