Redwater: Extraction of water from mars’ ice deposits

Honeybee Robotics has designed, built, and tested a TRL4/5 system known as RedWater, intended to drill into the surface of Mars and melt/extract water from locations identified by the Shallow Subsurface Radar, SHARAD. RedWater combines proven terrestrial technologies to extract water from the subsur...

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Published in:ASCEND 2021
Main Authors: Palmowski, Joseph, Zacny, Kris, Mellerowicz, Boleslaw, Vogel, Brian, Bocklund, Andrew, Stolov, Leo, Yen, Bernice, Sabahi, Dara, Ware, Lilly, Ridilla, Albert, Nguyen, Huey, Susante, Paul van, Johnson, George, Putzig, Nathaniel E., Hecht, Michael
Format: Text
Language:unknown
Published: Digital Commons @ Michigan Tech 2021
Subjects:
Rodriguez
Antarc*
Antarctica
Ice Sheet
Online Access:https://digitalcommons.mtu.edu/michigantech-p/15612
https://doi.org/10.2514/6.2021-4038
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spelling ftmichigantuniv:oai:digitalcommons.mtu.edu:michigantech-p-34916 2023-05-15T13:31:55+02:00 Redwater: Extraction of water from mars’ ice deposits Palmowski, Joseph Zacny, Kris Mellerowicz, Boleslaw Vogel, Brian Bocklund, Andrew Stolov, Leo Yen, Bernice Sabahi, Dara Ware, Lilly Ridilla, Albert Nguyen, Huey Susante, Paul van Johnson, George Putzig, Nathaniel E. Hecht, Michael 2021-01-01T08:00:00Z https://digitalcommons.mtu.edu/michigantech-p/15612 https://doi.org/10.2514/6.2021-4038 unknown Digital Commons @ Michigan Tech https://digitalcommons.mtu.edu/michigantech-p/15612 https://doi.org/10.2514/6.2021-4038 Michigan Tech Publications text 2021 ftmichigantuniv https://doi.org/10.2514/6.2021-4038 2022-01-23T10:55:20Z Honeybee Robotics has designed, built, and tested a TRL4/5 system known as RedWater, intended to drill into the surface of Mars and melt/extract water from locations identified by the Shallow Subsurface Radar, SHARAD. RedWater combines proven terrestrial technologies to extract water from the subsurface Martian ice. Rodriguez Wells, or RodWells, are a type of water well employed in Antarctica to maintain large pools of liquid water within an ice sheet and pumping water to the surface while heating and recirculating a portion to facilitate continuous well growth. RedWater also repurposes coiled tube drilling technology, which uses a thin-walled metal or composite tube to drive a bottom hole assembly into a borehole; the coiled tube itself is wound onto a drum and deployed by an injector system which transmits the required drilling forces through the tube as it is driven down. The combination of these two technologies with Honeybee’s existing rotary percussive drilling and pneumatic transport technologies make for an efficient means of producing large quantities of liquid water on Mars. Honeybee is currently working on evolving this technology to TRL6 and will be conducting end-to-end TVAC testing in 2022. Text Antarc* Antarctica Ice Sheet Michigan Technological University: Digital Commons @ Michigan Tech Rodriguez ENVELOPE(-56.720,-56.720,-63.529,-63.529) ASCEND 2021
institution Open Polar
collection Michigan Technological University: Digital Commons @ Michigan Tech
op_collection_id ftmichigantuniv
language unknown
description Honeybee Robotics has designed, built, and tested a TRL4/5 system known as RedWater, intended to drill into the surface of Mars and melt/extract water from locations identified by the Shallow Subsurface Radar, SHARAD. RedWater combines proven terrestrial technologies to extract water from the subsurface Martian ice. Rodriguez Wells, or RodWells, are a type of water well employed in Antarctica to maintain large pools of liquid water within an ice sheet and pumping water to the surface while heating and recirculating a portion to facilitate continuous well growth. RedWater also repurposes coiled tube drilling technology, which uses a thin-walled metal or composite tube to drive a bottom hole assembly into a borehole; the coiled tube itself is wound onto a drum and deployed by an injector system which transmits the required drilling forces through the tube as it is driven down. The combination of these two technologies with Honeybee’s existing rotary percussive drilling and pneumatic transport technologies make for an efficient means of producing large quantities of liquid water on Mars. Honeybee is currently working on evolving this technology to TRL6 and will be conducting end-to-end TVAC testing in 2022.
format Text
author Palmowski, Joseph
Zacny, Kris
Mellerowicz, Boleslaw
Vogel, Brian
Bocklund, Andrew
Stolov, Leo
Yen, Bernice
Sabahi, Dara
Ware, Lilly
Ridilla, Albert
Nguyen, Huey
Susante, Paul van
Johnson, George
Putzig, Nathaniel E.
Hecht, Michael
spellingShingle Palmowski, Joseph
Zacny, Kris
Mellerowicz, Boleslaw
Vogel, Brian
Bocklund, Andrew
Stolov, Leo
Yen, Bernice
Sabahi, Dara
Ware, Lilly
Ridilla, Albert
Nguyen, Huey
Susante, Paul van
Johnson, George
Putzig, Nathaniel E.
Hecht, Michael
Redwater: Extraction of water from mars’ ice deposits
author_facet Palmowski, Joseph
Zacny, Kris
Mellerowicz, Boleslaw
Vogel, Brian
Bocklund, Andrew
Stolov, Leo
Yen, Bernice
Sabahi, Dara
Ware, Lilly
Ridilla, Albert
Nguyen, Huey
Susante, Paul van
Johnson, George
Putzig, Nathaniel E.
Hecht, Michael
author_sort Palmowski, Joseph
title Redwater: Extraction of water from mars’ ice deposits
title_short Redwater: Extraction of water from mars’ ice deposits
title_full Redwater: Extraction of water from mars’ ice deposits
title_fullStr Redwater: Extraction of water from mars’ ice deposits
title_full_unstemmed Redwater: Extraction of water from mars’ ice deposits
title_sort redwater: extraction of water from mars’ ice deposits
publisher Digital Commons @ Michigan Tech
publishDate 2021
url https://digitalcommons.mtu.edu/michigantech-p/15612
https://doi.org/10.2514/6.2021-4038
long_lat ENVELOPE(-56.720,-56.720,-63.529,-63.529)
geographic Rodriguez
geographic_facet Rodriguez
genre Antarc*
Antarctica
Ice Sheet
genre_facet Antarc*
Antarctica
Ice Sheet
op_source Michigan Tech Publications
op_relation https://digitalcommons.mtu.edu/michigantech-p/15612
https://doi.org/10.2514/6.2021-4038
op_doi https://doi.org/10.2514/6.2021-4038
container_title ASCEND 2021
_version_ 1766022538380443648

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