Tag: manned mission to Mars 2030

News from Space: NASA Showcases New Rover Tools

NASA_2020rover1Last Thursday at the agency’s headquarters in Washington, NASA unveiled more information about its Mars 2020 rover, which is scheduled to join Opportunity and Curiosity on the Red Planet by the end of the decade. The subject of this latest press release was the rover’s payload, which will consist of seven carefully-selected instruments that will conduct unprecedented science and exploratory investigations, and cost about $130 million to develop.

These instruments were selected from 58 proposals that were submitted back in January by researchers and engineers from all around the world. This is twice the usual number of proposals that NASA has received during instrument competitions in the recent past, and is a strong indicator of the extraordinary level of interest the scientific community is taking in the exploration of the Mars.

NASA_2020roverThese seven new instruments include:

  • Mars Oxygen ISRU Experiment (MOXIE): this technology package will process the Martian atmosphere into oxygen. ISRU stands for In Situ Resource Utilization.
  • Planetary Instrument for X-ray Lithochemistry (PIXL): this spectrometer will use a high-resolution imager and X-ray fluorescence for detailed elemental analysis to a finer degree than possible with any prior equipment.
  • Scanning Habitable Environments with Raman & Luminescence for Organics and Chemicals (SHERLOC): this sensor suite will use an ultraviolet laser for fine-scale mineralogy, detecting organic compounds, and high-resolution imaging.
  • Mastcam-Z: an advanced camera system that will send home panoramic and stereoscopic images and assist with rover operations and help determine surface mineralogy.
  • SuperCam: an imaging device with super capacities to perform chemical composition analysis and more mineralogy. This tool will allow the rover to peer around hunting for organic compounds within rocks or weathered soils from a distance, helping identify interesting locations to sample in greater detail.
  • Mars Environmental Dynamics Analyzer (MEDA): This sensor suite to measure temperature, wind speed and direction, pressure, and relative humidity. As dust is such a defining characteristic of weather on the red planet, it’s also going to measure dust size and shape, helping characterize how big of a hassle it will make housekeeping.
  • Radar Imager for Mars’ Subsurface Exploration (RIMFAX): a ground-penetrating radar to imagine the subsurface to centimeter-scale resolution.

These instruments will be used to determine how future human explorers could exploit natural resources to live on Mars, pinning down limits to how much we could rely on using local materials. In addition, demonstration technology will test out processing atmospheric carbon dioxide to produce oxygen, a key step towards using local resources for manufacturing oxidizers for rocket fuel and suitable for humans.

NASA_2020rover5This is perhaps the most exciting aspect of the proposed mission, which is looking ahead to the possibility of manned Martian exploration and even settlement. To quote William Gerstenmaier, the associate administrator for the Human Exploration and Operations Mission Directorate at NASA Headquarters in Washington:

Mars has resources needed to help sustain life, which can reduce the amount of supplies that human missions will need to carry. Better understanding the Martian dust and weather will be valuable data for planning human Mars missions. Testing ways to extract these resources and understand the environment will help make the pioneering of Mars feasible.

At the same time, and in keeping with plans for a manned mission, it will carry on in NASA’s long-term goal of unlocking Mars’ past and determining if life ever existed there. As John Grunsfeld, astronaut and associate administrator of NASA’s Science Mission Directorate in Washington, explained:

The Mars 2020 rover, with these new advanced scientific instruments, including those from our international partners, holds the promise to unlock more mysteries of Mars’ past as revealed in the geological record. This mission will further our search for life in the universe and also offer opportunities to advance new capabilities in exploration technology.

Mars_footprintNASA addressed these goals and more two weeks ago with their mission to Mars panel at the 2014 Comic-Con. This event, which featured retired astronaut and living legend Buzz Aldrin, spoke at length to a packed room about how Apollo 11 represented the “the first Giant Leap”. According to Aldrin, the Next Giant Leap could be “Apollo 45 landing humans on Mars.”

The panel discussion also included enthusiastic support of Orion and the Space Launch System which are currently under development and will be used when it finally comes time to send human explorers to join the rovers on Mars. The Mars 2020 mission will be based on the design of the highly successful Mars Science Laboratory rover, Curiosity, which landed almost two years ago.

