Category: News

Southern Research SIPSE intern wins Milken ‘Oscar of Teaching’ award

Posted on November 14, 2019

A former intern at Southern Research has been honored as one of the nation’s top educators.

Raisa Eady, a biology teacher at Jefferson County’s Pinson Valley High School, last month received the Milken Educator Award, known as the “Oscars of Teaching,” during a surprise assembly at her school.

Given for more than 30 years by the Milken Family Foundation, the awards honor unsung heroes of the classroom for their impressive achievements. Each award includes a $25,000 cash prize.

Eady was part of the first Summer Internship Program for STEM Educators, or SIPSE, at Southern Research in 2018. She spent the summer working alongside the organization’s scientists and had many amazing learning opportunities, she said.

“My biggest take away from my wonderful experience would be how the science world is truly multifaceted,” she said. “Students often think of science as one-dimensional. In fact, there are many opportunities to be a part of the research world.”

Milken Educator Award Southern Research
Raisa Eady, an Alabama teacher who worked as an intern at Southern Research, won the Milken Educator Award, a prestigious national honor. She was a member of the first SIPSE cohort at Southern Research.

Eady said she enjoyed being part of the research process.

“I have always loved science and education; however, I never felt confident in my instrumentation. During my internship, I became a real member of my team. I also realized I had a great passion for cell culture!”

IMPORTANT LESSONS

The experience made a lasting impression, she said.

“My time at Southern Research had a profound impact on my work in the classroom. As I learned more about the intricate details of contract science, I realized that science does not always follow a typical ‘scientific method’ approach. It is definitely not a cookbook recipe process that is often projected in our science classrooms,” she said.

Eady also was exposed to the business world behind research, and she is sharing that with her students.

“I have made it a point to discuss all of the possible career opportunities that are vital pieces to the world of research, whether it be cell culture, drug development, contract science, administration and more. It is important for our students to understand the varied pathways available to them in the field of science.

“It is also great to be able to throw in the occasional, ‘while I was doing cancer research at Southern Research,’ while teaching!”

‘AN ABSOLUTE NATURAL’

Eady impressed her colleagues from the beginning of her internship, said her mentor, Michael Koratich, associate director and head of Oncology Drug Development at Southern Research.

“Raisa was awesome and an absolute natural,” he said. “Within a couple of weeks of her coming on board, we had completely integrated her as a regular functioning technician in the laboratory.”

Koratich said Eady asked good questions, thought things through and caught on to her new tasks quickly. Her summer project involved learning to grow cancer cells and perform cytotoxicity experiments.

“What we do in Drug Development is very different from a traditional research science path since we work with commercial customers as well,” he said. “We interface with clients and determine how much a project will cost. The goal was to expose her to different sides of science, so she would have a frame of reference to let students know that it’s not just all about working in the lab.”

‘A REMARKABLE TEACHER’

The Milken Awards target early- to mid-career education professionals for their achievements and for the promise of future accomplishments. Winners are given access to powerful networking and development resources throughout their careers.

To date, more than 2,800 awards have been given, totaling $70 million. Eady is among 13 award winners for 2019-20.

Eady earned a bachelor’s degree from Alabama State University in 2012 and a master’s degree from the University of West Alabama in 2018. Both are in biology education.

She serves as chair of Pinson Valley’s science department, as well as lead teacher for the district’s 150 science educators in grades 6-12.

Her Milken Awards bio notes her ability to make biology relevant to her students’ lives, building great rapport with them and using daily learning targets, grouping, visuals and formative assessments to engage them.

Southern Research
Raisa Eady was a member of the first group of teachers in Southern Research’s Summer Internship Program for STEM Educators, or SIPSE.

She mentors new teachers, leads the district’s Literacy Design Collaborative Initiative and serves on the school’s ESL committee and transformation team.

Eady also is working to build a robust AP Biology program, with the number of students taking the course and AP exam increasing over the past three years. She coaches the Science Olympiad and sponsors the Science National Honor Society.

Kathryn Lanier, Ph.D., Southern Research’s STEM Education Outreach Director, said she knew Eady would win a top award someday.

“She is truly a remarkable teacher, and you can go into her classroom and see that right away,” she said.

SIPSE was expanded from six spots in 2018 to 14 spots in 2019. The program offers participating teachers real-world applications of the subjects they teach. During the summer, the educators develop new strategies to teach STEM subjects in the classroom.

“All of the teachers that come to SIPSE are truly exceptional educators, and all SIPSE is doing is empowering them to challenge themselves,” Lanier said. “SIPSE is giving them that extra nugget of research and science and giving them the opportunity to live that life.”

Read an article about the program.

 

 

Southern Research to develop smart robots for next-gen nuclear reactors under DOE grant

Posted on October 3, 2019

The U.S. Department of Energy (DOE) has awarded a team led by Southern Research a $2.8 million grant to develop smart maintenance robots that will work autonomously in the challenging conditions inside next-generation nuclear reactors.

The team working on the project, funded by DOE’s Advanced Research Projects Agency-Energy (ARPA-E), will use artificial intelligence and machine learning to train the robots to complete maintenance tasks at a future molten salt reactor (MSR) large component test facility.

Autonomous maintenance is seen as an enabling capability to making MSR technology economically viable as a safe, carbon-free energy source, according to Robert Amaro, Ph.D., a mechanical engineer and advanced manufacturing specialist at Southern Research’s Engineering division.

