NanoRacks


Nanoracks LLC is a private in-space services company that is dedicated to using its unique expertise to solve key problems both in space and on the Earth while also lowering the barriers to entry of space exploration.
Nanoracks focuses on three pillars:
Since 2009, Nanoracks has been committed to helping stimulate the market demand across all orbiting platforms with a focus on the customer and their in-space needs and requirements. Nanoracks innovation in space access has brought new users, from students to researchers, and space-hardened veterans from government space agencies to industry, to conduct research, design experiments, tinker, make mistakes, and make discoveries in space.
Nanoracks is currently working to develop multiple in-space destinations. Nanoracks is building the tools to allow for the re-purposing of in-space hardware and turn it into agile space stations, which the company call Outposts.
Nanoracks sees these Outposts as being factories, laboratories, greenhouses and hotels that change the Earth and how humans explore space. Nanoracks believes Outposts will enable major outcomes in developing quality fiber optics, printing innovative tissues and organs, advancing new crops, and allowing more and more people to live and work in space.
Nanoracks’s main office is in Houston, Texas, alongside the NASA Johnson Space Center. The business development office is in Washington, D.C., and additional offices are located in Abu Dhabi, UAE and Torino, Italy. Nanoracks provides tools, hardware and services that allow other companies, organizations and governments to conduct research and other projects in space.
Since 2009, over 1080 payloads have been sent to the International Space Station via Nanoracks.
Nanoracks partners with the, along with the National Center for Earth and Space Science Education and the Arthur C. Clarke Institute for Space Education.
Some of Nanoracks customers include: Student Spaceflight Experiments Program, the European Space Agency, the German Space Agency, NASA, US Government Agencies, Planet Labs, Space Florida, Virgin Galactic, Adidas, Aerospace Corporation, NRO, UAE Space Agency, Mohammed bin Rashid Space Center, Beijing Institute of Technology, pharmaceutical drug companies, and so many more.
Nanoracks management created XO Markets, the first space holding company, to address differing local and international growth areas in the industry.

History

Nanoracks was founded in 2009 by Jeffrey Manber and Charles Miller to provide commercial hardware and services for the U.S. National Laboratory on board the International Space Station via a Space Act Agreement with NASA. Nanoracks signed their first contract with NASA in September 2009 and had their first laboratory on the Space Station in April 2010.
MirCorp CEO Jeff Manber oversaw the first and only commercially funded mission of the Russian space station, which lasted over 70 days. Manber was, and still is, the only American to ever work officially for the Russian space program.
As of January 2020, over 800 payloads have been deployed by Nanoracks to the International Space Station.
As of June 2015, Nanoracks has deployed 64 satellites into Lower Earth Orbit, and had 16 satellites on the ISS awaiting deployment, with an order backlog of 99.
As of August 2017, 580 payloads have been launched to the International Space Station, including the deployment of nearly 200 CubeSats from the Nanoracks CubeSat Deployer.
In 2012, Nanoracks "generated more than $3 million in revenue, of which only one-quarter comes from NASA."
In August 2012, Nanoracks partnered with Space Florida to host the Space Florida International Space Station Research Competition. As part of this program, Nanoracks and DreamUp provide research NanoLab box units to fly payloads to the ISS, with scientific research to be conducted on board the U.S. National Lab.
In October 2013, Nanoracks became the first company to coordinate the deployment of small satellites from the ISS via the airlock in the Japanese KIBO module. This deployment was done by Nanoracks using the Japanese Experiment Module Small Satellite Orbital Deployer.
The Nanoracks CubeSat Deployer was launched on January 9, 2014, on the Orbital Sciences Cygnus Orb-1 Mission. It became the first commercial platform to deploy satellites from the ISS.
In December 2014, DreamUp.org, the website for the educational arm of Nanoracks, was launched. DreamUp offers access to commercial research platforms in suborbital and low-Earth orbit. The DreamUp Advisory Board, made up of industry experts Ken Shields and Jeffrey Manber assigns ‘DreamUp Approved’ status to projects declared realistic, doable, and in accordance with standard safety criteria. Through partnerships with organizations such as SSEP and Valley Christian High School, Nanoracks and DreamUp have helped launch dozens of student experiments to space and immerse hundreds of students in the space research experience.
In August 2015, Nanoracks announced a historic agreement to fly a Chinese DNA experiment from the Beijing Institute of Technology on the International Space Station. The agreement includes Nanoracks delivering the experiment to the American side of the ISS in a SpaceX Dragon spacecraft and berthing the experiment to Nanoracks’ orbiting laboratory facilities. Nanoracks will then send data back to the Chinese researchers.
In August 2015, the Nanoracks External Payload Platform was successfully launched to the ISS on the fifth flight of the Japanese H-II Transfer Vehicle. The external platform will be able to accommodate up to 9 4U CubeSat-size payloads outside of the space station with a standard mission duration of 15 weeks. The platform is operational as of August 2016.
In August 2015, Space Angels Network joined with Nanoracks and DreamUp to support and invest in STEM education and early stage-space companies by using the DreamUp Approved system.
In December 2015, Nanoracks announced the formal creation of DreamUp, PBC. The goal behind DreamUp, PBC. was to make space research available to university students and researchers in the U.S. as well as a dozen other countries. Via crowdfunding, DreamUp hopes to take space-based education to a “whole new level.”

