It was the coldest day on record in Indiana, with temperatures reaching 25 degrees Fahrenheit below zero.
The Weather Service, using the existing wind-chill formula, determined that with winds of about 15 miles per hour, the air temperature felt as if it were 65 degrees below zero — capable of causing frostbite within 15 seconds. Stay indoors, the service advised.
But as he shoveled away, Dr. Bluestein found that it really did not feel all that cold.
“He kept taking off layers of clothing,” Karen Bluestein said in a telephone interview. “He was sweating, thinking: ‘This makes no sense. I wonder who came up with this.’ ”
Dr. Bluestein had always been interested in how engineering could be applied to meet personal human needs. He worked on the Apollo space program to help create spacesuits that addressed waste management for NASA’s first moon landing. He worked for the Department of Veterans Affairs on designs for artificial limbs, and for Litton Medical Systems in its development of ultrasound imaging for detecting breast cancer.
This time, he set out to improve what he deemed an inaccurate, and alarmist, measurement for wind chill.
“The old system scared people into taking unnecessary actions,” Dr. Bluestein told The Wausau Daily Herald in Wisconsin 2001. “There are schools, for instance, that close at certain wind-chill temperatures when perhaps they shouldn’t be closed.”
The two scientists who developed the original system, Paul Siple and Charles Passel, based their research in the 1940s on a simple experiment: They hung water bottles from a pole on the roof of their research building and measured how quickly the water lost heat (or how quickly the water turned to ice). At the same time, they measured the surrounding air temperature and wind speed.
They found that the higher the wind speed, the faster the water froze. For people, that meant the windier it was, the faster they lost heat and the colder they felt.
Dr. Bluestein found numerous flaws with the experiment. The researchers had assumed that the temperature of human skin was 90 degrees Fahrenheit (it was closer to 50 degrees on a really cold day); they had placed the containers 33 feet above the ground, where wind speeds are higher (rather than the height of a person); and they took their measurements where it is far colder than where most people live.
Dr. Bluestein ruminated over the problem for several years, until he went to a conference and met Randall Osczevski, a Canadian scientist, who had also been questioning the wind-chill formula.
Mr. Osczevski, an environmental physicist who worked for the Canadian defense department, had built a temperature-controlled artificial human head to monitor heat loss at a height of five feet, closer to the height of a typical human face, and had performed experiments at a military laboratory in Toronto. These focused on the face, because it is typically the most exposed part of the body on a winter day.
The two began studying wind chill and wrote papers about their findings, drawing the attention of both the United States and Canadian governments in 2001. Soon they were enlisted by both countries to develop a new formula.
As part of the project they conducted a series of experiments with 12 people, male and female, measuring heat loss from the face in cold and wind as they walked on treadmills in a wind tunnel at different temperatures. A “wet trial” sprayed participants’ faces with a splash of water every 15 seconds to measure whether the presence of precipitation would make people feel colder.
After plotting the data, they found that in some cases the original wind chill index was off by just a few degrees, but that the discrepancy grew at higher wind speeds. It confirmed what many meteorologists had already suspected: The old calculation had exaggerated.
“We think people will now take it more seriously,” Dr. Bluestein said of wind chill.
Maurice Bluestein was born on Jan. 1, 1941, in the Bronx to immigrants from Poland. His father, Lester Bluestein, was an embroiderer; his mother, the former Beatrice Wargon, was a homemaker.
He was accepted for admission by the City College of New York at age 16 and earned his engineering degree in 1962. He received a master’s in mechanical engineering from New York University in 1964 and a Ph.D. in biomechanical engineering from Northwestern University in 1967.
He taught mechanical engineering at Indiana University-Purdue University in Indianapolis for about 19 years. While there, he revised a textbook called “Thermodynamics and Heat Power,” originally written by Irving Granet.
In addition to his daughter Karen, he is survived by his wife, Maris, whom he married in 1962; a son, Richard; another daughter, Jennifer; and two grandchildren.
Even after their formula became widely used, Dr. Bluestein and Mr. Osczevski conceded that no two people can feel the cold the same way.
Some people are able to retain heat more than others, and people with better insulation, or fat, may feel cold more quickly than thinner people. That is because fat traps the heat in the body’s core, away from the skin, which then gets cold. The time of day also matters, and whether a person is standing in the sun.
But the new formula, and the snowy day that inspired Dr. Bluestein to calculate it, still received wide attention in the news media. One newspaper reader who worked with Dr. Bluestein’s daughter approached her at the office with some feedback.
“Next time,” he told her, “don’t be a wimp. Shovel your own driveway.”
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