Southern Research nuclear energy
Robert Amaro of Southern Research will lead a project to develop autonomous robots for next-generation nuclear reactors.

“The MSR technology is very promising because of its inherent safety, but the high-temperature, high-radiation environment makes it necessary to remotely maintain the reactor. Training robots to perform maintenance tasks is a key capability in the development of these reactors,” Amaro said.

As the project’s program manager, Amaro will prepare the robots for their mission, but what is unusual about this project is that the robots will be trained in a virtual environment, using machine learning to execute a range of routine maintenance tasks. The operator would provide high-level guidance to the smart robots but would not have to direct each specific task they perform in the MSR, Amaro said.

The success of this project promises to significantly advance future nuclear power generation.

On the project, Southern Research has partnered with Oak Ridge National Laboratory, the creator of the original MSR technology; PaR Systems, a leading manufacturer of automation and robotic technology used in nuclear facilities; Intuitive Research and Technology Corp., which specializes in 3-D virtual training environments; DEFT Dynamics, an innovative small business developing real time feedback for robots and manipulators; and Southern Company, a leading energy company based in Atlanta.

The project supports a proposed concept being explored by Southern Company Research and Development (R&D) to develop a molten salt large component test facility in conjunction with its efforts to advance Generation IV nuclear energy systems. Southern Company and TerraPower, a nuclear startup founded by Bill Gates, received DOE funding in 2016, as part of an ongoing effort to develop a Molten Chloride Fast Reactor that uses liquid salts as both a coolant and fuel.

Southern Company will assist the Southern Research team by providing 3-D modeling of the future test facility to help the robot training efforts. It will also provide oversight to ensure the technology developed by Southern Research is applicable to MSR technology.

“Southern Research has put together a strong technical team for this project, and this is a great opportunity for the organization to become part of a large, collaborative, industry-leading effort to develop next-generation nuclear power for the clean, safe, reliable and affordable generation of electricity,” said Nick Irvin, Southern Company director of research strategy, next-generation nuclear and crosscutting R&D.

Though MSR technology has never been commercialized, it was first developed as an experiment at the Oak Ridge National Laboratory in the 1960s. Now, almost 60 years later, the technology is seen by many as an energy system for the future.

Interest has been rekindled in MSR technology because it offers a zero-carbon energy resource that operates at high temperatures and low pressure using a nonreactive coolant. And these reactors are capable of being designed and scaled for both small- and large-scale deployments.

COLLABORATIONS

For Birmingham-based Southern Research, the project is groundbreaking in a number of ways, said Corey Tyree, Ph.D., senior director of Southern Research’s Energy and Environment division. It’s the organization’s first large-scale nuclear project and the first time it’s been funded by ARPA-E, a government agency that typically funds higher-risk projects that have a greater impact and a higher reward in the energy sector.

For Southern Research, it also represents the first major collaboration between its Engineering and Energy & Environment divisions on a project of this magnitude, he added.

“This is an exciting project because it moves us into some new directions,” Tyree said. “The work leverages our knowledge base in materials, energy and environment, while also moving us into new technical areas like automation, robotics and virtual environment training by partnering with other world leaders in these areas.”

Both Amaro and Tyree agree that the development of this autonomous robot technology can better position Southern Research for new industrial partnerships looking for applications in advanced manufacturing as well as applications supporting the nation’s space program, where a similar skill set may be required to perform complex tasks in hostile environments.

 

Full slate of field trips magnifies impact of STEM outreach program

Posted on October 1, 2019

Southern Research is making significant strides in efforts to improve STEM education in classrooms across the state.

As of last month, the organization’s STEM education outreach program has touched 35,045 students from 40 of Alabama’s 67 counties.

Field trips, which bring students to Southern Research’s Birmingham campus and its state-of-the-art STEM lab, are a key part of the program.

Last school year, there were about 30 field trips, and that number has grown to nearly 80 in the current, 2019-2020 year.

“It has evolved into something truly spectacular, and we are swamped with field trip requests,” said Kathryn Lanier, Ph.D., Southern Research’s STEM education outreach director. “We have an online request form, and we are completely booked, with a waiting list.”

Kathryn Lanier Southern Research
Kathryn Lanier directs Southern Research’s STEM education outreach program, which has touched more than 35,000 students from 40 Alabama counties.

Lanier credits the growth of the field trips to Liz Johnson, Ph.D., who was hired about a year ago as a STEM education specialist.

Johnson, she said, has done an impressive job of coming up with new content and fresh ideas to present the important work that Southern Research scientists do in a fun and relatable way.

Field trips cover a variety of topics and are designed to correspond with Southern Research’s different focus areas, including Drug Discovery, Drug Development, Engineering, and Energy & Environment.

For example, one field trip format focuses on infectious diseases, walking students through the process of tracking and diagnosing infections. They learn basic principles of immunology, including how the presence of foreign substances, known as antigens, can induce the formation of antibodies.

In this field trip, students participate in a simulated disease outbreak activity, investigate primary and secondary immune responses and diagnose disease using enzyme-linked immunosorbent assays.

In another field trip series, students focus on green engineering in learning how to transfer renewable resources like wind, water or solar energy into electricity. They learn about the basics of kinetic and potential energy, the conservation of energy and the transfer of energy by designing, building and testing renewable energy prototypes.

Students also explore how strains of bacteria become resistant to antibiotics, and they learn the underlying chemistry of ocean acidification.

LAB SETTING

Johnson said the Southern Research STEM lab, which opened in the summer of 2018, is the perfect setting to capture students’ attention and fuel their interest in STEM subjects.

