Nanoracks (Voyager Space)

Nanoracks (Voyager Space)

Nanoracks (Voyager Space)

Nanoracks is the leading provider of commercial access to space with a global customer base

Created: 2018-11-01

Updated: 2024-02-03

Company - Nanoracks (Voyager Space)

Founded
Country
2009
USA,Italy
Funding
$165.5M+
Website
http://nanoracks.com/
Social
Nanoracks (Voyager Space)

Product/Service - NanoLab, Bishop

Classification
Miscellaneous
Category
ISS Utilization Service
Microgravity Flight Service (LEO)
Commercial ISS Airlock
Microgravity Research Payloads
Fields
Commercial ISS Module
Status
Active
First launch
2012

NanoLab

Core payload hardware is the NanoLab, a powerful box in the CubeSat form factor, measuring 10 cm by 10 cm by 10 cm. Every NanoLab has a circuit board that activates the experiment, turns it off and can be functioned for other activities. Customers have also deployed video cameras and a wide range of sensors inside NanoLabs.

Nanolabs are at the core of our philosophy: low-cost, open-sourced, standardized, miniaturized hardware that allows you, the customer, to focus more on the research rather than re-inventing the hardware ‘wheel” each time.

After being launched to the International Space Station (ISS), Nanolabs can be used for everything from building plant-growth chambers, studying DNA and radiation exposure, biology and biotechnology testing, materials and physical sciences, and more.

BLACKBOX

Remotely Commanded In-space Research Platform
We love working with the crew onboard the International Space Station (ISS) – but sometimes researchers want to use materials, chemicals, or biological agents that NASA deems just a bit too risky for the astronauts for manoeuvre themselves. So that’s why we built BlackBox!
BlackBox is a remotely commanded platform that has research fully integrated on the ground and completely contained from the astronaut crew. All the astronauts have to do is plug the entire locker-sized platform in on-orbit for power and data. BlackBox allows for multiple experiments to occur simultaneously.

PLATE READER & REACTOR MICROPLATES

In-space Chemistry and Life Science Research Hardware
Nanoracks’ Plate-Reader-2 (2nd generation) is a reconfigured Molecular Devices SpectraMax M5e – one of the most reliable, durable, feature-rich microplate readers on the market.
Plate Reader-2 features a wide range of high-performance multi-mode reader capabilities ideal for life science research on the International Space Station (ISS) including absorbance, fluorescence, time-resolved fluorescence, and fluorescence polarization modes with full spectral range detection.

ZERO G OVEN

What Will You Cook Up in Space?
The Zero G Kitchen Oven is the first-ever oven in space! Before the Zero G Oven, no food item had ever been cooked from the raw in space. The oven is a cylindrical-shaped insulated container designed to hold and bake sealed food samples in the microgravity environment of the International Space Station (ISS).
The oven allows food samples to be placed in a tray where they will be held steady inside the oven while baking occurs. A cooling rack is also integrated into the outside of the oven. The insulation and venting mechanisms allow the oven to operate safely in the controlled environment of the ISS.

MIXSTIX

Mixture Enclosure Tubes for Chemical and Biological Research
Nanoracks’ Mixstix are mixture enclosure tubes for fluids, materials, chemicals and biological substances – all kept separate until they are ready to be mixed in space. Single, double, or triple experiment sample segments are available.
The International Space Station (ISS) crew release the block on the chambers and shakes the tube to mix the materials. All Mixstix are 10 ml parylene coated silicon tubes. Mixstix can be stowed cold (+4°C), or ambient on launch, berth, pre/post operations, and on payload return to Earth.

ISS External Payload Platform

Standard / Economy Option
The Nanoracks External Platform (NREP) provides turnkey communication, power, and operations to hosted payloads mounted on the outside of the ISS.

ISS Bishop Payload Platform

Advanced / Large Option
The Nanoracks Bishop Airlock expands capabilities for larger, more advanced hardware, including an array of pointing options such as Ram, Wake, Zenith and Nadir.

Airlock Module (Bishop)

Nanoracks Bishop Airlock is the first permanent, commercial addition to the International Space Station (ISS) infrastructure. The Bishop Airlock offers 5x the current volume that can be moved in and out of the Space Station today.

Built and operated by Nanoracks, Bishop enables commercial utilization of the ISS to its fullest extent. Bishop’s unique bell-jar design allows this airlock to function in a multitude of ways, expanding the services we provide our customers every day in space. Bishop was designed to function today on the ISS, and tomorrow, detached and moved onto a Nanoracks Outpost.

