A sampling of recent articles, press releases, etc. related to student and amateur CubeSat / SmallSat projects and programs (find previous smallsat roundups here):
The Irvine CubeSat Program is composed of six public high schools from the Tustin and Irvine School Districts. All schools are given specific roles and functions for each CubeSat Mission, to include Avionics, Communication, Propulsion, Power, BioTech, and Prime Contractor.
Mimicking a real-world engineering firm approach to large, complex projects, each team is responsible for communicating their plans and achievements to the rest of the group to ensure that the overall mission is successful.
Scientists and engineers from nearly a dozen Polish universities have teamed up with Poland-based satellite company SatRevolution and Sir Richard Branson’s small satellite launch company Virgin Orbit to establish a new consortium to design and carry out the world’s first dedicated commercial small satellite mission to Mars. The parties established the consortium at a formal signing ceremony during the Impact Mobility’19 rEVolution conference in Katowice, Poland.
The consortium will jointly develop the first in a series of up to three Mars missions, with the initial launch expected as early as three years from now.
…
At the core of the consortium are many of the top technical universities in Poland. AGH University of Science and Technology, Wrocław University of Science and Technology, Poznań University of Technology, Gdańsk University of Technology Lódz University of Technology, John Paul II Catholic University of Lublin, and Wrocław University of Environmental and Life Sciences have each signed on to take part in the collaborative program. Leadership from these universities see the consortium and the missions it will conduct as an unprecedented opportunity for growth and development across many technical disciplines, in addition to creating opportunities for commercialization.
A sampling of recent articles, videos, and images dealing with space transport (find previous roundups here):
** Northrop Grumman Pegasus XL launched with ICON spacecraft. After nearly a year of delay due to various technical issues, the rocket was air launched from a L-1011 aircraft on Thursday off the coast of Florida. NASA’s Ionospheric Connection Explorer (ICON) will “study the dynamic zone in our atmosphere where terrestrial weather from below meets space weather from above”.
Phil Joyce, vice president of space launch programs at Northrop Grumman, said this week that the company is trying to sell the launches using the two remaining Pegasus XL rockets, and officials plan to keep the Pegasus rocket’s L-1011 carrier jet flying for at least five or 10 more years.
The airborne launch of NASA’s Ionospheric Connection Explorer, or ICON, scientific satellite Thursday night off Florida’s east coast is the final scheduled flight of a Pegasus XL rocket. Variants of the solid-fueled Pegasus rocket have flown on 43 satellite delivery missions since 1990.
“We actually purchased those back (from Stratolaunch),” Joyce said in an interview with Spaceflight Now. “So they’re in a very advanced state of integration, which means they’re available for a very rapid response launch. We could launch one of those in six months, the second one probably in eight (months).
**Stratolaunch has new ownership and a new business plan:
As we continue on our mission, Stratolaunch will bring the carrier aircraft test and operations program fully in-house. We thank @VulcanInc and @ScaledC for turning an ambitious idea into a flight-proven aircraft. (2/2)
** Northrop Grumman’s satellite servicing spacecraft launched on Proton rocket along with a Eutelsat comm-sat. The MEV-1 (Mission Extension Vehicle 1) will reach the Intelsat IS-901 satellite in geostationary orbit in about 3 months. The IS-901 is running out of propellant to maintain its position and orientation. MEV-1 will attach to the apogee rocket nozzle on the satellite and use its own electric propulsion system to do the station-keeping duties for IS-901. In about five years, MEV-1 will park IS-901 in a higher, graveyard orbit and move on to another comm-sat nearing the end of its fuel and repeat the service.
** Rocket Lab gets FAA license that covers multiple launches over five years:
The #FAA has issued Rocket Lab with a Launch Operator License for Electron missions from LC-1! This is a key step in making Electron the most frequently launched vehicle in the world. pic.twitter.com/klXXNtUBb1
All Electron missions so far have been carried out under various launch-specific FAA licenses. With our new @FAANews Launch Operator License, we can perform multiple Electron launches from LC-1 for the next 5 years, without the need for a new license every time. pic.twitter.com/sO0eK3FoXN
The result? A streamlined path to orbit for our customers. Efficient licensing supports frequent launch opportunities and truly responsive space access, and we’re thrilled to be delivering this for small sats. pic.twitter.com/0eKizckxRn
Scientists and engineers from nearly a dozen Polish universities have teamed up with Poland-based satellite company SatRevolution and Sir Richard Branson’s small satellite launch company Virgin Orbit to establish a new consortium to design and carry out the world’s first dedicated commercial small satellite mission to Mars. The parties established the consortium at a formal signing ceremony during the Impact Mobility’19 rEVolution conference in Katowice, Poland.
The consortium will jointly develop the first in a series of up to three Mars missions, with the initial launch expected as early as three years from now.
Masten Space Systems announced a new partnership with MSBAI to integrate cognitive artificial intelligence capabilities for autonomous space flight applications.
An orbital vehicle that could utilize in-situ upper atmospheric resources would enable a host of missions, and in particular ADR [Active Debris Removal], that require extremely high delta-V in a fast, responsive, and repeatable manner. The concept proposed here, the Crosscutting, High Apogee, Refueling Orbital Navigator (CHARON) will provide such capability.