The brightly colored space is outfitted with equipment and supplies to conduct physical and life science experiments in a fully functional lab setting. It also features 3D printers, robotics equipment and other innovative engineering gear.

Southern Research STEM outreach
STEM field trips introduce students to the wide range of activities at Southern Research, ranging from drug discovery to engineering.

“Every time a new group comes in, it’s so fun to watch their faces,” Johnson said. “They tell us it looks like Disney World or Nickelodeon Studios, and that excitement helps them learn.

“We want to fuel their desire to learn through engaging hands-on experiments. A new and exciting environment allows them to open up and be more receptive to new things,” she added.

Most field trips include between 40 and 44 students. Participating students range from sixth grade to 12th grade, with a good mix of middle and high schools visiting the campus.

One of the major goals of the field trips is to give students a real-world understanding of the lessons they are taught in the classroom, Johnson said.

“We not only want to align our content with the Alabama course of study, but we also want to align it with the science and engineering we do here at Southern Research,” she said.

The field trips are free. Southern Research provides materials and supplies, as well as lunch if the students are on campus for a full day. The organization also offers reimbursement for bus transportation and substitutes in the classroom for the teachers who make the trip.

“We’ve learned a lot of these school systems don’t have the financial means to go on field trips, and us offering this for free really gives them the opportunity to enjoy it and not worry about the financial strain. That has enabled a lot of students and teachers to come,” Johnson said.

HANDS-ON LEARNING

Southern Research STEM outreach
The objective of Southern Research’s STEM education outreach program is to strengthen the pipeline of students entering STEM careers in Alabama.

Feedback from teachers has been positive.

Cheryl Massey, 8th Grade Science & STEM Instructor at Fort Payne Middle School, took her students on a field trip to Southern Research after they studied energy in physical science class.

The group participated in the green engineering project in which they designed, constructed and tested wind turbines. After that, students used their data to create and analyze graphs, which helped them brainstorm ways to improve their designs.

“Standing back and observing our students apply their knowledge and work together was enlightening. Southern Research is an outstanding way to provide students the opportunity for hands-on application learning. The program schedule fit perfectly with our day, allowing us lunch time and travel time,” Massey said.

Lanier said the field trip program grew out of STEM Day, a one-day event that pairs students with Southern Research scientists to get a behind-the-scenes look at careers in STEM fields.

“Incredible things happen when you put students in a space that that not only inspires a sense of discovery but also places them right next door to world-class scientists and engineers. It creates an atmosphere where students can begin to believe that they too can be the ones who shepherd impossible innovations and create the technologies of the future,” she said.

The hands-on experience students gain in the lab helps further the ultimate goal of Southern Research’s STEM education outreach program, which is to strengthen the pipeline of students entering STEM careers.

“There’s such a history of innovation and greatness here at Southern Research, and it’s very different from anything they could experience at school,” Lanier said. “It gets these kids so excited, and that’s what we want to see.

“We want to show them how rewarding, how much fun and what a difference they can make if they choose a career in STEM.”

Southern Research STEM outreach
Liz Johnson, STEM education specialist at Southern Research, has developed new content for the field trips.

Southern Research licenses technology to Agra for ‘waste-to-energy’ project

Posted on September 18, 2019

Waste from cities, restaurants and farms across the nation presents a problem because of resulting greenhouse gas emissions, but innovative technology developed by Southern Research could soon help address environmental concerns and spark investment that supports dynamic change.

Under a licensing deal that is the first of its kind, Southern Research’s Energy & Environment (E&E) division is providing an Irvine, California-based company with patented technology and specialized equipment for a “waste-to-energy” project.

Agriculture is a key marketspace for Agra Energy Corp. By partnering with dairy farmers across the nation, Agra Energy intends to use an advanced chemical-conversion process developed by Southern Research scientists to turn cow manure into clean, renewable fuels conventionally produced from crude oil.

Southern Research sustainable chemistry
Southern Research’s Sustainable Chemistry team includes, from left, Chanse Appling, Wesley Wilson, Swanand Tupsakhare, Amit Goyal, Zora Govedarica and Jadid Samad.

Southern Research’s collaboration with Agra Energy comes at a time when concerns are rising about the negative impacts of solid waste produced at large-scale agricultural operations such as dairy, poultry and hog farms.

“We have to produce our food more sustainably,” said Corey Tyree, Ph.D., senior director of E&E at Southern Research. “There are opportunities to manage agricultural waste to do less harm to our land and water resources. One opportunity is to convert waste like manure into liquid fuels. This benefits the farmer and the environment. The technology being licensed to Agra enables all of this to happen.”

Tony Long, president of Agra Energy, said the Southern Research technology aligns with his company’s broad mission.

“Our directive, as an innovative renewable energy company, has a laser-focused agenda: implement engineering solutions that shift consumption away from fossil fuels, convert pollution sources into clean energy sources, and offer real economic returns that provoke real action within the industry and greater society,” Long said.

“We are excited to join our experienced team together with Southern Research to bring their base technology processes into commercialization.”

‘GTL’ PROCESS

Southern Research scientists developed the proprietary process being licensed to Agra Energy through work on a series of U.S. Department of Energy projects that explored how to convert low-rank coal and coal-biomass mixtures to high-quality liquid fuels, among other things.