Gambit

Announced in September 2023 the installation of a new, self-built payload, Gambit, to its Bishop Airlock on the International Space Station (ISS). This achievement marks a unique milestone for the Bishop Airlock, introducing advanced testing capabilities to its external payload sites, and setting the stage for enhanced utilization of the ISS.

The Bishop Airlock, launched in December 2020, is the first permanent, commercial addition to the ISS, and features six external payload sites. One of Gambit’s primary goals is to serve as a testing platform to demonstrate robotic transfer and installation processes at these external sites. Equipped with a suite of sensors, Gambit will also provide critical and detailed data on external payload operations. Its sensors will verify the functionality of the Bishop Airlock’s external sites and gather environmental data critical to future payloads. This data will be invaluable in ensuring the success of upcoming scientific missions and commercial endeavours, both poised to leverage these sites.

“Gambit’s successful installation is not only cause for celebration within the Voyager Space team, but also across the broader space industry,” said Matt Kuta, President, Voyager Space. “With its suite of sensors, robust data collection capabilities and innovative robotic development, Gambit exemplifies the potential of the Bishop Airlock’s external payload sites and enhances the ability of the ISS and future space stations, like Starlab, to conduct new, groundbreaking research and host exciting commercial ventures.”

Transported to the ISS within the pressurized stowage of NG-19 in 2023, Gambit was transferred from inside the station to the Bishop Airlock external site using the Nanoracks Payload Transfer Flight Support Equipment (FSE). Installation of Gambit was completed on August 28, 2023. Both the Bishop Airlock and Gambit were designed and built by Nanoracks, which was acquired by Voyager in 2020 and is now part of Voyager’s Exploration Segment.

“Thanks to the advanced robotics employed in the installation process, Gambit will be relocated to different external sites on a regular basis,” continued Kuta. “This strategic maneuvering will allow Gambit to capture a diverse range of data and images, enriching our understanding of the space environment today and into the future.”

Latest Northrop Grumman Cygnus Cargo Resupply Spacecraft Delivers Voyager Space Payloads to the International Space Station, 2024-02-02

Link

Product/Service - Outpost, Starlab

Classification
Space Stations & Habitats
Category
Commercial Space Station
Status
Development, Cancelled
First launch
2028

OUTPOST

Commercial Platforms in Orbit
The future of in-space infrastructure has arrived. Leveraging 10+ years of providing commercial in-space services, the Outpost program will transform used launch vehicle upper stages into controllable platforms across multiple orbits.

Imagine a future where Nanoracks-built hardware allows the empty fuel tank of any rocket to come back to life after its primary mission, but this time as a facility for robotic manufacturing, satellite servicing, a greenhouse, and more. Outposts are pillars of infrastructure-as-a-service in space, democratizing access while prioritizing orbital sustainability – what would otherwise become a discarded hunk of metal will live on as a versatile platform.

Each Outpost is brought to life by Nanoracks’ Mission Extension Kit (MEK), a hardware solution that provides power, pointing, data-handling, and communications for the Outpost. The MEK becomes the brains and heartbeat of the now-repurposed upper stage.

Nanoracks is now accepting payloads for our initial Outposts, first scheduled to fly in 2024. These Outposts will serve as persistent infrastructure for doing business in orbit.

Space Station (Starlab)

Nanoracks commercial low-Earth orbit destination, in collaboration with Voyager Space and Lockheed Martin, is called “Starlab.”

Starlab is planned to be the first continuously crewed, free-flying commercial space station. Leveraging innovative – yet known – technologies, Starlab will be a new-era global space platform dedicated to conducting advanced research, fostering industrial activity, and innovating in ways once only imagined.

Nanoracks’ commercial low-Earth orbit destination, in collaboration with Voyager Space and Lockheed Martin, is called “Starlab.” Starlab is targeted for launch in 2027 on a single flight as a continuously crewed, commercial space station dedicated to conducting advanced research, fostering commercial industrial activity, and ensuring continued U.S. presence and leadership in low-Earth orbit. Starlab is designed for four astronauts and will have power, volume, and a payload capability equivalent to the International Space Station.

Starlab will host the George Washington Carver Science Park featuring four main operational departments – a biology lab, plant habitation lab, physical science and materials research lab, and an open workbench area – to meet the needs of researchers and commercial customers for commercial space activities. The station will be built with flexible growth in mind, featuring interfaces both internal and external to the spacecraft to allow Nanoracks to expand the architecture as new demand sources are identified, and new markets emerge.

