November 22, 2024

NASA Seeks Industry Proposals for Next-Generation Lunar Rover

NASA envisions the LTV as a hybrid rover efficient in uncrewed and crewed operations, which will permit constant science exploration on the lunar surface. For crewed operations, the LTV will permit astronauts the capability to both explore the lunar surface area and transport devices that would otherwise be impeded by the restricted moonwalk distances. For uncrewed operations, the LTV would have the ability to be from another location run for both clinical and transportation needs, just like NASAs Curiosity and Perseverance rovers presently checking out Mars.

” We want to utilize markets knowledge and innovation, integrated with NASAs history of effectively operating rovers, to make the very best possible surface rover for our astronaut crews and scientific scientists,” Lara Kearney, who is the supervisor of NASAs Extravehicular Activity and Human Surface Mobility program at NASAs Johnson Space Center, stated in the declaration.

As Artemis II prepares yourself to release in November 2024, NASA recently announced it is pursuing contract proposals from private business for the advancement of a next-generation Lunar Surface Vehicle (LTV) to be used for crewed missions starting with Artemis V, which is presently scheduled for 2029. NASA has actually set a due date for the propositions of July 10, 2023, at 1:30 pm Central Time, with the statement for rewarded agreements to take place in November 2023.

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NASA imagines the LTV as a hybrid rover capable of crewed and uncrewed operations, which will enable for continuous science exploration on the lunar surface. For crewed operations, the LTV will allow astronauts the capability to both check out the lunar surface and transportation devices that would otherwise be hindered by the limited moonwalk ranges. The LTV is slated to be a substantially advanced version of the lunar roving car (LRV) utilized on Apollo 15, 16, and 17. The LRV didnt experience severe temperature level modifications as the LTV will endure at the lunar south pole for Artemis. The LTV will unquestionably be sturdier, too, as Apollo 17 lost one of its LRV fender extensions throughout one trip, whose function was to avoid lunar dust from getting on the lorry instruments.

Artist rendition of NASAs next-generation Lunar Terrain Vehicle passing through the lunar surface. (Credit: NASA).
The requirements for the proposals are extremely in-depth, as NASA is requesting that all business provide details ranging from LTV advancement to lunar surface area operations, together with seating requirements of two team members, scientific payloads such as a robotic arm or other gadget, and how the LTV will survive the severe temperature level changes at the south pole.
Why the lunar south pole?
The lunar south pole was selected due to its completely shadowed regions (PSRs), which, as the name suggests, are areas, particularly craters, on the Moon that receive absolutely no sunlight, and researchers believe this has been the case for the last couple of billion years. Given that the Moon has no environment, liquid water cant exist on its surface area, however these completely darkened craters have actually been found to consist of traces of water ice that have actually accumulated over the eons, which can be utilized on Artemis objectives without the need for continuous resupply from Earth.

The Artemis missions are slated to take place on the south pole of the Moon, suggesting the LTV will withstand severe temperatures changes as it passes through locations of consistent sunshine and constant darkness during any operations. Thus, the LTV will need to be geared up with more innovative systems than what are generally utilized on such rovers, including protecting from the extreme environments, semi-autonomous driving capabilities, and advanced power management and communication and navigation systems.

The Apollo 17 lunar rover fender was fixed utilizing duct tape and laminated maps, and the Artemis LTV will certainly have to be sturdier. (Credit: NASA).
As stated, the LTV isnt scheduled to be utilized until Artemis V in 2029, so the business chosen to construct the LTV has a couple of years before its to be used on the Moon. In the meantime, Artemis II is scheduled for a 10-day orbital objective around the Moon in November 2024, followed by Artemis III in 2025 and Artemis IV in 2028.
How will the LTV enhance operations for the Artemis missions in the coming years and decades? Just time will inform, and this is why we science!
As always, keep doing science & & keep searching for!
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Structure off Apollo.
The LTV is slated to be a substantially advanced variation of the lunar roving automobile (LRV) used on Apollo 15, 16, and 17. While that lorry likewise carried 2 astronauts and permitted for a higher quantity of scientific expedition than moonwalks could accomplish, the LRV could just be used for crewed operations, as remote operations for a rover was still decades away. Also, the LRV only experienced permanent sunlight, as all Apollo objectives were performed during the lunar day to allow for much better surface area operations. For that reason, the LRV didnt experience severe temperature level modifications as the LTV will withstand at the lunar south pole for Artemis. For the three missions, the LRV passed through distances of 27.76 km (17.25 mi), 26.55 km (16.50 mi), and 35.89 km (22.30 mi), respectively, and the LTV will certainly be designed to exceed these numbers for the Artemis objectives.

Image of Apollo 17 objective leader Eugene A. Cernan performing a brief checkout of the LRV throughout the mission. Similar to the Artemis LTV, the Apollo LRV was likewise developed to seat two astronauts. (Credit: NASA).
The LTV will unquestionably be tougher, too, as Apollo 17 lost one of its LRV fender extensions throughout one outing, whose purpose was to prevent lunar dust from getting on the automobile instruments. Without the fender, big amounts of lunar dust would be thrown up (which the astronauts called “rooster tails”), making it almost impossible to utilize the LRV, as the lunar dust would collect heat from the Sun and possibly harm the instruments from the increased temperatures.

Map displaying the permanently shadowed regions (blue) on the Moon that incorporate roughly three percent of the lunar south pole. (Credit: NASA Goddard/Lunar Reconnaissance Orbiter mission).