Wednesday, September 20, 2017

Schalk, Walter

Thursday, March 3, 2016

Protecting National Security through Meteorology

by Sarah Fesenmyer (NOAA Research Communications)

Walt Schalk has spent his career as a meteorologist protecting national security. He has modeled the atmospheric spread of clouds of radioactive material from nuclear accidents, planned for the long-term storage of nuclear waste, and participated in atmospheric field experiments that increase the ability of the United States to monitor the testing of weapons around the world.

Mount Pinatubo Eruption

Mount Pinatubo Eruption

View of Mount Pinatubo on June 12, 1991, from Clark Air Base in the Philippines. Schalk and colleagues predicted the spread of ash clouds to aid in aircraft evacuation routes. (Credit: NOAA/NGDC, R.S. Culbreth, U.S. Air Force)
Schalk started out as a traditional weather enthusiast and meteorologist. He grew up in the Chicago suburbs and always loved thunderstorms, fascinated by how one minute the weather was perfect, and ten minutes later you were running for your basement. Schalk was particularly interested in the lightning strikes that frequently hit power poles near his house.

In high school, he joined a meteorology club and made weather observations on the roof of the school twice a day. Schalk also had his own weather station at home. He called in his observations every night to WGN-TV, a local TV station, sometimes receiving an on-the-air mention, “and Walt Schalk reported a low of 13°F out in Elmhurst …” Schalk pursued a meteorology degree at Northern Illinois University and then went on to graduate studies at Florida State University, based on his interest in hurricanes.

A NOAA weather tower

A NOAA weather tower

Schalk’s NOAA team provides a meteorological support program to the Nevada National Security Site. (Credit: Schalk)
Then his career as a meteorologist launched in a different direction. Just out of graduate school, Schalk got a job working for the U.S. Department of Energy’s Lawrence Livermore National Laboratory, responding to toxic chemical and radiological incidents around the world, such as nuclear power plant accidents. His group calculated the spread of plumes of hazardous materials in the atmosphere.

In 1991 Mount Pinatubo in the Philippines erupted in the second-largest volcanic event of the 20th century, spewing a massive cloud of volcanic ash over hundreds of miles. The U.S. Air Force’s Clark Air Base lay at the foot of the mountain. To aid in the immediate evacuation of thousands of Americans from the base, the Air Force called on Schalk’s team at Lawrence Livermore to predict the exact location and concentrations of the ash plumes coming from the volcano. The Air Force used this real-time modeling of the plumes to plan precise aircraft evacuation routes, allowing Air Force pilots to avoid concentrations of ash high enough to damage jet engines and cause engine failure. Schalk took satisfaction in providing crucial information for the safety of U.S. Air Force personnel, their families, and local residents at this dramatic moment.

Schalk is now Director of the Special Operations and Research Division (SORD) of NOAA’s Air Resources Laboratory, where he has worked for the past 17 years. His team provides a meteorological support program to the Nevada National Security Site, a remote piece of land the size of Rhode Island where the U.S. Department of Energy (DOE) conducts high-hazard operations, testing, and training. SORD supports national defense missions by providing meteorological information, such as fine-scale weather forecasts for field experiments, as well as model predictions for the spread of hazardous materials through the air in the event of an accidental spill.

Nevada National Security Site

Nevada National Security Site

Subsidence craters from past underground testing dot the landscape at the Nevada National Security Site. (Photo courtesy of National Nuclear Security Administration/Nevada Site Office)
“One of the major jobs of SORD is to provide precise weather forecasts for the safe execution of DOE experiments,” explains Schalk. “For example, there should be no chance of lightning during experiments that use explosives.”

The Nevada National Security Site is a vast, empty desert ranging from dry lakes to mesas to low mountains. Moon-like craters dot the landscape from past nuclear test explosions, but they are all several decades old. The U.S. has maintained a moratorium on explosive nuclear weapons testing since 1992. Schalk says that one project for which SORD supports DOE work is nonproliferation experiments. DOE simulates explosions at the Nevada National Security Site to help the United States know what to look for when using remote sensing to monitor the nonproliferation of nuclear weapons programs around the world. During an experiment, Schalk’s team launches balloons with instruments that detect wind speed and other atmospheric data; DOE feeds this data into their remote sensing models.

“I am proud to help make our nation safer,” says Schalk of his work for NOAA. Although not the career path he originally expected, Schalk loves his job and feels a strong sense of purpose every day. He enjoys applying his skills in modeling atmospheric dispersion and in weather forecasting to a continual series of different challenges and contexts. “There is always a new little twist,” says Schalk. “This work is never boring.”




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