The competition heats up: India today successfully launched six commercial satellites into orbit using its smaller PSLV rocket.
During the flight they also tested the ability of the rocket’s fourth stage to restart its engines in orbit, a necessary ability for later commercial launches.
This article provides a detailed account of the political battle between ULA and Congress of its future use of Russian engines in its Atlas 5 rocket.
Congress has imposed a strict limit on the number of engines the company can use. ULA is still lobbying for an increase, claiming that the limit will mean that they will not be able to meet the government military launch needs for a few years when the engines on hand run out and its new American-built engines are not yet available.
In the long run I think this battle is irrelevant. What really matters is what it costs to launch a satellite, and ULA is simply not focused on reducing its costs. Consider this quote from the article, emphasis mine:
ULA has designed a new rocket dubbed Vulcan that features a U.S.-made engine, but this vehicle will not be available until around 2021, assuming the project gets funded β which is by no means a given.
They made a big deal earlier this year about how Vulcan will soon replace Atlas 5 at a lower cost, but it now appears that this was merely a public relations event. ULA wants someone else to pay for this new rocket, and thus has not yet committed any of its own money to begin actual development.
Other companies however are funding the development of their own new American-made rockets that will also be far cheaper to fly. Sooner rather than later our spendthrift Congress is going to mandate that the military use those cheaper rockets. If ULA doesn’t get moving it will be left in the dust, whether or not Congress allows it to use more Russian engines.
The competition heats up: SpaceX’s next commercial launch of its Falcon 9 rocket, and its next attempt to land and recover the first stage, is now set for December 19.
They will also attempt to land the stage on land, not on a barge.
The competition heats up: The Google Lunar X-Prize has now confirmed two launch contracts for sending a privately financed and built rover to the Moon by 2017.
Moon Express is now the second company to have a launch contract for their lunar lander spacecraft verified by the X Prize Foundation. An Israeli team, SpaceIL, had its contract to launch a lander on a SpaceX Falcon 9 verified by the foundation in October. SpaceIL will be one of the primary payloads on a launch purchased in September by Spaceflight Industries that will carry about 20 other spacecraft. That initial launch contract verification allowed the foundation to formally extend the competitionβs deadline to the end of 2017. Teams have until the end of 2016 to submit their own launch contracts in order to continue in the competition.
Sixteen teams remain in the competition, announced in September 2007, to land a privately-developed spacecraft on the moon, travel at least 500 meters across its surface, and return high-resolution videos and other data. Some teams are cooperating with others for launch arrangements.
As scheduled Orbital ATK’s Cygnus freighter has been successfully berthed to ISS.
This launch and docking is a success both for Orbital as well as ULA, both of whom demonstrated that Cygnus can be launched not only on an Antares rocket but on an Atlas 5 as well.
In discovering a new solid state for carbon scientists have also discovered that it is a relatively inexpensive way to produce diamonds.
Professor Jay Narayan of North Carolina State University is the lead author of three papers describing the work that sees Q-carbon join the growing list of carbon solids, a list that includes graphite, graphene, fullerene, amorphous carbon and diamond. He has suggested that the only place Q-carbon might be found in the natural world is in the core of certain planets.
The researchers created Q-carbon by starting with a thin plate of sapphire (other substrates, such as glass or a plastic polymer, will also work). Using a high-power laser beam, they coated the sapphire with amorphous carbon, a carbon form with no defined crystalline structure. They then hit the carbon with the laser again, raising its temperature to about 4,000 Kelvin, and then rapidly cooled, or quenched, the melted carbon. This stage of quenching is where “Q” in Q-carbon comes from.
The researchers have found that, depending on the substrates, tiny diamonds will form within the Q-carbon, suggesting to me that they have actually discovered how diamonds are formed deep below the Earth. The hot high pressure environment there allows Q-carbon to naturally form, and in the process of its solidification diamonds are a byproduct.
The competition heats up: After three scrubs due to high winds, an Atlas 5 rocket today successfully placed Orbital ATK’s Cygnus cargo freighter into orbit.
If all goes well it will berth with ISS on Wednesday.
For the second day in a row winds have forced a scrub of the Atlas 5 launch of Orbital ATK’s Cygnus capsule to ISS.
They have not yet decided whether they will try again on Saturday or Sunday.
Update: They have decided to try again on Saturday.
The competition heats up: The first two satellites in the first private weather satellite constellation will be launched on India’s PSLV rocket.
With 12 satellites on orbit, PlanetiQ will collect approximately 34,000 “occultations” per day, evenly distributed around the globe with high-density sampling over both land and water. Each occultation is a vertical profile of atmospheric data with very high vertical resolution, comprised of measurements less than every 200 meters from the Earth’s surface up into the ionosphere. The data is similar to that collected by weather balloons, but more accurate, more frequent and on a global scale.
“The world today lacks sufficient data to feed into weather models, especially the detailed vertical data that is critical to storm prediction. That’s why we see inaccurate or ambiguous forecasts for storms like Hurricane Joaquin, which can put numerous lives at risk and cost businesses millions of dollars due to inadequate preparation or risk management measures,” McCormick said. “Capturing the detailed vertical structure of the atmosphere from pole to pole, especially over the currently under-sampled oceans, is the missing link to improving forecasts of high-impact weather.”
This project is a win-win for aerospace. Not only will this weather constellation help shift ownership of weather satellites from government to private ownership, the company’s decision to use India’s PSLV rocket increases the competition in the launch industry.
The competition heats up? Virgin Galactic has purchased a 747 from Richard Branson’s Virgin Airlines to use as the launch vehicle for its LauncherOne rocket.
They say that WhiteKnightOne will still be used for suborbital flights, but that they need the 747 for the orbital missions of LauncherOne. They also say that test flights will begin in 2017. We shall see.
The Cygnus cargo launch to ISS was scrubbed today due to bad weather.
They will try again on Friday.
The competition heats up: SpaceX is considering an attempt to land its Falcon 9 first stage on land in its next launch in two weeks.
Carol Scott, who works technical integration for SpaceX within NASA’s Commercial Crew Program, told reporters here at the Cape Canaveral Air Force Station today that SpaceX’s first attempt at a land-based rocket landing may be coming sooner than the public expects. “You know how they want to fly the stage back, right? Their plan is to land it out here on the Cape [Canaveral] side,” Scott told reporters.
The company declined to comment on Scott’s remarks, which are vague enough to leave them plenty of wiggle room. Not that it matters. Even if they attempt the next first stage landing on a barge, a landing on land will soon follow. It is only a matter of time.