Southern Research’s unique “gas-to-liquids” (GTL) process, patented in 2016, will feature in small-scale GTL units that Agra Energy will deploy to farms to produce renewable diesel and other valuable liquid fuels after the manure is converted into a synthesis gas, or syngas.

Southern Research sustainable chemistry
Southern Research’s Amit Goyal stands in front of the team’s “gas-to-liquids,” or GTL technology, which will help Agra Energy turn cow manure into renewable fuels.

“Our GTL technology is a unique combination of novel stable catalysts with better yields to fuel and a reactor system with better heat management, improving efficiency,” said Amit Goyal, Ph.D., director of Southern Research’s Sustainable Chemistry and Catalysis laboratory.

“These advances allow technology to be deployed at smaller modular scales, enabling biogas obtained from farm manure to be converted to syngas and subsequently to fuels.”

While conventional GTL technology has been around for decades, it has required massive scale with major investment commitment. By utilizing Southern Research’s GTL process, Agra Energy aims to deploy the technology on a cost-efficient “micro” level across the nation.

As part of this collaboration, Southern Research is now fabricating equipment in Birmingham that Agra Energy will install as a pilot program at a dairy farm in Wisconsin to demonstrate the capabilities of the technology.

‘GLOBAL POTENTIAL’

Tyree said this agreement commercializing technology developed by scientists in Southern Research’s E&E division gives Agra Energy exclusive rights to the GTL process across the United States.

“While we think there is global potential long term, we are thrilled to partner with Agra and benefit U.S. farmers and the environment,” Tyree said.

He also expects other commercialization deals involving intellectual property created by Southern Research’s E&E scientists to be signed in the future.

 

Project funded by The Michael J. Fox Foundation targets deeper understanding of neuronal death in Parkinson’s

Posted on August 23, 2019

The Michael J. Fox Foundation for Parkinson’s Research (MJFF) has awarded Southern Research scientist Rita Cowell, Ph.D., a $150,000 grant to study how certain brain cells die in Parkinson’s disease in order to gain insights that could lead to new therapeutic targets.

Cowell, a fellow and chair of the Neuroscience Department in Southern Research’s Drug Discovery division, said her investigation will classify different types of dopamine-producing neurons in the brain’s substantia nigra region and determine how vulnerable they are to cell death and dysfunction.

The impairment of these neurons – nerve cells that transmit high-speed signals to regions of the brain involved in initiating movements – and the resulting loss of dopamine, a chemical messenger, are key contributors to the symptoms of Parkinson’s disease.

Rita Cowell Southern Research Parkinson's
Technical approaches for Southern Research neuroscientist Rita Cowell’s projects involve capturing images of neurons with fluorescent light microscopy to visualize and localize gene expression to subpopulations of neurons.

To better understand why this happens, Cowell’s team aims to pinpoint the subtypes of dopaminergic neurons that are lost in brain tissue samples from Parkinson’s disease rodent models and humans who had the disease.

“Basically, we are going to use gene markers to identify and investigate whether the neurons that die in a mouse model are the same neurons that die in people,” she said.

“This could be really informative because if only one group of the neurons in the mouse matches what is going on in the human, that’s the only group we should be studying.”

Cowell said understanding the different molecular profiles of these neurons – and being able to identify which ones are most vulnerable to degeneration — could help scientists identify new pathways for therapies targeting Parkinson’s.

The neurological disorder affects an estimated 1 million . Around 60,000 new cases are diagnosed annually in the United States, typically in people over 60, according to the Parkinson’s Foundation.

URGENT NEED

Cowell said new treatments are urgently needed against the disease, which progressively slows movement, impairs speech and even leads to dementia in some patients.

“Currently, the main treatment for patients with Parkinson’s is L-Dopa. This dopamine replacement therapy can manage symptoms, but it does not slow the progression of the disease,” she said.

“What happens is that, over time, the L-Dopa becomes less effective. There is only so much the drug can do – it can’t stop cell loss.”

Southern Research neuroscience
Rita Cowell chairs the Neuroscience Department at Southern Research.

The grant from The Michael J. Fox Foundation is Cowell’s third from the non-profit organization.

All of these projects share the long-term goal of finding ways to prevent cell loss in Parkinson’s disease.

Cowell said funding for supplies needed to collect critical preliminary data for The Michael J. Fox Foundation grant application stemmed from donations to Southern Research’s inaugural Change Campaign in 2018. The peer-to-peer fundraiser generated a total of $200,000 to advance research projects in neuroscience, oncology and sustainable chemistry.

“This is a prime example of how we often just need seed funding to promote good ideas. We had the ideas, but we just didn’t have the resources to pursue them,” Cowell said.

“We knew there were opportunities that would allow us to secure that extramural funding. The project simply needed that little nudge, and the Change Campaign provided it.”

Southern Research is in the process of planning its next Change Campaign event to support similar projects and increase the likelihood of identifying new ways to treat disease.

Southern Research’s Drone Academy propels students’ creativity to new altitudes

Posted on August 20, 2019

High school students from across the state and beyond have reached new heights in engineering and innovation this summer at Southern Research.

The organization’s first Drone Academy drew 124 students, split up into four one-week sessions. They represented more than 40 schools, mostly in Alabama, but also in Georgia, North Carolina, and California.

Each week, the students designed and produced fully functioning drones using 3D printers in the new STEM lab at the Birmingham campus. Then they took a field trip to an airport in Walker County to try out their creations.

Southern Research STEM
Josh Hill, left, and Caleel Holifield, both freshmen at Jefferson County International Baccalaureate School, show off the drones they built at Southern Research’s Drone Academy.

