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New AI model could make power grids more reliable amid rising renewable energy use

Matter and energy from Science Daily Feed - Thu, 10/24/2024 - 2:37pm
Researchers use AI to manage the growing complexity of modern power grids.
Categories: Science

New AI model could make power grids more reliable amid rising renewable energy use

Computers and Math from Science Daily Feed - Thu, 10/24/2024 - 2:37pm
Researchers use AI to manage the growing complexity of modern power grids.
Categories: Science

Did Some of Earth’s Water Come from the Solar Wind?

Universe Today Feed - Thu, 10/24/2024 - 12:55pm

The source of Earth’s water is an enduring mystery that extends to exoplanets and the notion of habitability. In broad terms, Earth’s water was either part of the planet from the beginning of its formation in the solar nebula or delivered later, maybe by asteroids and comets.

New research suggests that the Sun’s relentless solar wind could’ve played a role.

Scientists have worked hard to understand how Earth has so much life-giving water. There’s lots of research supporting the asteroid/comet delivery scenario. There’s also evidence that it accumulated water as it grew. During its accretion phase, it may have absorbed water-rich planetesimals.

To try to understand how Earth’s water fits into the history of the planet and the Solar System, researchers examine the isotope ratio on Earth and in meteorites. The isotopic composition of Earth’s water is most similar to primitive meteorites. On the other hand, it’s different from that of comets and nebular gas.

This implies that Earth’s water came from the same cosmochemical reservoir that is also the source of primitive meteorites.

It’s a complicated issue. Maybe Earth’s water has multiple sources. Maybe some of it was created in space long after Earth and the rest of the Solar System formed, and then delivered to Earth.

New research in The Astrophysical Journal explores how water can be created by the solar wind as it strikes surfaces holding oxygen-containing minerals. It’s titled “Stellar Wind Contribution to the Origin of Water on the Surface of Oxygen-containing Minerals.” The lead author is Svatolpuk Civiš from the J. Heyrovský Institute of Physical Chemistry at the Czech Academy of Sciences in Prague.

The solar wind is a steady stream of charged particles—mostly protons and electrons—that come from the Sun. H+ ions, which are simply protons, are the most abundant particles in the solar wind. They make a big contribution to the solar wind’s properties. Could the wind trigger the creation of water molecules?

The researchers performed laboratory experiments to find out. They tested 14 oxygen-containing minerals. “To investigate the process of water formation on the surface of oxidic materials and water abundances, we used the technique of surface bombardment with hydrogen or deuterium atoms and ions,” the authors write in their paper.

The list of materials tested in the laboratory. Note that two of the samples are meteorites and that one of the samples, TiO2 P25 anatase, did not produce water in its discharge. Image Credit: Civiš et al. 2024.

The experiments had two phases: the first tested whether the minerals would produce water when exposed to the solar wind, and the second tested their adsorption capacity. Separate from absorption, adsorption is the adhesion of a sample to a surface.

The team produced water and then measured it using two methods: a microwave (MW) discharge experiment and sputter gun irradiation. They tested the results with a type of spectrometry analysis called Fourier-transform infrared spectrometry (FTIR) and temperature-programmed desorption (TPD) analysis.

“Both these experiments include a mineral sample bombarded by hydrogen/deuterium ions, which, among other possibilities, react with surface oxygens in the mineral lattice and form water molecules,” the authors write.

This figure illustrates the two types of laboratory tests. The left panel shows the MW discharge method and the right panel shows the Ion sputter gun method. Image Credit: Civiš et al. 2024.

The oxide material samples were not only exposed to the strong current of H, H+ and molecular hydrogen that mimic the solar wind. They were also exposed to intense visible and UV radiation generated in the hydrogen discharge.

“The stellar wind irradiation of rocky oxygen-containing minerals results in a reaction between H+ ions and silicate minerals to produce water and OH, which could explain the presence of water in the regoliths of airless worlds such as the Moon, as well as the water abundances in asteroids,” the authors write.