Nanoracks Flight History

03/07/2020 – SpaceX-20 - Dragon
02/15/2020 – NG-13 - Cygnus
11/02/2019 – NG-12 - Cygnus
07/25/2019 – SpaceX CRS-19 - Dragon
05/04/2019 – SpaceX CRS-17 - Dragon
04/17/2019 – NG-11 - Cygnus
04/01/2019 – PSLV - C45
12/05/2018 – SpaceX CRS-16 - Dragon
11/17/2018 – NG-10 - Cygnus
08/29/2018 – SpaceX CRS-15 - Dragon
05/21/2018 – OA-9 - Cygnus
04/12/2018 – SpaceX CRS-14 - Dragon
12/15/2017 – SpaceX-13 - Dragon
11/12/2017 – OA-8 - Antares
09/14/2017 – SpaceX-12 - Dragon
06/03/2017 – SpaceX-11 - Dragon
04/18/2017 – OA-7 – Cygnus
02/19/2017 – SpaceX-10 – Dragon
09/12/2016 – HTV-6
17/10/2016 – OA-5 – Cygnus
07/18/2016 – SpaceX-9 – Dragon
04/08/2016 – SpaceX-8 – Dragon
03/23/2016 – OA-6 – Cygnus
06/28/2015 – SpaceX-7 – Dragon
04/14/2015 – SpaceX-6 – Dragon
01/10/2015 – SpaceX-5 – Dragon
10/28/2014 – Orb-3 – Cygnus
09/23/2014 – SpaceX-4 – Dragon
07/13/2014 – Orb-2 – Cygnus
04/18/2014 – SpaceX-3 – Dragon
01/09/2014 – Orb-1 – Cygnus
09/18/2013 – Orb-D1 – Cygnus
08/03/2013 – HTV-4
06/05/2013 – ATV-4
07/21/2012 – HTV-3
03/23/2012 – ATV-3
03/01/2013 – SpaceX-2
10/08/2012 – SpaceX-1
05/28/2013 – Soyuz 35S
03/28/2013 – Soyuz 34S
07/15/2012 – Soyuz 31S
07/08/2011 – STS-135
05/16/2011 – STS-134
04/28/2010 – Progress M-05M

Facilities and labs

Nanoracks Space Outpost Program

Nanoracks is currently developing tools to convert space junk into commercial space stations, to meet growing in-space customer demand. Outposts based on the Earthly concepts of re-use and recycle. 
The Outpost fleet will be made from spent upper stages in-orbit and other structures after they have completed their primary mission in space. Nanoracks will convert them into orbiting hubs for use by users all over the world.
Nanoracks’ Outposts are intended to be research labs, factories, fuel depots, hotels, and support systems to service missions throughout the Solar System.