“This academy has allowed students to dive into the engineering design process,” said Kathryn Lanier, Ph.D., Southern Research’s STEM Education Outreach Director. “And not only do they get to design and print their own drone, they also get to take it home with them.

“They’re so proud by the end of the week, and I’m even more proud of what they have accomplished.”

Kamari Marzette, a 10th grade student at Ramsay High School in Birmingham, said she found the experience inspiring.

“What I learned this summer gave me the confidence to achieve things I never thought I was capable of,” Marzette said. “It was also really cool that the Academy was led by mostly women — it helps me believe that I can make my STEM dreams become a reality, too.”

‘NOVEL IDEA’

The idea to implement the Drone Academy program came about during the planning phase of the STEM lab, which opened last summer.

 Outfitted with equipment and supplies to conduct both physical and life science experiments, the facility has been the site of many camps and other programs that are part of a Southern Research goal to attract more students to STEM careers.

“When seeking funding we discovered that the Drone Academy program is one of a kind,” Lanier said. “While there are several drone programs offered around the country, there are no known programs that incorporate drone design and engineering using computer-aided design (CAD) software and 3D printing, especially in the state of Alabama.”

“The Drone Academy has been extremely successful in sparking students’ interest in STEM careers, and we are most grateful to the American Honda Foundation, Motorola Solutions Foundation, and Best Buy Foundation for providing almost $50,000 in funding to make this program possible,” Lanier added.

Additionally, Sanders Aviation partnered with Southern Research to provide visits to the flight training center at the Walker County Airport, where the students raced their drones and also learned about pilot’s license programs offered there.

Southern Research STEM
The Southern Research STEM Team, from left, Liz Johnson, Ph.D. (STEM Education Specialist), Kathryn Lanier, Ph.D. (Director), and Justin Sanders (STEM Education Specialist).

OVERCOMING CHALLENGES

Lanier and her team faced many challenges while building the program from the ground up, including mastering 3D printing and dividing the use of eight 3D printers among approximately 30 students each week, since each drone takes about four hours to print.

“There’s not a guide for this type of program out there, but now I think it’s one of the best programs we offer. People from other states are calling and asking about it.”

The Southern Research team also designed backup drones before the camps started, so the students would have something to take home if they struggled with their own projects.

“But by the middle of the first week, the students’ drone designs were better than our backups. They didn’t need the backup drones at all,” Lanier said.

GROWTH PLANS

Lanier said it’s exciting to see the organization’s STEM Education Outreach programs continue to grow.

Next year, she would like to add more 3D printers to the Drone Academy, as well as a new technology that would eliminate the need to provide a remote control for each student’s drone.

Chris Crawford, Ph.D., a University of Alabama computer science professor, has been involved in brain-controlled drone racing. It involves connecting electroencephalogram, or EEG, devices to drones and headsets, so people can race each other with their brains instead of controllers.

Southern Research STEM
Shelby Horton, left, and Elli Jones, both sophomores at Etowah High School, work on a project during Southern Research’s Drone Academy.

Crawford was a speaker during one of the Drone Academy sessions this summer, and Lanier hopes to collaborate with him again next year.

“Basically, you have to think about something really complex to get those beta brainwaves firing, and the harder you think, the more it will lift,” Lanier said. “One of the most expensive parts of this program is the remote controls, so maybe next year they could fly drones with the EEG headset instead of standard drone remotes.”

For now, though, Lanier is proud of the progress of the first class of Drone Academy graduates. Most of those who attended this summer had never used CAD software or 3D-printed anything.

“Some of their drones are Star Wars themed, some look like UFOs, some put on chicken feet as landing gear. Their designs are so creative and so much better than anything I could have ever made. They’ve really blown me away,” she said.

“It’s a rewarding experience for us to see them and for them to see themselves solving problems.”

Southern Research aims to speed drug discovery with 3-D bioprinting

Posted on July 25, 2019

Inside a Southern Research lab, a new 3-D bioprinter is silently stitching together a gelatin structure that mimics a human tumor, the device’s precise movements directed by a computer program’s highly detailed geometry.

In the future, Southern Research scientists will be able to use this tumor model, created with realistic three-dimensional architecture and implanted with living cells, as a revolutionary kind of testing platform to accelerate drug discovery efforts.

“Additive manufacturing technologies have the potential to improve how we develop drugs, which today is a hugely expensive process that too often fails,” said Stacey Kelpke, Ph.D., program manager for medical device technologies at Southern Research.

“With 3-D bioprinting, we can create models using human cells in a tumor that is structured just like you would see in someone’s body, increasing accuracy when drug candidates are being evaluated,” she added.

Southern Research additive manufacturing
Southern Research’s Stacey Kelpke shows Birmingham businessman Gene Robinson a computer image of an object being created by the 3-D Bioplotter. Robinson’s donation made the purchase possible.

Southern Research acquired its EnvisionTEC 3-D Bioplotter in June, thanks to a generous gift from Birmingham businessman Gene Robinson, who has become a champion of the game-changing potential of 3-D printing technologies. In further support of Alabama business, Southern Research purchased the Bioplotter from SWIGRO, an Auburn, Alabama-based company that is focused on additive manufacturing.

Robinson’s $100,000 donation was paired with $50,000 in federal grant funding to complete the purchase of the device capable of printing three-dimensional structures with biomaterials. Only a small number of the specialized devices are in use across the Southeast.