Previous research has established that a chemical reaction occurs between hydrogen ions and silicate minerals when rocky materials are exposed to solar wind irradiation. Some researchers have observed the formation of OH (hydroxide) and water, while others have only found OH. This research goes deeper by testing the rocky materials for water adsorption.

The researchers tested the samples’ water adsorption capacity. Then, they calculated how much material would need to reach Earth to account for the amount of water on contemporary Earth.

“Besides material acquired by the Earth during accretion, the solar wind origin of water and its delivery to Earth could have gone on even during post-accretional bombardment,” the authors write. Here, they’re referring to the hypothetical Late Heavy Bombardment.

Previous research shows that ” asteroid and comet impacts during the classical Late Heavy Bombardment would bring in about ?1020 kg of material,” the authors write. “If that material’s surface was fully saturated with adsorbed water as composed of one of our minerals, our calculations suggest that at least one ocean equivalent of water could have been brought in.”

This schematic from the research shows how the solar wind can create water molecules on rocky bodies like asteroids. The water is adsorbed into a thin film and adheres to the asteroid. Eventually, some of this water is delivered to Earth by impacts. Image Credit: Civiš et al. 2024.

There’s not much doubt about the results of these tests and the ability of the solar wind to create water.

“The results of the experiments summarized in this work, focused on surface bombardment with hydrogen atoms, clearly confirm the theory of the interaction of excited hydrogen or deuterium Rydberg atoms and ions with the surface oxygens of oxide minerals,” the authors explain. “Our experiments attempt to explain the origin of water in the areas of oxygen-containing solid material (e.g., dust, meteoroids, asteroids, comets) exposed to a stream of charged particles close to a parent star.”

Earth’s atmosphere and magnetosphere shield it from the solar wind, so there’s no way the wind could’ve created water right on Earth’s surface. However, as the study shows, the wind can create water on the surface of other bodies like asteroids, and the water can be adsorbed and held firm, then delivered to Earth via impacts.

“This scenario is also applicable to the origin of water on Earth,” the authors write. “Due to this effect, a water molecule can be adsorbed on the surface of oxygen-containing particles and then transported over long distances and times,” the researchers write.

This study won’t be the end of the ongoing effort to account for Earth’s water. In a fascinating roundabout way, this research brings us back to asteroids and meteorites delivering Earth’s water. If it can happen here, it can happen on exoplanets elsewhere in the galaxy.

The post Did Some of Earth’s Water Come from the Solar Wind? appeared first on Universe Today.

Categories: Science

Researchers develop low-cost device that detects cancer in an hour

Matter and energy from Science Daily Feed - Thu, 10/24/2024 - 12:41pm
Researchers have created a portable device that can detect colorectal and prostate cancer more cheaply and quickly than prevailing methods. The team believes the device may be especially helpful in developing countries, which experience higher cancer mortality rates due in part to barriers to medical diagnosis.
Categories: Science

Ion Engines Could Take Us to the Solar Gravitational Lens in Less Than 13 Years

Universe Today Feed - Thu, 10/24/2024 - 12:00pm

Sending an object to another star is still the stuff of science fiction. But some concrete missions could get us at least part way there. These “interstellar precursor missions” include a trip to the Solar Gravitational Lens point at 550 AU from the Sun – farther than any artificial object has ever been, including Voyager. To get there, we’ll need plenty of new technologies, and a recent paper presented at the 75th International Astronautical Congress in Milan this month looks at one of those potential technologies – electric propulsion systems, otherwise known as ion drives. 

The paper aimed to assess when any existing ion drive technology could port a large payload on one of several trajectories, including a trip around Jupiter, one visiting Pluto, and even one reaching that fabled Solar Gravitational Lens. To do so, they specified an “ideal” ion drive with characteristics that enabled optimal values for some of the system’s physical characteristics.

First among those characteristics is the power plant. Ion thrusters need a power source and an effective one if they will last more than a decade under thrust. The paper defined an ideal power plan that can output 1 kW per kg of weight. This is currently well outside the realm of possibility, with the best ion thruster power sources coming at something like 10 W per kg and even nuclear electric propulsion systems outputing 100 W per kg. Some potentially better technologies are on the horizon, but nothing tested in the literature would meet this requirement yet.