NASA_2020rover2Not only does it look virtually identical to Curiosity – from its six-wheeled chassis, on-board laboratory, and instrument-studded retractable arms – and will even be partly built using Curiosity’s spare parts.It will also land on Mars using the same lowered-to-the-surface-by-a-giant-sky-crane method. NASA als0 plans to use the rover to identify and select a collection of rock and soil samples that will be stored for potential return to Earth by a future mission.

These rock samples will likely have to wait until the proposed manned mission of 2030 to be picked up, but NASA seems hopeful that such a mission is in the cards. In the meantime, NASA is waiting for their MAVEN orbiter to reach Mars and begin exploring it’s atmosphere (it is expected to arrive by September), while the InSight Lander – which will examine Mars’ interior geology – is slated for launch by March 2016.

terraformingSo we can expect a lot more news and revelations about the Red Planet in the coming months and years. Who knows? Maybe we may finally find evidence of organic molecules or microbial life there soon, a find which will prove once and for all that life exists on other planets within our Solar System. And if we’re really lucky, we might just find that it could feasibly support life once again…

Sources: cbc.ca, fastcompany.com, nasa.gov, space.io9.com, (2), extremetech.com

Dead in Space: Government Shutdown, NASA and Mars

marsAs the government shutdown goes into its second week, there is growing concern over how it is affecting crucial programs and services. And its certainly no secret that a number of federally-funded organizations are worried about how it will affect their long term goals. One such organization is NASA, who has seen much of its operations frozen while the US government attempts to work out its differences.

In addition to 97% of NASA’s 18,000 employees being off the job, its social media accounts and website going dark, and its television channel being shut down, activities ranging from commercial crew payouts, conferences, and awards and scholarship approvals are all being delayed as well. Luckily, certain exemptions are being made when it comes to crucial work on Mars.

NASA_mavenThese include the Mars Atmosphere and Volatile EvolutioN (MAVEN) orbiter. Following two days of complete work stoppage, technicians working on the orbiter were granted an exemption and permitted to continue prepping it for launch. And not a moment too soon, seeing as how a continued shutdown would have caused the orbiter to miss its crucial launch window.

Designed to survey the Martian atmosphere while orbiting the planet, NASA hopes that MAVEN will provide some clues as to what became of the planet’s onetime atmosphere. MAVEN was been scheduled to blast off for the Red Planet on Nov.18 atop an Atlas V rocket from the Florida Space Coast until those plans were derailed by the start of the government shutdown that began at midnight, Oct. 1.

But as Prof. Bruce Jakosky, MAVEN’s chief scientist, stated in an interview just two days later:

We have already restarted spacecraft processing at the Kennedy Space Center (KSC) today. [Today, we] determined that MAVEN meets the requirements allowing an emergency exception relative to the Anti-Deficiency Act.

Curiosity-roverAnother merciful exception to the shutdown has been the Curiosity Rover. Since contract workers at NASA’s Jet Propulsion Laboratory (JPL) oversee the rover’s mission, the Curiosity team is not subject to the same furloughs as other NASA employees. At JPL, the technicians and workers at the lab are employed by the California Institute of Technology, and are therefore able to keep the mission going.

However, the management at JPL and Cal Tech will continue to assess the situation on a weekly basis, and it’s possible the team may not remain completely intact in the event of a prolonged shutdown. This would be particularly detrimental for Curiosity since the Mars rover requires daily maintenance by scientists, engineers and programmers and cannot run on autopilot.

curiosity_sol-177-1As Veronica McGregor, a media relations manager at JPL, said in a recent interview:

Right now, things continue on as normal. Curiosity is one where they literally look at the data each day, sit down, create a plan, decide what science instrument is going to be used tomorrow, they write software for it and upload it. [It’s] is kind of a unique mission in that way.