“Without Gene, none of this would have happened,” Kelpke said. “His vision will help advance drug discovery and development at Southern Research as we work to uncover new insights against a whole range of diseases and new therapies to combat them.”

OPENING NEW DOORS

Rebecca Boohaker, Ph.D., assistant fellow in Southern Research’s Oncology Department, said plans are already under way to integrate the 3-D Bioplotter into a sweeping range of future drug discovery research projects.

“We’re developing a skin model to test topical-based drugs that would protect against harmful agents that can be absorbed through the skin,” she said. “We can develop a 3-D lung model for cystic fibrosis for compound testing. That is aside from what I was initially interested in – tumor models. We can also develop 3-D models in Parkinson’s, Alzheimer’s and other diseases.”

During a recent visit to Southern Research, Robinson got an opportunity to see the 3-D Bioplotter in action, as the device meticulously built the structure of a miniature human brain, layer upon layer, in a demonstration.

Robinson, who has invested in an additive manufacturing company in Auburn, wants his gift to Southern Research to inspire other Alabama business leaders to make donations to spread the adoption of 3-D printing technology across the state. He’s also eager to see Alabama solidify its position as an emerging hub for the development of additive technologies.

“The business leaders of Alabama need to get behind this. We’re No. 1 in football, but that only goes so far. I want us to be No. 1 in additive manufacturing,” Robinson said.

Southern Research 3-D Bioprinting
Southern Research’s 3-D Bioplotter creates precise three-dimensional objects based on computer designs like this one of a miniature human brain.

Robinson, who founded the medical device company IMS in Birmingham, said he was interested in helping Southern Research acquire the 3-D Bioplotter because the device can make an impact.

“Since I sold my company in 2014, I have just been looking for something significant to do, something that can make a difference. You know, people donate to all kinds of causes, but what will make a difference? That’s what I asked myself. Then I called Stacey,” he said.

SPEEDING DEVELOPMENT

Thanks to its potential to industrialize the production of 3-D human tissues, Kelpke said bioprinting technology can help researchers address problems that have slowed drug development. The National Institutes of Health (NIH) says current methods of delivering new drugs can take decades, cost billions of dollars, and fail about 95 percent of the time.

Today, for example, researchers use 2-D cell models for testing potential drugs for activity against certain diseases, Kelpke said. But the cell-to-cell interaction can be quite different when the compound is tested in animal models. There are also issues with testing results derived from animal studies, which can be misleading or disappointing.

As a result, most drug candidates fail in clinical trials because they are shown to be unexpectedly ineffective or toxic, despite encouraging results in early testing.

To accelerate the technology’s development, the NIH’s National Center for Advancing Translational Sciences has established a bioprinting project so its scientists can develop 3-D laboratory-grown human tissue models that can be produced efficiently and at scale.

At Southern Research, Kelpke and Boohaker are assessing the full potential of the 3-D Bioplotter for the Birmingham-based organization’s Drug Discovery team.

The potential seems unlimited. In addition to realistic tumor models, Kelpke said the device could be used to print cartilage for joint replacements. It also has potential in unlocking the mystery of how to get medicines for Alzheimer’s past a barrier that blocks the path to the brain.

“For us, it’s really just imagine how you can use it, and you can build a 3-D structure and validate it,” Boohaker said.

Robinson wants his gift to Southern Research to spark a movement to make Alabama a leader in this transformational technology.

“I just hope that business leaders across Alabama will take a moment and start investigating additive manufacturing technologies and seeing how they can embrace it for their companies, how they can invest in additive companies, or how they can embrace it for the state of Alabama,” he said. “We don’t want to lose this opportunity.”

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Southern Research 3-D bioprinting
Southern Research’s 3-D Bioplotter creates an object based on a design controlled by a computer program. Southern Research plans to use the device to accelerate its drug discovery work.

SIPSE program inspires educators with real-world STEM experiences

Posted on July 22, 2019

Teachers from high schools across Alabama spent the summer working alongside scientists in the labs at Southern Research, and now they’re excited to take what they learned back to their classrooms and students.

The Summer Internship Program for STEM Educators, or SIPSE, just wrapped up its second year of offering the participants real-world applications of the subjects they teach.

“It was amazing,” said Devon Lusa, an honors chemistry and AP chemistry teacher at The Altamont School in Birmingham. “I feel like I’m going to be a better teacher in so many ways.”

Lusa was one of 11 SIPSE fellows who were assigned specific projects and paired with researchers from the Drug Discovery, Drug Development and Energy and Environment divisions at Southern Research. One fellow worked with professors at the University of Alabama, and two more fellows worked with professors at the University of West Alabama.

Southern Research STEM
Devon Lusa, an honors chemistry and AP chemistry teacher at The Altamont School in Birmingham, says the SIPSE program at Southern Research will help her in the classroom.

They all spent six weeks learning how scientists and engineers approach problems, design experiments, interpret data, communicate findings and develop and implement workplace solutions.

Lusa’s project was focused on creating an opioid replacement for morphine that would still reduce pain without the negative side effects of that drug.

“This was a great opportunity for me to become the expert, so when students ask, ‘When am I going to use this in the real world?’ I can tell them,” she said.

CLASSROOM STRATEGIES

All of the SIPSE fellows devised a strategy to improve how STEM subjects are taught in their classrooms. Lusa plans to introduce a new organic chemistry unit.