Fraser discusses the concept of the solar gravitational lens with Dr. Slava Turyshev

Thrust efficiency is another consideration for this idealized mission. The authors, who are writing under the banner of the Initiative for Interstellar Studies, a non-profit group based out of the UK, suggested that an idealized thrust efficiency is 97%. That would also significantly improve existing technologies, which average closer to 75-80% efficiency for working models. Additional improvements could increase this number, such as magnetic containment fields around the thruster’s walls. Still, as it gets closer to that 97% range, finding efficiency improvements becomes harder and harder.

The last characteristic the authors considered was the specific impulse. This one has the most comprehensive variability regarding the theoretical potential of all three systems. Their idealized value of 34,000-76,000 seconds of specific impulse is well within the bounds of the potential values for more speculative technologies. The paper mentions that specific impulse values twice the suggested upper range could be possible with the proper selection of thruster and propellant. They also point out that development on these technologies is stalled not because we can’t make drives with better specific impulse but because we can’t produce power plants that support them yet. So, solving the power plant issue will enable further development in this area.

Fraser discusses the details of ion engines and why they’re so efficient.

Suppose all three characteristics were combined into a complete functional propulsion system. In that case, the authors calculate that it could deliver a payload of almost 18,000 kg to the Solar Gravitational Lens in just 13 years – much faster than any previous mission would be capable of. But that optimization is still a long way off, and while there are missions planned for deployment to the SGL someday, it is still a long way off before they launch and even longer before they arrive there. In the meantime, engineers have some additional problems to solve if they want to optimize the potential of ion thrusters.

Learn More:
N Maraqten, D Fries, A Genovese – Advanced Electric Propulsion Systems with Optimal Specific Impulses for Fast Interstellar Precursor Missions
UT – Next Generation Ion Engines Will Be Extremely Powerful
UT – Ion Engines Could Work on Earth too, to Make Silent, Solid-State Aircraft
UT – The Most Powerful Ion Engine Ever Built Passes the Test

Lead Image:
Ion Thruster
Credit – NASA

The post Ion Engines Could Take Us to the Solar Gravitational Lens in Less Than 13 Years appeared first on Universe Today.

Categories: Science

Complex form of carbon spotted outside solar system for first time

New Scientist Feed - Thu, 10/24/2024 - 12:00pm
Complex carbon-based molecules crucial to life on Earth originated somewhere in space, but we didn't know where. Now, huge amounts of them have been spotted in a huge, cold cloud of gas
Categories: Science

Your gut bacteria are at war - and force their enemies to switch sides

New Scientist Feed - Thu, 10/24/2024 - 12:00pm
Rival tribes of bacteria armed with poison darts are fighting it out in your gut, with armies of traitors often winning the day
Categories: Science

Some wildfires are growing twice as fast as they did two decades ago

New Scientist Feed - Thu, 10/24/2024 - 12:00pm
In the western US, the average maximum growth rate of fires has more than doubled over the past two decades
Categories: Science

Scientists discover molecules that store much of the carbon in space

Space and time from Science Daily Feed - Thu, 10/24/2024 - 11:53am
A distant interstellar cloud was found to contain an abundance of pyrene, a type of large carbon-containing molecules known as polycyclic aromatic hydrocarbons (PAHs). This suggest pyrene may have been the source of much of the carbon in our solar system.
Categories: Science

A new hydrogel semiconductor represents a breakthrough for tissue-interfaced bioelectronics

Matter and energy from Science Daily Feed - Thu, 10/24/2024 - 11:52am
The ideal material for interfacing electronics with living tissue is soft, stretchable, and just as water-loving as the tissue itself--in short, a hydrogel. Semiconductors, the key materials for bioelectronics such as pacemakers, biosensors, and drug delivery devices, on the other hand, are rigid, brittle, and water-hating, impossible to dissolve in the way hydrogels have traditionally been built. Scientists have now solved this challenge that has long stymied researchers, reimagining the process of creating hydrogels to build a powerful semiconductor in hydrogel form. The result is a bluish gel that flutters like a sea jelly in water but retains the immense semiconductive ability needed to transmit information between living tissue and machine.
Categories: Science