CHARON accomplishes this in the following manner: first it obtains fuel by scooping up and storing the low density N2 and O encountered during the low altitude perigee periods of the highly elliptical orbits. Incorporation of the ultra-lightweight, high thrust-to-power Electrodeless Lorentz Force thruster developed at MSNW enables CHARON to operate efficiently on stored gas in a variety of configurations depending upon mission requirements. As CHARON can thrust at apogee, it can achieve the extensive orbit lowering needed for ADR.
Additionally, CHARON can thrust at perigee to provide drag compensation for very low perigee refueling, stable non-Keplerian orbits, or rapid phase changes. CHARON requires only 5 kW of on-board solar power as energy collected during the higher altitude portions of its elliptical orbit can be stored for higher power operation later. Functioning in this manner CHARON can generate 1.2 N of thrust at 2500 sec of Isp for ADR. During a 10 year mission life, CHARON will process 5500 kg of propellant to ferry 80 spacecraft, perform 850 degrees of plane change, with over 100km/s of delta-V, all with a single spacecraft launch, and requiring no additional onboard propellant.
Boeing officials said Wednesday that the company is targeting Dec. 17 for the launch of the first unpiloted orbital test flight of the new Starliner crew capsule from Cape Canaveral on a week-long demonstration mission to the International Space Station, a precursor to a mission with astronauts next year.
Meanwhile, engineers in the New Mexico desert are readying a Starliner test vehicle for a pad abort test scheduled for the morning of Nov. 4, local time, during which the crew capsule will demonstrate its ability to escape an emergency on the launch pad, according to industry sources.
But officials did not say when the Starliner could be ready to launch with astronauts. The Starliner’s first crewed test flight will use a different spacecraft than the one set for launch in December.
*** Commercial Crew program in the spotlight this week. NASA Administrator Jim Bridenstine visited SpaceX HQ in Hawthorne, California to check out the status of development of the Crew Dragon. An in-flight abort test is coming up
In Part 2 of NASA’s Commercial Crew Program VR 360 Tour, NASA Communications Specialist Joshua Santora takes you on a tour of SpaceX Headquarters in Hawthorne, California. This immersive, Virtual Reality experience exhibits the design and manufacturing of the SpaceX Crew Dragon. Visit nasa.gov/stem/ccp for more STEM educational resources featuring NASA’s Commercial Crew Program.
SpaceX next mission, slated to carry the company’s second set of Starlink broadband satellites into orbit, will be the first to fly with a reused Falcon 9 booster making its fourth launch when it takes off in the coming weeks.
Hans Koenigsmann, SpaceX’s vice president of build and flight reliability, confirmed earlier this week the plan to use a thrice-flown booster on the next Falcon 9 launch.
… “Currently we use our boosters 10 times, they’re designed for 10 times,” Koenigsmann said Monday during a panel discussion at the annual meeting of the National Academy of Engineering. “We’re going to start with a fourth time with the next launch, actually. Dragon has been used three times, Crew Dragon will be used up to five times (initially only for cargo missions). So all these things help because you don’t have to build something again. You have to inspect it, refurbish it where you need to refurbish it, but ideally you need to keep that really, really low.”
According to NASASpaceflight spaceflight reporter Michael Baylor and an Argentinian government website, SpaceX appears to have decided to move its next West Coast launch from California to Florida, signifying the first East Coast polar launch in half a century could be just four months away.
Initially expected to launch out of SpaceX’s Vandenberg Air Force Base (VAFB) SLC-4E pad on a Falcon 9 rocket, the Argentinian space agency’s (CONAE) SAOCOM-1B Earth observation satellite was scheduled to lift off no earlier than February 2020. That launch window remains the same but Florida’s Cape Canaveral Air Force Station (CCAFS) has somehow arranged approval to reopen the United States’ Eastern polar launch corridor. The story behind the corridor’s closure is a bizarre one.
This week’s episode of NASA’s Space to Ground reports on activities related to the International Space Station:
** NASA Astronauts Spacewalk Outside the International Space Station on Oct. 6, 2019
** Living and Working: Valuable Spaceflight Data Collaboration Tool
The International Space Station is the largest human-made structure in low Earth orbit (LEO) and serves as a space environment research laboratory where astronauts perform experiments in several unique fields including physics, astronomy, and biology. NASA’s Genelab collects valuable spaceflight experiment data for researchers and scientists to learn from this unique environment. GeneLab is an interactive, open-access resource where scientists can upload, download, store, search, share, transfer, and analyze omics data from spaceflight and corresponding analogue experiments. The biological studies conducted on the International Space Station generate critical data that scientists use to determine how terrestrial biology changes as a result of spaceflight.
** Meet Former NASA Astronaut Kathy Sullivan: the First American Woman to Walk in Space
35 years ago, on October 11, 1984, NASA astronaut Kathy Sullivan became the first American woman to walk in space. We video chatted with Kathy to ask her about this historic feat as well as her thoughts on the upcoming all-female spacewalk scheduled to take place October 21, 2019, with NASA astronauts Christina Koch and Jessica Meir.
A sampling of links to recent space policy, politics, and government (US and international) related space news and resource items that I found of interest (find previous space policy roundups here):