Nicole Daly, another SIPSE fellow and an environmental science teacher at Clay-Chalkville High School, designed an experiment to test the robustness of cell viability assays. She plans to relate her experience to her students with a study on bioluminescence, a light produced by a chemical reaction within a living organism.

“I learned so much, I got out of the classroom, I met great scientists and I did something I’ve never done before,” she said.

Other projects involved studying the development and treatments for certain diseases, identifying environmentally friendly production methods for commodity chemicals and studying the microbial community in Black Belt soil to aid improvements in farming practices.

EXPANDING PROGRAM

SIPSE was expanded this year to 14 intern spots, up from six last year. It also moved beyond Birmingham, with the placements at the University of Alabama and the University of West Alabama.

Participants receive a $4,500 stipend, as well as $500 for supplies to implement their strategy in the classroom.

Kathryn Lanier, Ph.D., Southern Research’s STEM Education Outreach Director, said her plan is for SIPSE to continue to grow each year, with more fellows and more diverse placements. Adding the universities was the first step; in the future, she hopes to place fellows at companies.

“The goal of SIPSE is to place teachers in authentic scientific internships, to give them that real-world experience and ignite a passion for discovery that they can take back to their students in the classroom,” she said.

 

Southern Research STEM
Teachers from high schools across Alabama spent the summer working alongside scientists in the labs at Southern Research as part of the SIPSE program.

 

Southern Research STEM
Nicole Daly, a SIPSE fellow and an environmental science teacher at Clay-Chalkville High School, presents her research to Dr. Eric Mackey, Alabama schools superintendent.

 

Southern Research STEM
Leeds High School chemistry teacher Samantha McKissack works alongside her SIPSE mentor Kevin Rodnizach, a Drug Discovery chemist at Southern Research.

 

 

 

 

 

 

 

 

 

2nd Southeast Energy Storage Symposium focuses on policy, regulation

Posted on July 17, 2019

Southern Research is again hosting the Southeast Energy Storage Symposium, bringing together an array of speakers and panelists to provide attendees with perspectives, benefits, challenges and trends in energy storage, solar policy and regulation.

Now in its second year, the event is begins today at Southern Research’s Oxmoor location on Tom Martin Drive.

The symposium is the only event of its kind in the region and includes keynote speeches and panel discussions featuring experts and professionals from Southern Research, Southern Company, the U.S. Department of Energy (DOE), Tennessee Valley Authority, NextEra, Avista Utilities, Electric Power Research Institute (EPRI) and DOE’s Oak Ridge National Laboratory, Pacific Northwest National Laboratory and Sandia National Laboratory, among many others.

Bert Taube, Ph.D., Energy Storage and Renewables Program Manager at Southern Research’s Energy & Environment division, said the symposium is designed to inform key industry stakeholders about the value of innovative energy storage systems in an effort to accelerate the technology’s development, testing and adoption.

Southern Research energy storage
Steve Baxley, R&D manager at Southern Company Services, is one of the industry panel moderators at Southern Research’s Southeast Energy Storage Symposium, which begins Wednesday, July 17, 2019

Taube said energy storage systems represent a critical technology in the smart electricity grids envisioned for the future because they will support important parts of grid modernization such as the integration of renewables or the coverage of peak demand to help lower costs and cut emissions.

“The symposium provides a collaborative forum for policymakers, regulators, utilities, vendors and technology integrators from the Southeast and across the U.S. Collectively, this group will discuss various aspects of energy storage, including grid interconnection, economic modeling, performance, safety, standards and regulation,” Taube said.

KEY TOPICS

Attendees will participate in a wide breadth of panels and sessions hosted by leaders in the industry.

Keynote presentations will be provided by Alejandro Moreno, DOE’s director of water power technologies; Jeff Burleson, senior vice president of environmental and system planning for Southern Company; and Tim Echols, a commissioner on Georgia’s Public Service Commission.

The symposium will cover topics such as emerging energy storage technologies and its impact on diversification of technologies in the grid infrastructure, regulatory and policy perspectives, project development and finance, economics and valuation, as well as compliance with safety and performance standards.

Panel moderators include:

  • Gary Brinkworth, director of technology and innovation at TVA
  • Richard Simmons, director of energy policy and innovation center at the Georgia Institute of Technology
  • Charlie Vartanian, senior technical advisor at Pacific Northwest National Laboratory
  • Steve Baxley, R&D manager at Southern Company Services
  • Russ Weed, president of CleanTech Strategies
  • Michael Starke, energy storage program manager, Oak Ridge National Laboratory.

EVALUATING TECHNOLOGY

Southern Research energy storage
Southern Research is formally opening its Energy Storage Research Center as an industrywide resource for testing and validating energy storage technologies. The center is located on Southern Research’s Oxmoor campus.

Attendees will be able to see the first grid-scale vanadium-redox flow battery test system from Avalon Battery to be tested and researched at Southern Research. Southern Research is partnering with Southern Company, EPRI, DOE and Oak Ridge National Laboratory to comprehensively evaluate the Avalon technology at the new Energy Storage Research Center, located on Southern Research’s Oxmoor campus.

The test system is expected to be integrated into the Southern Company system’s infrastructure after an extended period of grid-connected performance and safety testing in compliance with an industry-wide developed test manual.

“Flow battery systems have been around for years, but their adoption into mission-critical parts of utility infrastructures has been very limited,” Taube said.

“Flow batteries offer longer-duration energy storage, which makes them a potentially valuable option as a technology choice; however, researchers must continue to evaluate how they can be used to support grid-scale transmission and distribution systems.”