Battery-like device made from water and clay could be used on Mars

New Scientist Feed - Thu, 10/24/2024 - 10:55am
A new supercapacitor design that uses only water, clay and graphene could source material on Mars and be more sustainable and accessible than traditional batteries
Categories: Science

Battery made from water and clay could be used on Mars

New Scientist Feed - Thu, 10/24/2024 - 10:55am
A new battery design that uses only water, clay and graphene could source material on Mars and be more sustainable and accessible than traditional batteries
Categories: Science

From accessibility upgrades to a custom cat-food bowl, this mobile 3D printer can autonomously add features to a room

Matter and energy from Science Daily Feed - Thu, 10/24/2024 - 10:21am
Researchers created MobiPrint, a mobile 3D printer that can automatically measure a room and print objects onto the floor. The team's graphic interface lets users design objects in a space that the robot has mapped out. The prototype, which the team built on a modified consumer vacuum robot, can add a range of objects to rooms.
Categories: Science

From accessibility upgrades to a custom cat-food bowl, this mobile 3D printer can autonomously add features to a room

Computers and Math from Science Daily Feed - Thu, 10/24/2024 - 10:21am
Researchers created MobiPrint, a mobile 3D printer that can automatically measure a room and print objects onto the floor. The team's graphic interface lets users design objects in a space that the robot has mapped out. The prototype, which the team built on a modified consumer vacuum robot, can add a range of objects to rooms.
Categories: Science

Fire-risk blocking self-powered hydrogen production system

Matter and energy from Science Daily Feed - Thu, 10/24/2024 - 10:20am
By using a water-splitting system with an aqueous electrolyte, this system is expected to block fire risks and enable stable hydrogen production.
Categories: Science

Scientists develop grain-sized soft robots controlled by magnetic fields for targeted drug delivery

Matter and energy from Science Daily Feed - Thu, 10/24/2024 - 10:19am
A team of scientists has developed grain-sized soft robots that can be controlled using magnetic fields for targeted drug delivery, paving the way to possible improved therapies in future.
Categories: Science

Scientists develop grain-sized soft robots controlled by magnetic fields for targeted drug delivery

Computers and Math from Science Daily Feed - Thu, 10/24/2024 - 10:19am
A team of scientists has developed grain-sized soft robots that can be controlled using magnetic fields for targeted drug delivery, paving the way to possible improved therapies in future.
Categories: Science

Non-electric touchpad takes sensor technology to extreme conditions

Matter and energy from Science Daily Feed - Thu, 10/24/2024 - 10:19am
Researchers have developed the world's first soft touchpad that can sense the force, area and location of contact without electricity. The device utilizes pneumatic channels, enabling its use in environments such as MRI machines and other conditions that are unsuitable for electronic devices. Soft devices like soft robots and rehabilitation aids could also benefit from this new technology.
Categories: Science

Non-electric touchpad takes sensor technology to extreme conditions

Computers and Math from Science Daily Feed - Thu, 10/24/2024 - 10:19am
Researchers have developed the world's first soft touchpad that can sense the force, area and location of contact without electricity. The device utilizes pneumatic channels, enabling its use in environments such as MRI machines and other conditions that are unsuitable for electronic devices. Soft devices like soft robots and rehabilitation aids could also benefit from this new technology.
Categories: Science

Quantum experiments and high-performance computing: New methods enable complex calculations to be completed extremely quickly

Computers and Math from Science Daily Feed - Thu, 10/24/2024 - 10:19am
Scientists have used high-performance computing at large scales to analyze a quantum photonics experiment. In specific terms, this involved the tomographic reconstruction of experimental data from a quantum detector.
Categories: Science

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