Other programs running out JPL will also continue. These include the Opportunity and Odyssey rovers, the Mars Reconnaissance Orbiter, the HiRISE camera, Dawn, Juno, and Spitzer space probes, and the Voyager satellites, APL, MESSENGER, and New Horizons.  In addition, operations aboard the International Space Station will continue, but with the bare minimum of ground crew support.

cassini_spaceprobeRobotic missions that are already in operation – such as the Cassini spacecraft circling Saturn, or the Lunar Atmosphere and Dust Environment Explorer (LADEE) winging its way to the moon – will have small crews making sure that they are functioning properly. However, no scientific analysis will be conducted during the shutdown period.

As the shutdown continues, updates on which programs are still in operation, which ones will need to be discontinued, and how they will be affected will continue to be made available. One can only hope the politically-inspired deadlock will not become a prolonged affair. It’s not just current programs that are being affected after all.

Consider the proposed 2030 manned mission to Mars, or the plans to tow an asteroid closer to Earth. I can’t imagine how awful it would be if they were delayed or mothballed due to budget constraints. Politics… bah!

Sources: universetoday.com, (2), mashable.com

A Menu for the Mars Mission

hi-seas1Throughout the summer, six people participated in an experiment designed to test how people will deal with the physical and psychological strangeness of a manned space journey. Known as the “Hawaii Space Exploration Analog and Simulation” (HI-SEAS) study, the research took place on a desolate slope of an abandoned quarry in Hawaii, 8,000 feet above sea level.

Here, the volunteers lived in a two-story geodesic dome and put on a full space suit to venture outside. Their communications were limited, their shower time rationed, and each spent much of their time conducting individual “space” experiments. But most importantly, they were eating food fit for a Mars astronaut. This was the main purpose of the experiment, testing the menu that manned missions to Mars will have to offer.

hi-seas2For years now, scientists have been trying to find ways to make astronaut food more palatable. In space, the food is either dehydrated and requires water and heat to process, or is rendered in liquid form that has to be drunk right out of the package. But on Mars, where there would be gravity, astronauts could actually cook their own food from “shelf-stable” ingredients.

The goal of the HI-SEAS study, run by investigators at the University of Hawaii at Manoa and Cornell University, has been to figure out the best strategies for nourishing Mars astronauts. On any long and isolated mission, especially on one as long as a hypothetical Mars mission. “menu fatigue” is a real danger. Astronauts need to consume a set amount of calories a day, otherwise they might lose body mass and bone density.

Lemon Dill Pasta Salad
Lemon Dill Pasta Salad

For the sake of testing the menu, the mission relied on a six-member crew of scientific-minded professionals who kept detailed logs of their food adventures. They filled out smell, taste, and appearance questionnaires for each meal; weighed each food item; tracked water consumption, cooking and cleanup time; and even monitored their sense of smell to see if food boredom had any physiological effects.

Another fun aspect was that they also tested crowdsourced recipes submitted by the public. Each recipe was limited to using the list of ingredients available. There was “Cajun Style Spam Jambalaya” and “Oatmeal Thickened Beef Stew” for dinner, “Blueberry Lemon Cornmeal Pancakes” for breakfast, and even a spicy veggie sushi as an appetizer.

"Dark Matter" cake
“Dark Matter” cake

Kate Greene, a science and technology journalist on the mission, had this to say about the menu:

I’ve enjoyed so many meals here, actually. A quinoa salad, breakfast tacos, borscht, beef tagine, and all the breads we make with our bread maker… We’ve also had cakes and puddings and pies, grilled cheese sandwiches and soups like seafood chowder.

With today’s technology, it could take as long as 300 days to even get there. But even with fully-stocked shelves, life on a Mars mission would still be a major challenge. In addition to fighting menu boredom, there was also the issue of regular boredom. Confined to their shelters and forced to wear space suits to go outside, the “astronauts” began to miss the everyday activities they used to take for granted.

hi-seas5As Greene indicated, she came to miss such things as walking about outside, biking, and swimming, and gained a new appreciation for her old life:

Something I realized about my day-to-day life on Earth is that it’s full of novelty. I see new people all the time and I go to different places. In the habitat, novelty has been a lot harder to come by, and it was subtle when I found it–a new recipe, a different way to arrange the furniture, or someone saying something completely out of character. When I noticed these slight changes, my joy and excitement was embarrassingly disproportionate.