Bishop Airlock Module

The Nanoracks Bishop Airlock Module is a commercially-funded airlock module intended to be launched to the International Space Station on SpaceX CRS-21 in August 2020. The module is being built by NanoRacks, Thales Alenia Space, and Boeing. It will be used to deploy CubeSats, small satellites, and other external payloads for NASA, CASIS, and other commercial and governmental customers.

Internal ISS Services

Nanoracks facilities on the International Space Station include:
Nanoracks deploys small CubeSats into orbit from the ISS through the Nanoracks CubeSat Deployer via the airlock in the Japanese Kibo module, after the satellites are transported to the ISS on a cargo spacecraft. When released, the small satellites are provided a push of about that begins a slow process of satellite separation from the ISS.
The Nanoracks CubeSat Deployer is a self-contained deployment system that mechanically and electrically isolates CubeSats from the ISS, the ISS crew, and cargo resupply vehicles. The design of the NRCSD is compliant with the ISS flight safety requirements and is space qualified.
The deployer is composed of anodized aluminum plates, access panels, deployer doors, and a base plate assembly. The inside of the NRCSD is designed to minimize and/or preclude the jamming of CubeSat appendages during deployment.
Each CubeSat deployer is capable of holding 48U of CubeSats.

External Platform (NREP)

The Nanoracks External Platform was successfully installed in August 2016. The self-funded NREP is the first-ever commercial gateway-and-return to the extreme environment of space. Following the CubeSat form factor, payloads can now experience the microgravity, radiation and other harsh elements native to the space environment, observe earth, test sensors, materials, and electronics, all while having the opportunity to return the payload back to Earth.
The Nanoracks Kaber Microsat Deployer is a reusable system that allows the International Space Station to control and command satellite deployments. The Kaber was developed based off Nanoracks’s experience deploying CubeSats from the ISS. This service enables Nanoracks to deploy microsatellites up to 82 kg into space. Microsatellites that are compatible with the Kaber Deployer have additional power, volume, and communication resources, which allows for deployments of higher scope and sophistication.

External Cygnus Deployer (E-NRCSD)

The satellite deployment service enabled satellites to be deployed at an altitude higher than the ISS via a Commercial Resupply Vehicle. These satellites are deployed after the completion of the primary cargo delivery mission and, soaring 500 kilometers above the Earth and ca. 100 kilometers above the ISS, this service opens the door for the development of new technology, in addition to extending the life of CubeSats already deployed in low-Earth orbit. The Cygnus Deployer holds a total volume of 36U and adds approximately two years to the lifespan of these satellites.
E-NRCSD Missions:
Recently, Nanoracks announced that the company is adding polar orbit launches to their resume. The company plans to work with Berlin-based Astrofein to create and supply the deployers. In addition, Nanoracks is seeking help from the commercial arm of the Indian Space Research Organization, Antrix, for Polar Satellite Launch Vehicle services.
Due to recent customer demands for polar orbits, Nanoracks plans on seeing it through. These polar orbit opportunities come in addition to Nanoracks’ numerous deployments of satellites via the Nanoracks CubeSat Deployer and Kaber Deployer on the ISS as well as the External Nanoracks CubeSat Deployer mounted outside of the Cygnus spacecraft.
Nanoracks chose to partner with Astrofein due to their 20 years of experience in aviation and spaceflight and 100 percent success rate.

Mars Demo-1

Mars Demo-1 is Nanoracks’ first technology demonstration mission for the Outpost program, flying mid-2021 on a SpaceX Rideshare mission. OMD-1 is a self-contained hosted payload platform that will demonstrate the robotic cutting of second stage representative tank material on-orbit. Nanoracks must prove being able to cut metal without producing any orbital debris.

Commercial Space Stations

Nanoracks, after finalizing its contract with NASA, and after winning NextSTEPs Phase II award, is now developing its concept Independence-1, which would turn spent rocket tanks into a habitable living area to be tested in space. In Spring 2018, Nanoracks announced that Ixion is now known as the Independence-1, the first 'outpost' in Nanoracks' Space Outpost Program.