July 12, 2017
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Summer Scholar Explores the Use of Fibers to Purify Water

By Lisa Petrillo

It all started for Mariana Lanzarini-Lopes as an undergraduate, cracking coconuts in the West Indies, seeing the effects of dysentery while working in a hospital in Africa, and engineering a solar-powered refrigerator to keep medicine safe in Indian villages.

This was the path that led the doctoral student in environmental engineering to join the fight to solve one of the planet’s greatest problems—sustainability of clean water. And it brought her to the NIF and Photon Science Directorate as a NIF & PS Summer Scholar, where she is seeking a new high-tech solution to the problem through the use of optical fibers for water purification.

Lanzarini-Lopes works with mentors Mike Messerly, the Fiber Laser Group leader, physicist Graham Allen, and A.J. Simon, the LLNL Energy Group leader, along with Paul Westerhoff, her PhD advisor at the Arizona State University School of Sustainable Engineering and the Built Environment.

Her purified-water concept is quite practical, in Lopes’ view: "Think of a basic stream you drink directly from," she explains. "You seek the shallow end, because that gets the most sunlight," which helps to disinfect the water.

Her project builds on the sunlit-stream principal by shining ultraviolet (UV) light on contaminated water through a thin strip of silica fiber optic about one meter long. The light excites photocatalysts for nitrate and organics removal and inactivates bacteria and viruses, purifying the water.

Photo of Mariana Lanzarini-Lopes With Her NIF&PS Mentors
Lanzarini-Lopes with Fiber Laser Development Team members Mike Messerly (left) and Graham Allen. Credit: Jason Laurea

"My summer goal is better UV emissivity along the length of the fiber," Lanzarini-Lopes says. She will coat the fiber with special water-resistant chemicals, including titanium dioxide, to test how bacteria react and ensure that water purification occurs after light treatment. "I don’t want anything to have UV absorption except my titanium dioxide or bacteria that I’m treating," she says.

Lanzarini-Lopes’ passion for clean-water research was born while pursuing her chemical engineering degree from the University of Dayton. Her family had settled in Ohio after leaving her native Sao Paolo, Brazil, when she was in middle school. At Dayton she earned summer internships in Zambia in southern Africa, teaching physics and working at a hospital where she saw first-hand the toll of water-borne disease, especially on children.

In an ancient region of India on the Ganges River, in the east-central city of Patna, Bihar, she worked on a university-sponsored solar-powered refrigeration project. And on the West Indies island of Dominica, she engineered better processing for coconut-oil production. While all her stays were in modest quarters, what mostly struck her was the contrast in the quality of life for the people around her: it wasn’t the terrain, or the lifestyle, or the climate, but the water quality that made the difference.

"I lived in these areas where people didn’t have a lot," she says, "yet their quality of life was so much better in Dominica because they had pure water to drink, to grow food in, and play in. They understood that, and it mattered to them." She realized the impact clean water could make on a large scale, and set out to make water quality her life’s work.

Under the watchful eye of Fiber Group leader Mike Messerly, a fiber-optic strand is fabricated in LLNL’s fiber draw tower.
Under the watchful eye of Fiber Group leader Mike Messerly, a fiber-optic strand is fabricated in LLNL’s fiber draw tower. Credit: Jason Laurea

Lanzarini-Lopes’ project this summer is to characterize the fibers drawn from the Lab’s fiber draw tower, which can fabricate customized fiber with pure silica of varying degrees of porosity, depending on the scale and diameter needed. It’s the next step toward proof of principal in her personal research. Once back in her lab at Arizona State, where she has built a larger-scale testing container, she will use the fibers to process ultraviolet light to purify water; the results from her Livermore research will help with her doctoral dissertation.

While her passion has been sustainability, and she has devoted all her summers to pursuing internships to further that cause, Lanzarini-Lopes does admit to spending some downtime playing ultimate Frisbee—a sport played by teams of seven on soccer-sized fields. While the game may have been born in the counterculture days, she takes her fun seriously, playing for Rubix, a competitive Phoenix traveling team.

After completing her PhD, Lanzarini-Lopes plans to get a job to gain experience—internationally if possible, as she speaks Portuguese and Spanish in addition to English—and she has strong interest in the field of electrochemistry for water treatment. And as for the future? "I might go into teaching eventually," she muses. "When I’m older."