NASA awarded $130 million to develop designs of space stations and other commercial destinations in space.

Status Comment / Notes

Marking Starlab entry Cancelled to avoid multiple active Starlab entries.

Created: 2022-01-01

Updated: 2024-07-10

Link

Product/Service - Outpost Mars Demo-1

Classification
In-Space Manufacturing
Category
In-Space Manufacturing
In-Space Assembly
Fields
Large Space Structures
Status
Demonstrated
First launch
2022

In-Space Manufacturing

Nanoracks just made space construction and manufacturing history with the first demonstration of cutting metal in orbit. 

Outpost Mars Demo-1
Voyager and Nanoracks are excited to announce that our first Outpost demonstration mission (Outpost Mars Demo-1) is expected to launch this month aboard SpaceX’s Transporter 5 rideshare flight. This mission is part of our Outpost Program, which is focused on transforming used launch vehicle upper stages into uncrewed, controllable platforms. Nanoracks designed a self-contained hosted payload platform to demonstrate on-orbit, debris-free, robotic metal cutting.

Maritime Launch Services and Houston-based Nanoracks have signed an agreement to work on repurposing the upper stages of MLS's rockets — the parts of the vehicle that contained fuel and are released as it climbs into orbit. The company plans to use Cyclone 4M rockets, designed by Ukrainian company Yuzhnoye and manufactured by Yuzhmash.

Nanoracks made space construction and manufacturing history with the first demonstration of cutting metal in orbit. The technique could be critical for the next generation of large-scale space stations and even lunar habitats.

Status Comment / Notes

Being consolidated under Voyager Space brand as of early 2024.

Created: 2022-09-24

Updated: 2024-03-02

Link

Product/Service

Classification
In-Space Manufacturing
Category
In-Space Manufacturing
Status
Development
First launch
Not announced

ISRU and moon building: the role of sintering processes.

Nanoracks Europe (Nanoracks Space Outpost Europe) is directly involved in an ESA-funded project that aims to develop a technique for the sintering of regolith simulants using microwave technology with the aim of being able to produce two types of products: compact bricks, mechanically stable potentially suitable for structural purposes and others that have a certain density, a higher porosity, but equally mechanically stable, potentially usable as electrodes in electrolysis processes, such as for example oxygen extraction.

The company is part of XO Markets Holdings Inc., the world’s first commercial space company, encompassing Nanoracks LLC, DreamUp, Nanoracks Space Outpost Europe (Nanoracks-Italy), and Nanoracks UAE.

Status Comment / Notes

Being consolidated under Voyager Space brand as of early 2024.

Created: 2023-07-26

Updated: 2024-03-02

Sources


Most sources should be linked in the texts and headings as revealed by mouse-over, but here are they listed for visibility.

[1] http://nanoracks.com/

[2] https://www.cbc.ca/news/canada/nova-scotia/mla-nanoracks-repurpose-cyclone-4-rockets-1.5344086

[3] https://images.nasa.gov/details-iss064m260691404_Expedition_64_Nanoracks_210310

News, Research, Projects and Patents

Title Type Date Summary
Commercial Space Stations and the declining need for vertical integration Article 2022-07-21
Upcoming Mission Marks First-Ever Demo of Structural Metal Cutting in Space News 2022-05-19 >

Voyager and Nanoracks are excited to announce that our first Outpost demonstration mission (Outpost Mars Demo-1) is expected to launch this month aboard SpaceX’s Transporter 5 rideshare flight. This mission is part of our Outpost Program, which is focused on transforming used launch vehicle upper stages into uncrewed, controllable platforms.
Space-Grown Crops for Earth’s Farms Article 2020-11-12 >

A new commercial space market is poised to take off. And surprisingly, this market could not be more down-to-Earth: that of “farming” in space. This AgTech market will be an important part of helping decrease the debilitating impact of climate migration, which is already tearing up families and economies in Latin America, and one of the root causes of migration on our Southern border.
The Plan to Turn Scrapped Rockets Into Space Stations News 2020-11-11 >