ENERGY STORAGE RESEARCH CENTER

This year’s symposium takes place on the heels of Tuesday’s ribbon-cutting ceremony for the Energy Storage Research Center, Alabama’s first industrywide resource to accelerate the development and deployment of energy storage technologies. The center is designed for third-party innovators from the electric utility industry, academia, government and technology companies to research, develop and demonstrate energy storage solutions.

Symposium attendees will learn more about the technologies and innovations under way at the Energy Storage Research Center and at other laboratories and utilities nationwide.

This year’s event will offer detailed perspectives on energy storage overall and with respect to policy and regulation. It will provide participants the opportunity to explore the various factors that impact current and future energy storage efforts in the Southeast and beyond.

 

Southern Research, energy companies and researchers join to open Energy Storage Research Center

Posted on July 16, 2019

Industry leaders joined Southern Research officials today to formally open the Energy Storage Research Center (ESRC), a facility on Southern Research’s engineering campus where collaborative efforts will aim to accelerate the development and deployment of next-generation energy storage technologies.

Southern Research collaborated with Southern Company and its Alabama Power subsidiary, the Electric Power Research Institute (EPRI), U.S. Department of Energy (DOE), DOE’s Oak Ridge National Laboratory and the state of Alabama to develop the ESRC.

The center will focus on grid-scale energy storage applications in combination with renewables in the Southeast region through the development of joint energy storage research, demonstration and test projects.

Additionally, the ESRC will serve as an industry-wide resource to evaluate the emerging energy storage technologies needed to fully realize the potential of renewable energy sources such as solar generation, and to improve the reliability and resiliency of the power grid.

“The Energy Storage industry is experiencing ever increasing growth, but not all installations are successful in running effectively and providing economic return,” said Imre Gyuk, Ph.D., director of Energy Storage Research at DOE’s Office of Electricity.

“A regional test center can provide needed validation of storage technologies as well as validation of business cases and benefit streams.”

Southern Research energy storage
Southern Research is formally opening its Energy Storage Research Center as an industrywide resource for testing and validating energy storage technologies. The center is located on Southern Research’s Oxmoor campus.

INDEPENDENT RESEARCH

Representatives from DOE, EPRI, Southern Company and the Alabama Department of Commerce spoke at this morning’s ribbon-cutting ceremony at the ESRC, underscoring the new facility’s significance in the field of energy storage.

The ESRC will serve as an independent research facility to provide third-party services on energy storage systems for technology vendors and users as well as other stakeholder groups.

The center’s overall goal is to facilitate technical and economic growth and development in the emerging energy storage market through joint research.

“As a leader in research and development, Southern Company is committed to advancing technologies that can help us continue to meet customer’s needs as the energy industry rapidly evolves,” said Roxann Walsh, Southern Company research and development director. “The Energy Storage Research Center will broaden our work with stakeholders and technology developers from across the industry to better understand energy storage systems and how to fully use this technology to build the future of energy.”

“Energy storage is a critical technology to enable electric power strategies for decarbonization and resilience,” said Mark McGranaghan, vice president, Integrated Grid, EPRI. “Objective research into energy storage can help realize the environmental, economic and societal benefits of further renewable energy integration, electric transportation and other emerging energy technologies. We are pleased to be part of ESRC’s collaborative energy storage testing and analysis effort.”

AVALON BATTERY

The ESRC currently features a flow battery system developed by Oakland, California-based Avalon Battery. A rechargeable flow battery stores energy directly in the electrolyte solution for longer cycle life and quick response times.

Matt Harper, co-founder and chief product officer at Avalon Battery, said he is pleased to support the ESRC in the mission to promote innovation in grid-scale energy storage systems.

“It was a great honor to have Avalon’s product, the result of years of dedicated work by a team with decades of flow battery experience, selected by the ESRC for evaluation. We look forward to working closely with Southern Research and the ESRC as they help build a clean energy future,” Harper said.

Bert Taube, Ph.D., energy storage and renewables program manager in

Southern Research Energy Storage
Southern Research officials joined energy company representatives and researchers at a ribbon-cutting ceremony for SR’s Energy Storage Research Center, July 16, 2019.

Southern Research’s Energy & Environment division, said a well-defined portfolio of validated, evaluated and demonstrated energy storage system technologies is critical to enable a variety of energy storage plus renewables use cases necessary to optimize the energy mix, increase grid resilience and power quality while minimizing the carbon footprint inherent in the power generation and delivery process.

“The ESRC represents a critical step of de-risking energy storage system deployments between the factory and the field through testing a range of technologies, systems and levels of integration applying a comprehensive staged test approach leveraging the unique ESRC software infrastructure with a platform for large-scale data collection and analysis to benchmark system functionality, safety and performance,” Taube said.

ADVANCING NEW TECHNOLOGIES

Experts say there is considerable potential for these technologies.

The Energy Storage Association says market research shows the global energy storage market is growing exponentially to an annual installation size of 40 gigawatts (GW) by 2022, up from an initial base of only 0.34 GW installed in 2012 and 2013.

Greg Canfield, secretary of the Alabama Department of Commerce, said the ESRC is an impressive technological accomplishment for Southern Research and its collaborators.

“This is another example of the cutting-edge technology development taking place right here in Birmingham at Southern Research,” Canfield said.

“The Energy Storage Research Center has the potential to help advance new clean-energy approaches that will allow utilities to create a more efficient and resilient energy infrastructure and to bring cost savings to consumers.”

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