On August 13th, Greene and her five colleagues emerged into the daylight without a spacesuit for the first time in months. After a media event and a debrief with the principal researchers on the NASA-funded project, they continued to sift through all of their research data, which ranged from scientific research, their food study, and even a record of their sleep cycles.

hi-seasmapAll of this information is likely to be very useful in coming years and decades. Back in August, on the one-year anniversary of the Curiosity Rover’s landing on Mars, NASA chief Charles Bolden said he believed that human footprints would follow in its path, and 2030 remains the projected date for putting those boots on the Red Planet.

Sources: fastcoexist.com, hi-seas.org

News From Mars: Revelations on Radiation

mars_astronauts1As the projected date for a manned mission to the Red Planet approaches, the Mars Science Laboratory and Curiosity team continue to conduct vital research into what a human team of explorers can expect to find. Unfortunately, earlier last month, that research led to a discouraging announcement which may force NASA and a number of private companies to rethink their plans for manned missions.

Earlier in May, a number of scientists, NASA officials, private space company representatives and other members of the spaceflight community gathered in Washington D.C. for a three day meeting known as the Humans to Mars (H2M) conference. Hosted by the spaceflight advocacy group Explore Mars, the attendees met to discuss all the challenges that a 2030 manned mission would likely encounter.

mars_astronautsFor starters, the human race currently lacks the technology to get people to Mars and back. An interplanetary mission of that scale would likely be one of the most expensive and difficult engineering challenges of the 21st century. Currently, we don’t have the means to properly store enough fuel to make the trip, or a vehicle capable of landing people on the Martian surface. Last, and most importantly, we aren’t entirely sure that a ship will keep the astronauts alive long enough to get there.

This last issue was raised thanks to a recent confirmation made by the Curiosity rover, which finished calculating the number of high-energy particles that struck it during its eight month journey to Mars. Based on this data, NASA says that a human traveling to and from Mars could well be exposed to a radiation dose that is beyond current safety limits.

NASAsolar_radiationThis was performed with the rover’s Radiation Assessment Detector (RAD) instrument, which switched on inside as the cruise vessel began its 253-day, 560-million-km journey. The particles of concern fall into two categories – those that are accelerated away from our Sun and galactic cosmic rays (GCRs) – those that arrive at high velocity from outside of the Solar System. This latter category is especially dangerous since they impart a lot of energy when they strike the human body, can cause damage to DNA and are hard to shield against.

What’s more, this calculation does not even include time spent on the planet’s surface. Although Curiosity has already determined that planetary levels were within human tolerances, the combined dosage would surely lead to a fatal case of cancer for any career astronaut looking to take part in an “Ares Mission”. Cary Zeitlin from the Southwest Research Institute in Boulder, Colorado, and colleagues reported the Curiosity findings in the latest edition of Science magazine.

They claim that engineers will have to give careful consideration to the type of shielding that will need to be built into a Mars-bound crew ship. However, they concede that for some of the most damaging radiation particles, there may be little that can be done, beyond delivering them to Mars as quickly as possible. This presents an even greater challenge, which calls for the development of something better than existing propulsion technology. Using chemical propellants, Curiosity made the trip in eight months.

spaceX_elonmusk However, the good news is that at this juncture, nothing is technologically impossible about a manned Mars mission. It’s just a matter of determining what the priorities are and putting the time and money into developing the necessary tools. Right now NASA, other space agencies, and private companies are working to bring Mars within reach. And with time and further developments, who knows what will be possible by the time the 2020’s roll around?

Some alternatives include plasma and nuclear thermal rockets, which are in development and could bring the journey time down to a number of weeks. What’s more, SpaceX and other agencies are working on cheaper deliver systems, such as the grasshopper reusable rocket, to make sending ships into space that much more affordable. In addition, concepts for improving radiation shielding – like Inspiration Mars’ idea of using human waste – are being considered to cut down on the irradiation factor.

So despite the concerns, it seems that we are still on track for a Mars mission in 2030. And even if there are delays in the implementation, it seems as though a manned mission is just a matter of time at this point. Red Planet, here we come!

Sources: bbc.co.uk, wired.com