The Nanoracks program, known as Outpost, will modify rockets after they’re done with their mission to give them a second life. The first Outposts will be uncrewed stations made from the upper stages of new rockets, but Manber says it’s possible that future stations could host people or be built from rocket stages already in orbit. In the beginning, Nanoracks won’t use the interior of the rocket and will mount experiment payloads, power supply modules, and small propulsion units to the outside of the fuselage. Once company engineers have that figured out, they can focus on developing the inside of the rocket as a pressurized laboratory.
Abu Dhabi’s AgTech Ecosystem Expands Across Land, Sea and Space Project, News 2020-11-10 >

Three innovative agriculture companies will develop cutting-edge projects in Abu Dhabi to boost the emirate’s agriculture technology (AgTech) capabilities across land, sea and space. The Abu Dhabi Investment Office (ADIO) announced today individual partnerships with Pure Harvest Smart Farms (Pure Harvest), FreshToHome and Nanoracks that will see the companies receive financial and non-financial incentives totalling AED 152 million (USD 41 million). The research and technologies developed by these companies will expand existing capabilities in Abu Dhabi’s AgTech ecosystem and promote innovation in the sector to address global food security challenges.
Q & A: Nanoracks StarLab Space Farming Center Article 2020-11-10 >

Below, please enjoy our Q&A with Nanoracks’ Marketing Director, Abby Dickes, and Nanoracks’ CEO, Jeffrey Manber, to learn more about Nanoracks goals in our AgTech ventures.
The first commercial airlock is heading to the International Space Station later this year News 2020-09-15
Nanoracks Announces In-Space Outpost Demonstration News 2019-10-22 >

Nanoracks will be building a self-contained hosted payload platform that will demonstrate the robotic cutting of second stage representative tank material on-orbit. Never before has structural metal cutting been done in-space.
LEO Commercialization Study Study 2019-07-25 >

Outpost: An In-Orbit Commercial Space Station Habitat Development
Enabling Cost-Effective and Sustainable U.S. Presence
in Low-Earth Orbit

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IDDK

SpaceLAB

Microgravity Flight Service (LEO), Microgravity Research Payloads, Space Laboratory Equipment

IDDK

Development

JAMSS (Japan Manned Space Systems Corporation)

Kirara

Microgravity Research Payloads, Microgravity Science, Microgravity Flight Service (LEO)

JAMSS (Japan Manned Space Systems Corporation)

Active

LaMont

Life Sciences Platform

Microgravity Research Payloads, ISS Utilization Service, Microgravity Flight Service (LEO)

LaMont Aerospace

Early stage

Odyssey SpaceWorks

Microgravity Flight Service (LEO), In-Space Manufacturing, Microgravity Research Payloads

Odyssey SpaceWorks

Demonstrated, Launched

Offworld Biotech

Microgravity Flight Service (LEO), Microgravity Science, Microgravity Research Payloads

Offworld Biotech (SImGravity)

Early stage

Orbital Space Technologies

MUSA

Microgravity Flight Service (Suborbital), Microgravity Research Payloads

Orbital Space Technologies

Development

Hypergiant (ProXopS)

Faraday

ISS Utilization Service, Microgravity Research Payloads

ProXopS (L2 Innovations, SEOPS)

Demonstrated

Redwire

3D BioFabrication Facility (BFF), 3D-BioSystem Facility

In-Space Manufacturing, Microgravity Research Payloads

Redwire (Techshot)

Demonstrated

ResearchSat

Microgravity Flight Service (LEO), Microgravity Research Payloads, Microgravity Flight Service (Suborbital)

ResearchSat

Development

Rhodium Scientific

Microgravity Science, Microgravity Research Payloads

Rhodium Scientific

Demonstrated

Rocket Pi

Commercial Space Station, In-Space Manufacturing, Microgravity Flight Service (LEO), Microgravity Flight Service (Reusable Satellite), Microgravity Research Payloads

Rocket Pi (Rocket π, Beijing) Aerospace Science and Technology, Huojian Pi)

Development, Launched

Space DOTS

BARNACLE DOT, INDY DOT

Microgravity Flight Service (LEO), Microgravity Research Payloads

Space DOTS

Development

STaARS

Microgravity Flight Service (LEO), Microgravity Research Payloads

STaARS (Space Technology and Advanced Research Systems)

Dormant

Starflight Dynamics

Microgravity Flight Service (LEO), Microgravity Flight Service (Reusable Satellite), Robotic Space Station, Microgravity Research Payloads, In-Space Manufacturing

Starflight Dynamics

Development

Vellon Space

Space-Lab, AsteriX Lab

Microgravity Flight Service (LEO), Microgravity Research Payloads, Commercial Space Station

Vellon Space

Early stage