E-Sailing to the Edge of Space
Posted on September 27, 2018
鈥淭his has never been done before.鈥
With those six words, Dr. Carlos Montalvo captures the excitement of his current research.
Montalvo, an assistant professor of mechanical engineering at the 猫咪社区APP and director of South鈥檚 aerospace systems and technology lab, is working this fall with engineering graduate students Matt Simmons and Harrison White. Their ultimate goal? Harnessing solar wind to propel spacecraft to the very edge of space.
鈥淧retty cool,鈥 he said.
His method is to use something called the Electric Sail.
鈥淭he Electric Sail (or, E-Sail) is a relatively new concept of advanced in-space propulsion,鈥 Montalvo said. 鈥淭his technology has the potential to provide propellant-less propulsion throughout the solar system.鈥
He explains briefly how it works. 鈥淎n Electric Sail deploys multiple long tethers (about 20 kilometers, or 12 陆 miles, long) that are positively charged. The solar wind interacts with the tethers to provide propulsion.鈥
Propulsion even to the heliopause, which is the outer boundary of the sun鈥檚 influence, around 12 billion miles from the sun. (Earth, as a point of reference, is a mere 94 million miles from the sun.) The only spacecraft to reach the heliopause region is Voyager 1, which took 35 years to get there.
By contrast, Montalvo says the E-Sail's characteristic acceleration can allow it to reach the heliopause region in 10 years. It would take a solar sail 20 years and chemical rockets like the Voyager I would take 24 years. 鈥淭he increase in performance from a solar sail to an E-Sail lies in the sheath width of the electric sail, which grows with distance from the sun,鈥 Montalvo said.
In South鈥檚 College of Engineering, the ongoing work of Montalvo, Simmons and White is being conducted by starting with a dynamic model that contains a combined multi-body satellite model and a flexible tether. The model also includes an electric propulsion model. 鈥淭he complexity in the system is due to the fact that the entire system must spin to counteract the electric propulsion force which is caused by charging the tethers,鈥 Montalvo said.
Simmons and White are active participants in Montalvo鈥檚 research.
鈥淕oing forward, the research I will be helping with is validating the simplified simulation as well as adding in other styles of E-Sails to the simulation,鈥 Simmons said. 鈥淢y primary focus is on designing and prototyping a space tether deployment and braking mechanism,鈥 White said. The two graduate students received their bachelor鈥檚 degrees in mechanical engineering from South, and look to earn their master鈥檚 degrees in mechanical engineering in 2020.
Montalvo, whose doctorate is in aerospace engineering, has spent the past two summers at NASA鈥檚 Marshall Space Flight Center in Huntsville, developing full scale and simplified simulations of a barbell style E-Sail as well as other programs, such as the Mars Sample Return mission. The benefit of his research is obvious for students such as Simmons and White.
鈥淭his has and will help me in school and in my career by exposing me to relevant and new research and problems that NASA and other professionals are currently working to solve,鈥 said White, who is a graduate of Mobile鈥檚 Baker High School, and counts his mother and brother as South alums. 鈥淚t challenges me in ways that classes can't and helps me think in new and out-of-the-box ways. Specifically, because the E-Sail and all of its components will be in the vacuum of space, which alters virtually all calculations associated with its design.鈥
Simmons, who鈥檚 from Montgomery, says he is 鈥渄efinitely leaning鈥 toward aerospace research as a career. His graduate school experience is confirming that. 鈥淔or school, it helps because if I can understand the math behind the E-Sail models then I can handle pretty much anything the master's coursework will throw at me. If I want to pursue aerospace research as a career, this is a big stepping stone and shows employers I know what I'm doing.鈥
Down the road, Montalvo sees the E-Sail as an especially effective method to deploy small spacecraft for deep space missions. 鈥淭his has never been done before. It would pave the way for small secondary payloads to reach uncharted territories of our universe,鈥 Montalvo said. 鈥淭hey can be used for near Earth asteroid missions as well.
The excitement surrounding his research may be matched by the excitement that, beginning this fall, the University began offering an aerospace engineering track for mechanical engineering majors. Montalvo is the chair of the aerospace engineering track.
鈥淚'm very excited to see this happen,鈥 Montalvo said. 鈥淪o many students walk through my door expressing interest in aerospace engineering and now we have a way to satisfy some of those needs. As an aerospace engineer myself, this is a great opportunity to grow the student body in aerospace, to increase research in this area and to enhance the area鈥檚 aerospace industry.鈥
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