After observing the similarities between vortices in nuclear fusion and things like supernovae and smoke rings, a new modeling technique has been developed that could improve nuclear fusion.
"These vortex rings move outward from the collapsing star, populating the universe with the materials that will eventually become nebulae, planets, and even new stars—and inward during fusion implosions, disrupting the stability of the burning fusion fuel and reducing the efficiency of the reaction," explains Michael Wadas, a doctoral candidate in mechanical engineering at U-M and corresponding author of the study.
"Our research, which elucidates how such vortex rings form, can help scientists understand some of the most extreme events in the universe and bring humanity one step closer to capturing the power of nuclear fusion as an energy source," he added.In nuclear fusion reactors, atoms are pushed together until they merge to release exceptional amounts of energy, hence the interest in them.
The researchers have discovered that the vortex rings created at the front of these jets bear a mathematical resemblance to smoke rings, the swirls left in the wake of jellyfish, and the plasma rings emitted from a supernova's surface. "Fusion experiments happen so fast that we really only have to delay the formation of the jet for a few nanoseconds," said Eric Johnsen, an associate professor of mechanical engineering at U-M, who supervised the study.
The study brought together the fluid mechanics expertise of Wadas and Johnsen as well as the nuclear and plasma physics knowledge in the lab of Carolyn Kuranz, an associate professor of nuclear engineering and radiological sciences. "In high-energy-density physics, many studies point out these structures, but haven’t clearly identified them as vortex rings," said Wadas.
It is hoped now that researchers can gain insights into the capabilities of vortex rings by utilizing the model as it allows them to determine the maximum energy that can be transported by the ring, as well as the amount of fluid that can be displaced before the flow becomes turbulent and difficult to simulate. At present, the team is conducting experiments to validate the accuracy of the vortex ring model.
Indonesia Berita Terbaru, Indonesia Berita utama
Similar News:Anda juga dapat membaca berita serupa dengan ini yang kami kumpulkan dari sumber berita lain.
Atomic bomb survivors look to G7 summit in Hiroshima as a 'sliver of hope' for nuclear disarmamentHolding this week’s Group of Seven summit in Hiroshima, the site of the world’s first atomic bomb attack, is an attempt by Prime Minister Fumio Kishida to promote an anti-nuclear message. For many survivors, it’s also a rare — and possibly final — chance to show the world their desperate efforts to get rid of nuclear weapons. There's criticism that Kishida’s nuclear disarmament pledge is empty rhetoric. Sueichi Kido, an 83-year-old survivor from Nagasaki, says he doubts if Kishida can convince the three G7 nuclear states to make greater anti-nuclear efforts.
Baca lebih lajut »
New York City Council proposes permanent outdoor dining with new rulesDuring the pandemic, the Temporary Restaurants program saved 100,000 jobs and kept businesses afloat.
Baca lebih lajut »
New Met Gary Sanchez not dwelling on his previous New York stintGary Sanchez made it back to New York on Friday, still trying to resuscitate a career that has been going in the wrong direction for much of the last four years.
Baca lebih lajut »
AZ Science Center sets a new Guinness World Record and debuts a new exhibitA BIG way to debut the exhibit! ✂️ Guests can explore the science behind Guinness World Records through interactive activities throughout the 6,000 sq. ft. space at Arizona Science Center!
Baca lebih lajut »
Dua Lipa Debuts New Boyfriend (and New Bangs) at CannesForget new rules, now it’s all about new boyfriends.
Baca lebih lajut »